Extension Agent's Handbook for Emergency Preparation and Response
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The Extension Agent's Handbook for Emergency Preparation and Response
A Special Project by Texas Agricultural Extension Service and Hazard Reduction and Recovery
Center with funding provided by Extension Service-United States Department of Agriculture
Dr. D. L. Bilbo Jay Todd
Project Director Project Associate
Introduction
The Extension Agent's Handbook for Disaster Preparedness and Response can be a valuable
response tool for you, the Extension agent, in times of emergency or as an aid in preparedness
education activities. The Handbook is divided into two parts to provide the information you need
in an easy-to-use format. The first section of the Handbook, General Family Preparedness,
provides basic information you may need to access quickly in any disaster or emergency situation.
It also may be used as a preparedness education tool for the public.
The second section of the Handbook covers 10 disaster specific situations. For the purposes of
this manual, a disaster is any event which drastically affects a person's life or livelihood. Floods,
fires, hurricanes, tornadoes, winter storms, earthquakes, droughts and volcanic eruptions are
considered to be natural disasters, events over which one usually has no control. Radiological and
hazardous materials, accidents may be caused by the failure of people to maintain control over the
operation, transportation or storage of certain materials. In addition to an overview of the disaster,
each section provides a series of preparedness measures and post-disaster responses that should be
taken in conjunction with those outlined in the General Family Preparedness section.
This handbook is not intended to cover every situation. It provides basic information you will need
for a disaster situation and early post-disaster response. Because every community is different,
special consideration for the local area should be taken into account along with the information
provided in the Handbook. Pages and sections of the Handbook may be removed and
photocopied. Information is structured in a manner conducive to public use. Extension agents are
encouraged to provide copies of the material to the public both as "preventive education" and for
response needs. This Handbook was developed as a joint effort of Extension Service-United States
Department of Agriculture, the Texas Agricultural Extension Service and the Hazard Reduction
and Recovery Center, Texas A&M University.
The information given herein is for educational purpose only. Reference to commercial products
or trade names is made with theunderstanding that no discrimination is intended and no
endorsement by the Texas Agricultural Extension Service is implied. Educational programs
conducted by the Texas Agricultural Extension Service serve citizens of all ages regardless of
socioeconomic level, race, color, sex, religion, disability or national origin. Issued in furtherance of
Cooperative Extension Work in Agriculture and Home Economics, Acts of Congress of May 8,
1914, in cooperation with the United States Department of Agriculture. Zerle L. Carpenter,
Director, Texas Agricultural Extension Service, The Texas A&M University System. 9/94
Acknowledgments
The following agencies and individuals have contributed to the development of this handbook.
American Red Cross-National Headquarters American Red Cross-Brazos Valley Chapter
Arkansas Cooperative Extension Colorado Earthquake Hazard Reduction Program (CEHRP)
Federal Emergency Management Agency Florida Cooperative Extension Service Hazard
Reduction and Recovery Center-Texas A&M University Agriculture-Agriculture (Ag-USDA)
United States Fire Administration (USFA) Washington State Cooperative Extension Meri K.
Appy - NFPA Dr. David Bilbo - TAEX/HRRC Dr. Wayne Blanchard - FEMA Dr. Judith Bowers
- ES-USDA Dr. Billy Caldwell - NC Extension Jim Coyle - USFA Dr. Chester Fehlis - TAEX Dr.
Guy Fipps - TAEX Wilma Hammet - NC Extension Dr. Phil Hamman - TAEX Catherine Henry -
NC EM Dr. Glenda Herman - NC Extension Dr. Jennie Kitching - TAEX Harriet Jennings - NC
Extension Virginia Kimball Dr. Bruce Lesikar - TAEX Shirley Lewis - TAEX Dr. Elizabeth
Limersal - FEMA Dr. Rocky Lopes - ARC Mary Fran Myers - Natural Hazards Center Dr.
Sherry Oaks - CEHRP Dr. Nell Page - TAEX Greg Parham - ES-USDA Dr. Susan Quiring -
TAEX Brad Rein - ES-USDA Gordon Riall - TAEX Dr. Milo Schult - AR Extension Greg Stark
- Texas Agri-Business Electric Bob Stephens - WA Extension Dr. John Sweeten - TAEX
William Thomas - B/CS Red Cross Jay Todd - TAEX Dr. Doug Welsh - TAEX Dr. Dennis
Wenger - HRRC Don Wernly - National Weather Service Sandra Zaslow - NC
ExtensionSupplemental funding for reproduction and distribution provided by the College of
Architecture Texas A&M University.
General Family Preparedness
Disasters can affect any part of the United States at any time of the year, swiftly and without
warning. Most people don't think of a disaster until it is too late; then they suddenly realize how
unprepared they are for the massive changes it makes in their lives. Local officials can be
overwhelmed and emergency response personnel may not be able to reach everyone who needs
help right away. Each type of disaster requires clean-up and recovery. The period after a disaster
is often very difficult for families, at times as devastating as the disaster itself. Families which are
prepared ahead of time can reduce the fear, confusion and losses that come with disaster. They
can be ready to evacuate their homes, know what to expect in public shelters and how to provide
basic first aid.
Family Disaster Supply Kit
One of the first steps toward preparedness is the creation of a family disaster supply kit. This will
help families get through the first few days after a disaster. Public shelter after a disaster may not
offer some of the basic necessities. The development of a kit will make a stay in a public shelter
more comfortable,should it be necessary. Store the kit in a convenient place known to all family
members. Store items in airtight bags or containers. Replenish the kit twice a year. Include six
basic items: Water,Food,First Aid Kit, Tools and Supplies, Clothing and Bedding, Special Items:
1. Water
Store water in clean plastic containers such as thoroughly washed and rinsed soft drink bottles
with tight fitting screw-on caps. Store 1 gallon per day per family member (2 quarts for drinking, 2
quarts for food preparation/ sanitation). Children, nursing mothers and ill people will need more.
A 3-day supply of water should be stored for every family member. Replace water every 6
months.
2. Food
Store at least a 3-day supply of non-perishable food. Select foods that require no refrigeration,
preparation or cooking and little or no water. If you must heat food, pack a can of sterno. Rotate
these foods into the regular diet frequently to keep the supply fresh. In a disaster supply kit
include: Ready-to-eat canned meats, fruits and vegetables Canned juices, milk, soup (if powdered,
store extra water) Staples such as sugar, salt, pepper High energy foods such as peanut butter,
jelly, crackers, granola bars, trail mix, 2-inch and 4-inch sterile gauze pads (4-6 of each),
Hypoallergenic adhesive tape, Triangular bandages (3), 2-inch and 3-inch sterile roller bandages (3
rolls each), Scissors, Tweezers, Needle, Moistened towelettes, Antiseptic, Thermometer Tongue
blades (2), Sunscreen, Tube of petroleum jelly or other lubricant, Assorted sizes of safety pins,
Cleansing agent/soap, Latex gloves (2 pairs), Non-prescription drugs, Aspirin or nonaspirin pain
reliever, Anti-diarrhea medication, Antacid (for stomach upset), Syrup of Ipecac (use to induce
vomiting if advised by the Poison Control Center), Laxative, Activated charcoal (use if advised by
the Poison Control Center)
4. Tools and Supplies
Various tools and supplies may be needed for temporary repairs or
personal needs. Include these items in your disaster supply kit:
Battery operated radio and extra batteries
Flashlight and extra batteries
Non-electric can opener, utility knife
Map of the area (for locating shelters)
Cash or traveler's checks, change
Fire extinguisher: small canister, ABC type
Tube tent
Pliers
Tape
Compass
Matches in waterproof container
Aluminum foil
Plastic storage containers
Signal flare Paper, pencil
Needles, thread
Medicine dropper
Shut-off wrench, to turn off household gas and water
Whistle
Plastic sheeting
Mess kits or paper cups, plates and plastic utensils
Emergency preparedness manual
Sanitation
Toilet paper
Soap, liquid detergent
Feminine hygiene supplies
Personal hygiene items
Plastic garbage bags, ties (for personal sanitation uses)
Plastic bucket with tight lid
Disinfectant
Household chlorine bleach
5. Clothing and Bedding
Your disaster supply kit should include at least one complete change
of clothing and footwear per person. Items to include are:
Sturdy shoes or work boots
Rain gear Blankets or sleeping bags
Hat and gloves
Thermal underwear
Sunglasses
6. Special Items
Family members may have special needs. Other items you may add to your kit include:
For Babies:
Formula, Diapers, Bottles, Powdered milk, Medications,
For Adults:
Heart and high blood pressure medication, Insulin, Prescription drugs, Denture needs, Contact
lenses and supplies, Extra pair of eye glasses, Games and books.
Important Family Documents:
Keep these in a waterproof, portable container. Wills, insurance policies, contracts, deeds,
stocks and bonds, Passports, social security cards, immunization records, Bank account numbers,
Credit card account numbers and companies,Inventory of valuable goods, important telephone
numbers,Family records (birth, marriage,death certificates)
4-Step Family Preparedness Plan
In addition to your family disaster supply kit, develop a family preparedness plan. This plan
needs to be known to all family members. A basic preparedness plan has four steps: Do your
homework Create a family disaster plan Make a checklist and periodically update it Practice and
maintain your plan
1. Do your homework
Find out what disasters could happen in your area. Contact your local emergency management
or civil defense office and American Red Cross chapter to:
Learn which disasters are possible where you live and how these
disasters might affect your family.
Request information on how to prepare and respond to each potential disaster.
children's school or day-care center, as well as other places where your family spends time.
Develop a list of important telephone numbers (doctor, work, school, relatives) and keep it in
a prominent place in your home. Ask about animal care. Pets may not be allowed inside
shelters
because of health regulations.
2. Create a family disaster plan
Discuss with your family the need to prepare for disaster. Explain the danger of fire, severe
weather (tornadoes, hurricanes) and floods to children. Develop a plan to share responsibilities and
how to work together as a team. Discuss the types of disasters that are most likely to occur and
how to respond. Establish meeting places inside and outside your home, as well as outside the
neighborhood. Make sure everyone knows when and how to contact each other if separated.
Decide on the best escape routes from your home. Identify two ways out of each room. Plan how
to take care of your pets. Establish a family contact out-of-town (friend or relative). Call this
person after the disaster to let them know where you are and if you are okay. Make sure everyone
knows the contact's phone number. Learn what to do if you are advised to evacuate.
3. Make a checklist and periodically update it
Post emergency telephone numbers by phones (fire, police, ambulance, etc.). Teach your
children how and when to call 911 or your local EMS number for help. Show each family
member how to turn off the water, gas and electricity at the main valves or switches. Teach each
family member how to use a fire extinguisher (ABC type) and have a central place to keep it.
Check it each year. Install smoke detectors on each level of your home, especially near bedrooms.
Conduct a home hazard hunt. Stock emergency supplies and assemble a disaster supply kit. Learn
basic first aid. At the very
least, each family member should know CPR, how to help someone who is choking and first aid
for severe bleeding and shock. The Red Cross offers basic training of this nature. Identify safe
places in your home to go for each type of disaster. Check to be sure you have adequate insurance
coverage.
4. Practice and maintain your plan
Test children's knowledge of the plan every 6 months so they remember what to do. Conduct
fire
and emergency evacuation drills. Replace stored water and food every 6 months. Test your smoke
detectors monthly and change the batteries once a year.
And... In conjunction with the preparedness plan, working with neighbors can save lives and
property. Meet with neighbors to plan how the neighborhood could work together after a disaster
until help arrives. Members of a neighborhood organization, such as a home association or crime
watch group, can introduce disaster preparedness as a new activity. Know your neighbors' special
skills (medical, technical) and consider how to help neighbors who have special needs, such as
disabled and elderly persons. Make plans for child care in case parents can't get home.
Preparing Children for Disaster
As you develop your preparedness plan, include children in the planning process. Teach your
children how to recognize danger signals. Make sure they know what smoke detectors and other
alarms sound like. Make sure they know how and when to call for help. If you live in a 9-1-1
service area, tell your child to call 9-1-1. If not, check your telephone directory for the number.
Keep all emergency numbers posted by the phone. People with disabilities may need to take
additional steps to prepare for disaster. If you are disabled or know someone who is, the following
precautions should be taken. Ask about special assistance that may be available to you in an
emergency. Many communities ask people with disabilities to register, usually with the fire
department or emergency management office, so needed help can be provided quickly in an
emergency. If you currently use a personal care attendant obtained from an agency, check to see if
the agency has special provisions for emergencies (e.g. providing services at another location
should an evacuation be ordered).
Determine what you will need to do for each type of emergency. For example, most people
head for a basement when there is a tornado warning, but most basements are not wheelchair
accessible. Determine in advance what your alternative shelter will be and how you will get there.
Learn what to do in case of power outages and personal injuries. Know how to connect or start a
back-up
power supply for essential medical equipment. If you or someone in your household uses a
wheelchair, make more than one exit from your home wheelchair accessible in case the primary
exit is blocked. Consider getting a medic alert system that will allow you to call for help if you are
immobilized in an emergency. Store back-up equipment, such as a manual wheelchair, at a
neighbor's home,school or your workplace. Avoid possible hazards by fastening shelves to the wall
and placing large, heavy objects on the lower shelves or near the wall. Also hang pictures or
mirrors away from beds. Bolt large pictures or mirrors to the wall. Secure water heaters by
strapping them to a nearby wall.
Special Preparations for the Hearing Impaired
Deaf or hearing impaired individuals will have a more difficult time communicating after a
disaster. People may not realize you can't hear warning signals and instructions, and may leave
you behind. If there is a power failure, your teletypewriter will be useless, and communicating in
the dark will require a flashlight. To avoid potential problems you should:
Make sure you have a flashlight, pad and pencil by your bed at home. Ask a neighbor to be
your source of information as it comes over the radio. Remind co-workers that you can't hear an
evacuation
order. If you are trapped in a room, knock on the door or hit objects together to let others know
you are there.
Special Preparations for the Visually Impaired
Blind or visually impaired individuals will have a difficult time after a disaster if surroundings
have been greatly disrupted. In addition, seeing eye dogs may be too frightened or injured to be
reliable. Have an extra cane at home and work, even if you have a seeing eye dog. If you are
trapped, make noise to alert others. Also keep in mind that, if electricity fails, blind people can
assist sighted people and potentially save lives.
Evacuation Procedures
Evacuations during a disaster are a common event. Evacuation procedures vary by location and
disaster. Contact your local emergency management or civil defense office for specific evacuation
plans. The amount of time you will have to evacuate depends on the disaster. Some disasters,such
as hurricanes, may allow several days to prepare. Hazardous materials accidents may only allow
moments to leave. This means that preparation is essential since there may not be time to collect
the basic necessities. Evacuations can last for several days. During this time you may be
responsible for part or all of your own food, clothing and other supplies.
Preparing for Evacuation
Advance planning will make evacuation procedures easier. First, you should have your family
disaster supply kit and plan ready. Additional steps that can aid preparedness include:
1. Review possible evacuation procedures with your family. Ask a friend or relative outside your
area to be the check-in contact so that everyone in the family can call that person to say they
are safe. Find out where children will be sent if they are in school when an evacuation is
announced.
2. Plan now where you would go if you had to evacuate. Consider the homes of relatives or
friends
who live nearby, but outside the area of potential disaster. Contact the local emergency
management office for community evacuation plans. Review public information to identify
reception
areas and shelter areas.
3. Keep fuel in your car's gas tank at all times. During emergencies, filling stations may be
closed. Never store extra fuel in the garage.
4. If you do not have a car or other vehicle, make transportation arrangements with friends,
neighbors or your local emergency management office.
5. Know where and how to shut off electricity, gas and water at main switches and valves. Make
sure you have the tools you need to do this (usually pipe and crescent or adjustable wrenches).
Check with your local utilities for instructions.
Evacuating
When you are told to evacuate there are four steps you need to take:
1. If there is time, secure your house. Unplug appliances. In a flood hazard area, store propane
tanks or secure them safely to the structure. Turn off the main water valve. Take any actions
needed to prevent damage to water pipes by freezing weather, if this is a threat. Securely close
and lock all doors, windows and garage.
2. Follow recommended evacuation routes. Do not take shortcuts,
they may be blocked.
3. Listen to the radio for emergency shelter information.
4. Carry your family disaster supply kit.
Returning Home After the Disaster
1. Do not return until the local authorize doing so. There may be leaking gas or other
flammable materials present. Use battery-operated flashlights for light. If you
suspect a gas leak, do not use any kind of light. The light itself could cause an
explosion.
5. If you smell leaking gas, turn off the main gas valve at the meter.
If you can open windows safely, do so.
Do not turn on lights they can produce sparks that may ignite the gas.
Leave the house immediately and notify the gas company or the
fire department.
Do not reenter the house until an
authorized person tells you it is safe to do so.
6. Notify the power company or fire
department if you see fallen or damaged electrical wires.
7. If any of your appliances are wet, turn
off the main electrical power switch in your home before
you unplug them. Dry out appliances, wall switches and
sockets before you plug them in again. Call utility
companies for assistance.
8. Check food and water supplies for
contamination and spoilage before using them.
9. Wear sturdy shoes when walking through broken glass or debris,
and use heavy gloves when removing debris.
10. After the emergency is over, telephone your family and friends
to tell them you are safe.
When Disaster Strikes
Hopefully you will never have to experience disaster. When it does
happen, however, try to remain calm and patient and put your family
preparedness plan into action. You should follow the following
steps:
Retrieve your disaster supply kit.
Wear protective clothing and sturdy shoes.
Confine or secure pets to protect them.
Go to the safe place in your home you identified and stay there
until well after the disaster is over.
Listen to your battery-powered radio for news and
instructions.
Evacuate, if advised to do so.
The Role of Government After a Disaster
After a preliminary damage assessment report has been completed, the
governor of a state can request a major disaster or emergency
declaration from the president.
Declaration of an Emergency. The president can issue a Declaration
of Emergency to supplement the state and local effort to save lives
and protect property. The president can act only after a state
governor has requested a Declaration of an Emergency be issued.
Total assistance provided in any given emergency declaration may not
exceed $5 million. Declaration of a Major Disaster. A major
disaster declaration may be requested by the governor to the
president after a natural catastrophe occurs. Assistance is offered
to both the public and private sectors. With the declaration, the
Federal Emergency Management Agency (FEMA) has the authority to
engage the services of 12 federal departments, two agencies, one
commission, one corporation and one authority offering 97 different
Federal assistance programs. These 97 programs provide many
different services to help people and state and local governments
deal with recovery from a disaster. A listing of the main agencies
that provide assistance can be found in General Family Preparedness,
Insurance and Resources After a Disaster.
Emotional Recovery After a Disaster
In addition to the physical damage a disaster brings, stress and
emotional disequilibrium need to be addressed by victims. Steps you
can take to reduce the effects of a disaster include:
Be extra patient.
Keep in mind that other people may have a different viewpoint about
what should be top priority.
Realize that it will take time to restore things, both physically
and e
for them to express disbelief, sadness, anger, anxiety and
depression. Also realize that these emotions and moods can change
unexpectedly.
Helping Children Cope After a Disaster
Children may require special attention after experiencing a
disaster. Four common fears children have are death, darkness,
animals and abandonment. In a disaster children may experience any
or all of these. You should encourage children to talk about what
they are feeling and to express this through play, drawing or
painting.
A child's reaction to a disaster may vary depending on age, maturity
and previous experience. In all cases it is important to acknowledge
what happened and take time to talk with children about their fears.
Some behaviors you may find children exhibiting after a disaster
include:
Being upset at the loss of a favorite toy, blanket, teddy bear, etc.
Hitting, throwing or kicking to show their anger and frustration.
Fear of the disaster coming again.
Fear of being left alone or sleeping alone. They may want to sleep
with another person.
Behaving as they did when they were younger, including wetting
the bed, sucking their thumb, wanting to be held, etc.
Exhibiting symptoms of illness such as nausea, fever, headaches,
not wanting to eat, etc.
Becoming quiet and withdrawn. Becoming easily upset.
Feeling that they caused the disaster in some way.
Feeling neglected by parents who are busy cleaning up or rebuilding.
Refusing to go to school or to be out of the parent's sight.
Parents and other adults can help children come to terms with their
feelings in several ways.
Let children know you love them and they can count on you.
Reassure them that they are not responsible for what occurred.
Talk with your children about your own feelings.
Give simple, accurate answers to children's questions.
Hold them. Close contact assures children you are there for
them and will not abandon them.
Let children grieve for a lost toy or blanket that was special
to them. It will help them cope with their feelings.
Provide play experiences to relieve stress.
Repeat assurances and information as often as you need to; do not
stop responding.
Spend extra time putting children to bed at night.
Listen to what children say. Repeat their words to clarify what
they are feeling. If additional help is needed for adults or
children, contact a community resource such as a counseling
center, minister or mental health agency.
Food Safety
Food safety precautions can make an important difference after a
disaster occurs. Food can become contaminated as a result of fire,
flood and wind related exposure. It also may spoil or become unsafe
after a power outage.
Precautions Against Power Outages
If your area comes under an advisory that may lead to prolonged power
outages (hurricanes, prolonged flooding, etc.) take these steps to
help keep your food safe:
Turn your refrigerator and freezer to the coldest setting. This
will help the food stay frozen. Purchase a 50-pound block of dry ice.
This will keep food in a full 18 cubic foot freezer safe for 2
days. Wrap it in brown paper for longer storage. Separate it
from direct food contact with a piece of cardboard.
Fill partially filled freezers with crumpled newspaper to reduce
air currents which will dissipate dry ice.
After a Power Outage
If you should lose power, the emergency food supplies in your family
disaster supply kit will be safe. Food in the refrigerator and freezer may be in trouble.
Generally, food in a refrigerator will be safe if the following measures should be taken.
Group meat and poultry to one side, or on a tray, so their juices won't contaminate other foods
if they begin to thaw.
Be wary of using meat, poultry and foods containing milk, cream, sour cream or soft cheese.
Don't rely on odor or appearance of food. If perishable food has been at room temperature for
more than 2 hours, discard it.
In emergency conditions, the following foods should keep at room temperature (above 40°F) a
few days. Discard anything that turns moldy or has an unusual odor or look.
Butter, margarine
Fresh fruits and vegetables
Dried fruits and coconut
Opened jars of salad dressing, peanut
butter, jelly, relish, taco sauce, barbecue sauce, mustard,
catsup, olives
Hard and processed cheeses
Fruit juices
Fresh herbs and spices
Flour and nuts
Fruit pies
Bread, rolls, cakes and muffins Discard the following foods if kept
for more than 2 hours above 40°F.
Raw or cooked meat, poultry and
seafood
Milk, cream, yogurt, soft cheese
Cooked pasta, pasta salads
Custard, chiffon or cheese pies
Fresh eggs, egg substitutes
Meat topped pizzas, lunchmeats
Casseroles, stews or soups
Mayonnaise and tartar sauce
Refrigerator and cookie doughs
Cream filled pastries
Refreeze thawed foods that still contain ice crystals or feel cold.
Tornado and Wind Related Contamination
If you live in an area that has sustained tornado or wind damage,
take the following measures.
Drink only approved or chlorinated
water.
Consider all water from wells, cisterns
and other delivery systems in the disaster area unsafe until
tested. Check foods and discard any containing
particles of glass or slivers of other debris.
Discard canned foods with broken
seams.
Flooded Food Recovery
Flood waters may carry contaminants such as silt, raw sewage or
chemical waste. Disease bacteria in the water also can contaminate
any food it touches. If you have experienced flood conditions,
follow these guidelines:
Save undamaged commercially canned
foods (except as noted later). Do not use home-canned foods
that have been covered with flood water. Commercial glass jars of food are safe if the
containers are sanitized (except as noted later). Remove the labels from jars and cans and mark
the contents on can or jar lid with indelible ink. Paper can harbor dangerous bacteria. To sanitize
jars, cans, dishes and glassware, wash in a strong detergent solution with a scrub brush. After
washing, immerse them in a solution of 2 teaspoons chlorine bleach per gallon of room
temperature water. Air dry before using. If needed, clean empty glass also may be sanitized by
boiling in water for 10 minutes. To sanitize metal pans and utensils, boil
in water for 10 minutes. Discard wooden and plastic utensils, baby nipples, pacifiers and any
other porous nonfood items that are used with food. Discard the following foods:
Meat, poultry, fish and eggs
Fresh produce
Preserves sealed with paraffin
Unopened jars with waxed cardboard
seals such as mayonnaise and salad dressing
All foods in cardboard boxes, paper, foil,
cellophane or cloth
Spices, seasonings and extracts
Home-canned foods
Opened containers and packages
Flour, grain, sugar, coffee and other
staples in canisters
Dented, leaking, bulging or rusted cans
Food Safety After a Fire
Fire and fire retardant chemicals release toxic fumes that contaminate food.
Discard any type of food stored in permeable packaging such as
cardboard or plastic wrap. Discard raw food outside the
refrigerator. Food in refrigerators and freezers also may be
contaminated. The seal on these appliances is not completely
airtight. Discard any food with an off-flavor or smell. The
chemicals used to fight fires contain toxic material that can
contaminate food and cookware. Throw away foods exposed to the
chemicals. Chemicals cannot be washed off the food. This includes
foods stored at room temperature, as well as foods stored in
permeable containers such as cardboard and screw-topped jars and
bottles.
Sanitize canned goods and cookware in the same method as recommended
for flooded foods.
Insurance and Resources After a Disaster
Most homeowner policies offer coverage for losses due to natural disasters except flooding. If
you are unsure what your policy covers, check it before a disaster happens. Contact your agent for
clarification if you are still unsure. In general most insurance policies cover:
Your house, rental units that are part of the building and any attachments to the building, such
as the garage.
Structures on the grounds that are not attached to the house, such as a pool, gazebo, tool
shed, etc. This also includes the lawn, trees and shrubs on the property. Vacant land you
own or rent, with the exception of farmland.
Cemetery plots or burial vaults you may own.
Personal possessions, including those of members of your household and guests, and contents
of the house. This does not include the possessions of tenants in your home.
Any items that have been loaned to you, or given for safe keeping.
Living expense if your home is unlivable due to damage.
Rental payments, if you rent one part of your house but it is
unlivable due to damage.
Responsibility for unauthorized use of your credit cards, forged
checks or counterfeit currency accepted in good faith.
Settlement, medical expenses and court costs brought against you
for bodily injury of others or damage to the property of others.
Most homeowner policies DO NOT cover loss due to flooding. You should check to see if your
community participates in the National Flood Insurance Program.
If you need financial assistance, programs are available. Programs include:
The American Red Cross...offers emergency assistance for groceries, new clothes, medical needs
and immediate building repairs.
The Farmers Home Administration(FmHA)...offers agricultural loans only when other credit is not
available. Qualifying farmers can get short-, medium- or long-term loans with moderate interest.
Federal Crop Insurance Corporation (FCIC)...Farmers can insure crops for 50, 65 or 75 percent
of yield. Unavoidable losses due to any adverse weather conditions including drought, excessive
moisture, hail, wind, hurricanes, tornadoes and lightning are covered. Unavoidable losses due to
insect infestations, plant diseases, floods, fires and earthquakes also are covered. You must have
this insurance prior to the disaster.
Small Business Administration (SBA)...offers medium- and long-term loans for rebuilding
non-farm homes and small businesses with moderate interest rates.
Commercial and federal land banks offer loans for home repair and improvement,
land,equipment and livestock. Insurance companies offer long-term loans at relatively high interest
for the same things. Assistance also may be available through a variety of state or local agencies
and volunteer groups. Listen to your battery operated radio after a disaster for information on
disaster relief services and locations.
Non-financial resources The Agricultural Stabilization and Conservation Service (ASCS)...for
information on livestock and wildlife feeding, production and conservation practices.
The Animal and Plant Health Inspection Service (APHIS)...offers technical assistance on animal
and plant pests and diseases.
Extension Service-USDA...offers information, educational material and advice on cleanup.
The Food Safety Inspection Service (FSIS)...can be reached toll free at (800) 535-4555 for
questions on the safe handling of meat and poultry.
Special Post-Disaster Considerations
Restoring Flooded Water Systems
Do not start submerged electric motors until they have been cleaned, dried and checked for safety.
Disconnect the motor. An ejector or jet pump motor may be a separate unit
mounted on the pump, or the end bell of the motor may be part of the pump. The separate
motor unit can be disconnected and serviced easily. With the second type, remove the
pump and motor as a unit. It is not necessary to remove the drop pipes. Take the motor to an
electrical repair shop. In the shop, the motor should be checked for any short circuits or
grounding caused by moisture. If the motor was submerged in mud and water, it should be
thoroughly cleaned. Windings should be dried in a drying oven. The bearings should be
lubricated before you use the motor again. Clean and dry electrical controls and pressure switches.
Check all wiring for short circuits. Pumps usually are damaged by sediment deposited in the
bearings. Clean pumps. Check valves for silt and sand. Remove all dirt and water from the gears
in the gear box and replace the lubricant with fresh oil. Submersible pumps. The bearings on
water lubricated pumps will not be damaged by flood waters, since these bearings are constantly
submerged in water. As soon as possible, flush clean water down the casing to remove the
sediment and silt. Then disinfect the well. Centrifugal pumps.
Many centrifugal pumps contain two sets of oil-lubricated bearings along the drive shaft between
the motor and the pump. If the pump has been flooded, dismantle the container bracket and
remove the bearings. Clean the bearings, or install new bearings if the old ones are worn out.
Close-coupled centrifugal pumps contain no bearings, so there is little chance of flood damage
except to the electric motor. Injector-type pumps. These pumps usually contain watertight packing
at the ground surface, with sealed impellers. Flood waters probably will not damage this type of
pump. The storage tank and piping should be all right unless muddy water was pumped through it.
If tank is contaminated, disinfect the entire system with a strong chlorine solution. Use 1 quart
household laundry bleach or check with local health department for recommended solution
strength. Open all faucets while the system is being filled. Do not close the spigot until a definite
smell of chlorine is evident. Do not use the system for 24 hours. Then start the pump and run
water from all faucets until the chlorine odor is gone.
Wells probably will not be damaged structurally from floods, but they may be contaminated. Have
your well tested by health officials before you use the water after sterilizing the walls of the well
casing. Leave it there at least 4 hours, or preferably overnight. Pump the chlorinated water into
the piping system, and leave it there for at least 2 hours or even overnight. The next day, pump
and flush out the system until the taste and odor of chlorine are no longer apparent. Two days
after you have disinfected the water system take a sample of water according to recommended
procedures and have it tested for purity. Boil or treat all drinking water until a water test indicates
that water is safe for all purposes. Do not drink water from a flooded cistern until you disinfect the
cistern and the entire piping system.
To disinfect the cistern: Use an auxiliary pump to remove the water and empty the cistern. Do
not pump water through the pipeline distribution system. Wash down the walls and ceiling with
clean water, and pump out the dirty water with an auxiliary pump. Check the cistern walls, ceiling
and floor for cracks where groundwater could come in. Disinfect the interior with a solution of 1
quart laundry bleach in 3 gallons of water. Be sure the bleach contains no soap. Apply the
chlorine solution with a sprayer or scrub with a stiff broom. Swab or pump out the disinfecting
solution that collects in the bottom of the cistern. Leave the chlorine solution in the pipes for at
least 2 hours (overnight if possible) before you drain them. Fill the cistern with water for use. This
water will have a chlorine taste for awhile, but it will be safe for all purposes. Regenerate water
softeners before you use them. Use clean chlorinated water to backwash the filterbed.
Disinfecting Wells Disinfect flooded wells before they are used as a source of drinking water. To
disinfect a well: Scrub the pumproom and wash all equipment, including piping, pump and
pressure tank. Remove the well seal at the top of the casing. Pour a solution of 1 quart laundry
bleach and 3 gallons of water into the top of the well. Pour the solution so it washes down the
inside of the casing and the outside of the drop pipes. In some wells you will need only to remove
a plug from the seal to pour the solution into the well. Leave the solution in the well about 4 hours.
Then pump it into the pressure tank and distribution system. Draw the chlorinated water into all
piping by opening each faucet until the odor of chlorine is apparent. Leave the chlorine in the
piping at least 2 hours. Then run the water until the taste and odor are no longer objectionable.
Disposing of Animal Carcasses
Prompt and sanitary disposal of animal carcasses is necessary to protect the living animals in an
area from disease. Search all pastures for dead animals as soon as possible. Carcasses may have
some commercial value, so send them to a rendering plant if possible. If rendering is impractical,
dispose of the dead animals on the premises. Use the following procedure:
Immediately after finding a carcass, cover it with crude oil or kerosene to keep away dogs,
buzzards and vermin. Fat swine are the only animal carcasses that will burn satisfactorily. Used
railroad ties can be used as starters. Bury other carcasses. Use power equipment if it is available.
Choose a site where subsurface drainage will not reach water supplies. Bury the carcasses at least 3
to 4 feet deep so predatory animals won't get at it.
Drought
Water Conservation
Water conservation is defined as the efficient use of water so that unnecessary or wasteful uses are
eliminated. In many areas, more groundwater is drawn out of the aquifers each year than is
recharged through rainfall and stream flow. As a result, groundwater levels have dropped
dramatically. Demand for water from a state's streams and reservoirs may rapidly approach the
available long-term supply. Across many states, many communities are regularly required to limit
water use at some time during the year. While some additional water supplies can be developed by
constructing new reservoirs, in many locations the demand for water will still equal or exceed the
available long-term supply. For these towns and cities, water conservation can make the difference
between adequate supplies and shortages. Importantly, the way water is used and, in some
instances, wasted must be rethought. This section explains easy ways that water can be conserved
and money can be saved at the same time. Useful information is also provided on how to measure
home water use, how simple repairs can be made, and how water-saving devices are installed. In
addition to the measures found in this section, also refer to the General Family Preparedness
section found at the beginning of this handbook.
Water Conservation at Home
There are dozens of ways to conserve water and save money around the home. As a starting
point, To determine whether a low-flow showerhead needs to be installed, check the flow rate of
the current showerhead by using the water meter or by putting a gallon container under the
showerhead while the water is on and measuring the time it takes to fill the container at the usual
shower setting. If it fills in less than 20 seconds, the flow is greater than 3 gallons per minute.
Low-flow showerheads can be purchased at most department, hardware and plumbing stores.
Models costing from under $3 are available. A showerhead can usually be installed in 10 minutes.
Place displacement devices in the toilet. Three types of displacement devices can be used in
toilets, but they should not be used in newer, low-water use toilets which use less than 3? gallons
per flush. To determine the capacity of the toilet tank, either turn off the water supply valve to the
toilet (usually located on the pipe behind the toilet) or hold the float ball up so that the tank does
not refill, and flush the toilet. Measure the capacity of the tank by filling it to the normal level with
a gallon container. Toilet dams can be installed in toilet tanks to reduce the amount of water used,
typically saving ? to 2 gallons per flush. Toilet dams are available from many utilities or from
most plumbing supply stores from under $5 per pair. A plastic bottle filled with water and
weighted down with a few stones can accomplish the same purpose as dams. It is important to
place the bottle in the toilet tank where it will not interfere with the flushing mechanism. A plastic
bottle in the tank will save ? to 1 gallon per flush. A toilet bag which is available free of charge
from many utilities, can also be used in place of dams. A displacement bag in the tank will save ?
to 1 gallon per flush. Bricks should not be used in the tank because small pieces can break off and
permanently damage the plumbing system. Install faucet aerators. The standard faucet flow rate is
5 gallons a minute. A low-flow aerator can reduce this flow to approximately 2? gallons a minute
while still providing adequate water for washing and rinsing. Installing aerators on the kitchen sink
and lavatory faucets will save hot water and cut water use by as much as 60 gallons a month for a
typical family of four. Most aerators have either internal or external threads. Before purchasing
aerators, the location of the threads and the diameter of each spout should be determined. If the
faucet already has a standard aerator (not a low-flow type), it can be removed and taken to the
store to ensure that the correct low-flow size is purchased. Aerators are available for less than a
dollar from most stores that sell plumbing fixtures.
Water Conservation
If the kitchen has a portable dishwasher that must be connected to the faucet, do not install a
low-flow aerator because the reduced flow may affect the performance of the dishwasher and
result in dishes that are not properly cleaned. Change your water use patterns. The washing
machine and dishwasher should only be used when fully loaded. This practice can save at least
two loads or approximately 60 gallons each week. Examine personal water use habits. Changing
tooth brushing habits can save as much as 14 gallons of water to water utilities, leaks can easily
account for 10 percent of a water bill and waste both water and energy if the source is a hot water
tap.
Toilet Leaks.
When a toilet leaks, water escapes from the tank into the bowl. Toilets are notorious for hidden
or silent leaks, because leaks are seldom noticed unless the toilet "runs" after each flush (which can
waste 4 to 5 gallons a minute). To determine if the toilet is leaking, look first at the toilet bowl after
the tank has stopped filling. If water is still running into the bowl or if water can be heard running,
the toilet is leaking. Often the toilet may have a "silent leak." To test for a silent leak, mix a few
drops of food coloring or place a dye capsule or tablet (available from many utilities and hardware
stores) into the water in the toilet tank after the water has stopped filling and the tank is full. Do
not flush the toilet. Wait for about 10 minutes, and if the dye or food coloring appears in the toilet
bowl, the toilet has a silent leak. Leaks of this type usually are caused by a defective flush valve
(flapper) ball or a corroded or scaled valve seat. Replacement balls and valves, which can be
installed in less than 30 minutes, are available from most hardware and plumbing stores for under
$3.
Faucet Leaks.
Faucet leaks are obvious. However, periodically check seldom used taps in the basement or
outside the house. The cause of faucet leaks is frequently a worn washer that can be replaced with
two or three hand tools. Replacement washers can be purchased from most hardware and variety
stores and cost only a few cents.
Use efficient outside watering practices. Plant native vegetation. Once established, which usually
takes two years, these plants require less frequent watering. Water grass only when needed. If
grass springs up after being walked on, it does not need watering. Soak grass long enough for
water to reach the roots. Water slowly and deeply. Water during the cool, early morning hours to
minimize water loss by evaporation and discourage disease. Do not water on windy days. Use
sprinklers that produce droplets instead of mist and that have a low trajectory. This type of
sprinkler will lose less water by evaporation and be less affected by the wind. Use drip irrigation
systems for shrubs, flowerbeds and other frequently watered areas. During the summer, keep the
grass about 2 to 3 inches high. This height shades the root system and holds soil moisture better
than does a closely clipped lawn. Do not water streets and sidewalks. Adjust the hose or sprinkler
until it waters just the grass or shrubs. For flowerbeds, shrubs and trees, use drip or soaker
systems.
Reading a Water Meter To Measure Leaks
If your house has a water meter, the entire plumbing system can be checked for an undetected
leak in five easy steps: 1. Find the water meter. (It may be outdoors or hidden in a dark
corner of the basement.) 2. Turn off all running water and water-using appliances, and do not
flush the toilet. 3. Read the dial (or dials) and record the reading.
4. After 15 to 20 minutes, re-check the meter.
5. If no water has been turned on or used and the reading has changed, a leak is
occurring. The rate (gallons per minute) of the leak can be determined by dividing pipe. This is
often the case when the neck ends in a ball joint. Most necks can be unscrewed and replaced, or
an adaptor can be used. Adapters or replacement necks are readily available in plumbing and most
hardware stores. When installing the new showerhead, teflon tape or pipe joint compound could
be applied to the exposed threads of the new neck so that the joint will be sealed and provide a
leakproof connection. If the shower neck has been on for a few years and the neck joint is too
stiff to unscrew with moderate pressure, consider having a plumber replace it.
Installing Shower Flow Restrictors to Conserve Water
Restricting devices fit into the space between the showerhead and the shower neck. These devices
range from a simple washer with a small hole in it to small chrome-plated pressure compensating
fittings. While restrictors reduce water flow, low-flow showerheads produce a flow that is more
satisfying to most individuals. Installing Toilet Dams, Toilet Bags and Plastic Bottles to Conserve
Water Many of the toilets in homes today use from 5 to 7 gallons per flush. Several effective
retrofit devices are available that can reduce the volume of water used with each flush by 2 to 3
gallons. While these devices can be used in some of the low-flush toilets on the market today that
use from 3 to 4 gallons per flush, they generally perform better when used in the older 5- to
7-gallon per flush models. The height of water in the toilet tank (not just the volume) causes the
bowl to flush, so the purpose of displacement devices is to reduce the volume of water used in
each flush without affecting water height in the tank. The following three types of devices have
proven to be effective.
1. Toilet Dams: To install a dam, flex or bend the dam and insert it into the tank.
The dam should fit tightly against the tank sides and bottom and should curve outward away from
the plumbing fixtures in the tank. Most tanks work best when a single dam is used.
2. Toilet Bags:
Fill the bag with water, securely seal the top of the bag with the bag clamp and hang the bag in
the tank by using the bag clip and hanger that are provided. Make sure the bag is located in the
tank so it does not interfere with the operation of the toilet tank.
3. Plastic Bottles:
Fill a plastic bottle with water and weight down with a few stones, and place in the most open
portion of the tank. This will save as much water as is displaced by the bottle. Make sure the
bottle does not interfere with the operation of the moving parts of the tank. Check all such devices
periodically to ensure that they remain in place.
Water Saving Steps When Remodeling or Replacing Fixtures and Appliances
1. Hot Water Pipes.
Where possible, insulate hot water pipes from the hot water heater to fixtures and appliances.
This will reduce the time between turning the water on and the time hot
water comes out of the faucet and reaches a constant temperature.
2. New or Replacement Fixtures and Appliances.
Install low-water use fixtures when remodeling or replacing fixtures. Install toilets that use 3?
gallons or less per flush. Install low-flow showerheads that flow at 3 gallons or less per minute.
Install water-saving dishwashing and clothes-washing machines. Be sure to check the water
efficiency of appliances when shopping for replacement appliances.
3. Pools and Hot Tubs.
Simple repair steps that can be done without contacting a plumber are listed below.
1. If the water is too high in the toilet tank and is spilling into the overflow tube, the float can be
adjusted by turning the adjustment screw or by very gently bending the float arm down so that the
water shuts off at a level slightly below the top of the overflow tube. Ideally, the water level should
be set so that it is about even with the fill line on the back of the toilet tank.
2. A frequent problem that causes a toilet to leak is a worn flapper ball or a flapper ball that does
not seat properly into the valve seat. If the flapper ball is worn, it can be removed and replaced
with a new flapper ball. When replacing a flapper ball, take care to note how the chain is adjusted
before the old ball is removed. Also, check the valve seat for scale or corrosion and clean if
necessary. If cleaning does not work, install a retrofit valve seat, available from most plumbing or
hardware stores.
3. If the handle needs to be jiggled to keep the toilet from "running," the guide-wire or the handle
itself may be sticking. If the handle is sticking, adjust the nut that secures it in the toilet tank. If
that does not work, replace the handle.
4. If none of the preceding steps solve the problem, contact a plumber to repair the toilet.
Repairing Faucet Leaks
1. Leaky faucets, which can develop even in new houses, are wasteful and a nuisance. With a few
simple tools, a leaky faucet can be repaired in less than an hour.
2. Most water faucets in houses today are compression-type units in which a washer is compressed
over a pipe opening when the faucet is closed, thus closing off the water. All compression-type
faucets may not look alike, but all are similar in their operation and repair.
3. The exact point where a leak appears on a faucet is a good clue to finding its cause:
A spout drip is usually caused by a worn upper faucet washer or a corroded seat. Leaks at the stem
result from a loose cap nut or worn cone or bonnet packing. A cap leak, or water oozing below the
cap nut, indicates a worn bib or packing washer. A leak at the base of the faucet results from water
seeping past a worn lower faucet washer.
4. To repair a leaky compression type faucet, use the following steps:
Turn off the water supply at the valve nearest the faucet. Next, open the tap to drain the faucet.
Remove the handle screw and lift handle off the spindle. Unscrew the cap nut. Use a protective
cover of adhesive tape or a rag to avoid marring the finish. Unscrew the stem with finger pressure
and lift it out. Remove the screw from the bottom end of the spindle. Scrape away all worn
washer parts. Be careful not to damage the rim. Install a new washer. (Take either the old
washer or the complete spindle unit with you to purchase the correct size and shape (flat or
conical) replacement washer.) Double-check to make sure the replacement is like the worn
washer. Check the seat (which is located down inside the faucet) to make sure it is not pitted or
rough. If the seat is scarred or rough, use a seat-dressing kit to grind the seat to a smooth finish. A
leak at the stem usually means that the packing inside the cap nut needs replacing. To replace the
packing, pry out the old packing washer with a screwdriver. If a washer is used, replace it with a
new one. If there is no washer, wrap the spindle tightly with "packing wicking." String can be
used if commercial wicking is not available. Reassemble the faucet. Tighten the cap nut just
enough to prevent leaking. Screwing the nut down too tightly causes rapid wear on the stem. Turn
the shutoff valves to the on position and check the faucet for leaks.
5. A mixing faucet may look more complicated than a single faucet, but repairs are made in much
the same way. Actually, a mixing faucet is two separate units with a single spout. Mixing faucets
are used on sinks, bathtubs and laundry tubs. Repairs must be made separately on each faucet
unit. Follow the same steps listed above, but remember to turn off the water before beginning
work.
6. Every washerless and single-lever faucet model is a little different. When repairs are required,
homeowners can purchase a repair kit for their model which includes instructions and the parts
that generally will be worn. By replacing all the parts at once, the faucet should function for
several years without needing further repair.
Adding New Landscape Or Redesigning The Yard To Conserve Water
When planning to add new landscaping or to redesign existing landscaping, the following
suggestions may help you to save 50 percent or more of the water needed to maintain a traditional
lawn.
1. If hiring a landscape architect or gardener, select one who is experienced in Xeriscape, the
conservation of water and energy through creative landscaping.
2. Design the yard to reduce the grassed areas to only that amount which will actually be used for
recreation and entertainment. Front and side yards are most frequently just for show and are
logical areas that can be completely or partially converted from lawns to native grasses, ground
covers and shrubs.
3. Use native grasses, ground covers, shrubs and trees. Many beautiful varieties of native species
can be used in landscaping and are preferable to imported species. The advantage of native species
is that, once they are established (usually about 2 years), they do not need to be watered as
frequently (about half as often), and they can survive a dry period without any watering.
4. When installing an irrigation system for lawn, shrubs and trees, sprinkler heads for the lawn
should be low-angle spray heads that sprinkle the grass without spraying the water high into the air
or allowing the water to drift onto the sidewalks and streets. The heads should produce droplets of
water instead of a mist. The preferable irrigation system for shrub beds and trees is a drip-type
system. There are several varieties, including soaker hoses, bubblers and "leaky pipe." If a
sprinkler system is installed for shrubs, an upright pipe extension may be needed if low-angle spray
heads are to be used. This is done to spray evenly without obstructions.
5. Shape the soil to protect against erosion and use conditioners to promote water penetration and
retention. Shape the soil into earthen basins around all shrubs. If the original soil is rocky, shallow
or a heavy clay, improve the soil by adding 2 to 4 inches of organic material or topsoil that is
compatible with the soil type.
6. Watering needs vary:
Plants: During summer month, most plants will need about 1 inch of water every 5 to 7 days.
Lawns: The frequency of watering depends on the type of grass.
Landscape Water Conservation
A water conscious landscape design can reduce water use for landscape maintenance by 50
percent or more and also reduce the amount of maintenance required. Of equal importance,
the natural beauty and function of the landscape also can be preserved by using adapted
plant materials.
1. By using plant materials adapted to specific areas, water needs for landscape maintenance can
be reduced by more than 50 percent. Water conscious landscaping involves more than just using
adapted plant materials it includes the use of other conservation techniques and practices. Water
saving practices include the use of low pressure drip or trickle irrigation systems for watering trees,
shrubs, gardens and individual plants or beds; the use of mulches around shrubs, beds and gardens
to conserve water; the use of bark, rock or other landscape material in ground cover in areas
difficult to water or in areas where plants are not needed; the use of vegetative groundcovers such
as ivy, jasmine, liriope and vinca in small, isolated areas, sloping sites that are difficult to water and
in heavily shaded sites.
2. Water conscious landscape designs minimize intensively maintained lawn space. Manicured
lawn areas may be the focal point of the landscape, but they do not need to cover the entire area
unless the lawn is used as a playground or sports field. Highly maintained grass areas generally
require more irrigation than any other component of the landscape. On golf courses, for example,
only the landing areas need to be intensively maintained. Rough areas may have a more drought
tolerant grass, taller mowing heights and a separate water system. Large open areas of the
landscape where a grass cover is needed can be planted to low maintenance grasses such as
buffalograss, centipede grass or bahiagrass. Native plants and wildflowers also can be allowed to
develop in these areas. Such plantings require very little maintenance and no supplemental water
once they become established.
3. Proper site preparation will produce a more beautiful landscape and result in more efficient
water utilization. Slopes, areas with shallow topsoil, compacted soils and deep sands are difficult
sites to establish grass and are inefficient with respect to water use. Modifying or amending the
sites before planting is more effective than waiting until problems develop.
4. As the foundation is the strength of a building, the seedbed is the support for a turf. The
seedbed refers to the few surface inches of soil that are modified prior to planting. Poor soil
conditions result in continuous turf maintenance problems. To prepare a seedbed, first remove all
debris such as large stones, wood or other trash that may sawdust (preferably hardwood), leaf
mold or similar material. Thoroughly mix 1 inch of organic matter with the top 3 to 4 inches of
soil to produce a uniform seedbed. This mixing can be done by repeated cultivation with a garden
tiller or with a tractor and rotovator. When adding un-decomposed organic matter to the soil, also
add 3 pounds of ammonium nitrate or 5 pounds of ammonium sulfate per 1,000 square feet to aid
decomposition of the organic material. Most soils are deficient in the major nutrients required for
turf. Sandy soils normally are deficient in nitrogen, phosphorus, potassium and lime. In the black
land areas, nitrogen and phosphorus may not be adequate for good turf development. Potassium
in the soil may become deficient for turf growth when high amounts of nitrogen are used in areas
not normally deficient in potassium.
If possible, base rates and combinations of fertilizer nutrients on the results of soil
tests. In the absence of a soil test, apply a complete fertilizer to the surface of the seedbed. Apply
a fertilizer with a 1-2-1 (10-20-10, 6-12-6) or 1 (8-8-8) ratio at a rate to supply 1 pound of
phosphorus per 1,000 square feet of lawn. Grade the seedbed to provide surface drainage away
from structures, walks and driveways. A fall of 6 inches for every 40 to 50 surface feet is
adequate for drainage on sandy soils, provided no pockets or depressions exist. Clay or clay loam
soils may require twice that slope to provide adequate surface drainage. In some cases, subsurface
drainage systems may be needed to remove excess water from poorly drained sites. If a
considerable part of the landscape needs to be filled, use a loam or sandy loam soil. Repeated
wetting of the filled site will help settle the soil. The final step in seedbed preparation is raking the
surface to remove large clods and stones. At the same time, fill depressions that have developed
and level high spots. Walks and driveways should be about 1 inch above the final soil surface.
The site is now ready to be seeded, sprigged or sodded.
5. Conservation and reduced maintenance costs are enhanced by good cultural practices. By
some estimates as much as 50 percent of the water used for landscape maintenance is wasted
through run-off and evaporation. Proper timing and method of application will reduce much of
this water loss. The most important water conserving practice is to water only when grasses show
symptoms of water stress. Grasses wilt and begin to go off color when under moisture stress.
Shrubs and small trees wilt and begin to drop their leaves under moisture stress. Ideally, water
shrubs before the first sign of moisture stress. When water is needed, thoroughly wet the soil 4 to 6
inches deep by applying water slowly or at intervals to avoid run-off. One inch of water, properly
applied, will wet most soils 4 to 6 inches deep. (One inch of water is equivalent to 62 gallons per
100 square feet.) During summer months an inch of water will meet most plant needs for 4 or 5
days. But wait until the plants (or grass) show moisture stress before watering again. Early
morning dew, cooler temperatures or rain may extend the interval between irrigations several days.
6. Mowing is the key to maintaining neat, attractive turf areas. Low maintenance grasses such as
buffalograss require lrecycle plant nutrients. When clippings are picked up, they can be
composted or used for mulch in gardens. During hot, dry conditions raise mowing heights to
reduce water needs. Grass mowed at 2 to 3 inches maintains a deeper root system than grass
mowed at 1 inch. Supplemental water needs are reduced with more effective use of water in the
soil by deep rooted grasses. Mow St. Augustine, bluegrass and tall fescue lawns at 3 inches during
drought conditions. Do not mow bermudagrass and zoysia higher than 2 inches.
7. Thatch, the organic layer between the soil and the green leaves, can slow water movement into
the soil and cause excess run-off. Thatch accumulation results from heavy fertillizing, improper
mowing practices, over watering and frequent pesticide use. Aeration and thatch removal increase
water penetration and reduce run-off. Under some conditions wetting agents (surfactants)
improve water penetration in a heavily thatched lawn. Water movement into the root zone is even
more difficult where compaction develops. Aeration of compacted soils once or twice a year helps
break up the compacted layer and increases water penetration. Aeration also reduces run-off from
sloping sites.
8. In soils containing high levels of sodium salts, gypsum can aid water penetration. Soil test
information available through county Extension agents can reveal the presence of high
levels of sodium. Like the other three factors affecting water use, the quality of the water used
can influence the amount of water needed to keep a turf healthy. Where salt is a problem, it is
important to thoroughly wet the soil during each application. Light, frequent applications of water
high in salts result in an sccumulation of salts near the surface. Thorough watering helps move the
salts below the root zone of grasses.
Watering Lawns and Plants During a Drought
1. If water is rationed during a drought, give priority to shrubs that are more expensive and
harder to replace than grass and annual plants.
2. During a severe drought when outside watering is prohibited, water plants with "gray water"
saved from bathing, dishwashing and clothes washing, if this is permitted by the city or local health
department.
Special Considerations for Agricultural Producers
In addition to the precautions and responses covered in the previous pages, the agricultural
producer will want to consider the following measures.
Developing a Crop Water Management Plan
Develop a water management system before you are faced with a drought situation.
1. Water Use Efficiency
In areas where water supply is limited or expensive, it is economically important for farmers to
attain high water use efficiency as well as high yields. Water use efficiency values can be calculated
in several ways and should be clearly defined to avoid misinterpretation. Water use efficiency for
a crop and irrigation system can be expressed as crop yield (pounds) per unit of water applied to or
actually used by the crop (acre-inches).
2. Rainfall Patterns
Average monthly rainfall data can be misleading because large variations occur. Therefore,
percent probability that a certain rainfall amount will occur is a better way of assessing risk.
Dryland crops should be grown during periods of high rainfaing widely practiced on drought
tolerant crops to take advantage of expected rainfall.
1. Sorghum
Sorghum has good ability to adjust to water stress. Sorghum requires 13 to 24 inches of seasonal
water use (evapotranspiration) from precipitation, stored soil moisture and irrigation to achieve
grain yields of 3,000 to 6,700 pounds per acre. Dryland sorghum yields an average of about 1,600
pounds per acre, although yields of up to 3,000 pounds per acre are not uncommon during high
rainfall years. Pre-plant irrigation is often not needed and may be inefficiently applied, especially
when using conventional graded furrow irrigation systems. The same amount of water may be
more efficiently used if applied at later stages of crop growth. Conservation tillage can reduce the
need for pre-plant irrigation of sorghum through improved soil moisture storage. Irrigations should
be timed to avoid water stress during periods of peak water use (boot, heading and flowering
stages) to achieve reasonably good yields and maximum irrigation water use efficiency. Two
well-timed seasonal irrigations of 4 inches per application or the equivalent are adequate in normal
years for good yields of medium maturity hybrids. Saving irrigation water by withholding a 4-inch
irrigation reduces sorghum grain yields by only about 10 percent during the early 6- to 8-leaf stage
but by almost 50 percent if withheld at the heading and bloom stage.
2. Corn
Corn is much more sensitive to water stress than sorghum, wheat or cotton. Corn is planted earlier
than sorghum and typically allows more efficient use of the May-June wet season than sorghum.
The early planting date required for corn increases the need for pre-plant irrigation for stand
establishment. The total seasonal water use to achieve any corn grain yield is about 13 inches.
Pre-plant irrigation is often necessary. Drought seasons require one or two additional irrigations.
Moisture stress caused by low soil water availability or hot, dry conditions during the flowering
stage (which includes tasseling, silking and pollination) can severely restrict corn yield. Reduced
irrigation of corn has generally resulted in significant yield decreases. Planned water deficits into
the stress range are not recommended and may be feasible only on soils with moderate to high
water storage and during the early vegetative or grain ripening stages. Reduced acreage, rather than
reduced irrigation, offers the best way to
adjust corn irrigation to limited water supplies.
3. Wheat
Winter wheat is a major drought-tolerant crop that grows vegetatively during the normal dry
period from fall to early spring and develops grain during a period of increasing spring rainfall.
Wheat is normally planted around October 1 and requires available soil moisture from irrigation or
precipitation for germination and early growth. Wheat also should receive one late fall irrigation
followed by two to three spring irrigations for high grain yields. One additional early irrigation
(together with additional applied fertilizer) is usually needed for early planted wheat that is grazed
and also managed for grain production. The highest wheat yield response to irrigation, deficits and
application. Early fruit set is important in cotton production. However, the production, placement
and retention of fruiting sites are sensitive to soil water availability. Under dryland conditions,
expected lint yields are in the range of 250 to 300 pounds per acre. Cotton requires more than 13
inches of seasonal water use to produce appreciable lint yields. High levels of water application can
decrease lint yield by causing excessive vegetative development and fall immaturity. A pre-plant
irrigation of 4 inches is usually advantageous, especially if spring rainfall is not adequate, but
heavier pre-plant irrigations are not warranted. Cotton has the ability to overcome moisture stress
at most growth stages if water becomes available and low temperatures do not limit growth.
The most critical period for irrigation is early to mid-bloom. If water is available, a
second irrigation should be applied at peak to late bloom.
Developing and Improving Vegetative Cover
1. Good cover (standing vegetation and mulch) lessens the impact of rain that dislodges soil
particles, and thus reduces the amount of sediment in surface run-off. Good cover
also slows the movement of run-off so that more water soaks into the soil and more sediment is
deposited on the grazing land rather than being carried into streams or ponds. Vegetative cover
also entraps manure and prevents pollution of streams with animal waste.
2. Best management practices for preventing nonpoint source pollution from grazing lands
include locating animal holding pens and feeding areas away from streams
and other hydrologically sensitive areas, and establishing and maintaining good vegetative cover.
3. The amount and type of vegetation present significantly influence the rate of infiltration of
water. Standing vegetation and a mulch or litter layer increase infiltration. Organic matter in the
surface soil improves soil aggregation, making it easier for water to move through the soil.
4. Pores in the soil created by plant roots increase the rate at which water can enter the soil by
providing pathways for water movement. Long-lived, perennial bunchgrasses
have deeper root systems than sodgrasses and allow water to move deeper.
5. The height of grass also affects water movement. Water moves more rapidly across closely
grazed grass than grasses left with several inches of stubble.
6. If the watershed has been severely overgrazed, the vegetative cover will need to be improved by
controlling undesirable plants such as broadleaf weeds and shrubs and/or seeding desirable plants.
Maintaining Vegetative Cover
1. If at least 10 to 15 percent of the desirable vegetation is present, the most
practical and economical way to maintain a desirable vegetative cover is through
proper grazing management. The key to proper grazing management is to balance the number of
grazing animals with the forage produced. The proper balance will leave a sufficient
amount of plant residue to maintain stored food reserves, plant vigor, a healthy root system and
seed production of the desired plants. It also allows seedlings to become established.
2. For planning purposes, an appropriate long-term stocking rate may be determined
based on the "take half and leave half" rule of thumb. However, a more realistic
approach is to manage the grazing stocking rate so that a given amount of residue is
left prior to resumption of growth in the spring.
The amount of residue required will vary according to the area of the state and the
vegetation types. For example, 300 pounds of plant residue may be adequate for a
semi-arid area with short-grass vegetation, while 1,200 pounds of residue may be
required in a more humid area with tall-grass vegetation.
3. It also is important to properly distribute animals over the grazing land.
Poor distribution may result in extreme overgrazing of one area and little use of
another in the same unit. Often these overgrazed areas are located near water, thus
increasing the potential for pollution. Practices which contribute to proper
grazing distribution include the development and strategic placement of water
sources, construction of fences, strategic location of salt and feeding sites,
building of trails, fertilization, prescribed burning and spot seeding.
4. Plants benefit from periods of no grazing. Deferment from grazing is particularly
useful on areas where vegetation needs to be improved.
5. Planned grazing systems divide an area into two or more grazing units to allow
periods of grazing and rest from grazing in a sequence determined by management
objectives, physiological needs of the plants and the design of the system.
Grazing systems may include as few as 2 or as many as 30 or more grazing units.
Some temporary soil compaction may occur with systems that concentrate animals in a
small area for short periods of time. However, if the period is short, the soil will
recover rapidly from the compaction. A planned grage plants and water quality.
Managing Salinity
Salinity problems normally occur in arid or semi-arid climatic regions.
Salinity is a major nonpoint source pollutant in the west as irrigation return flows can
carry dissolved salts into waterways. In humid climates, soluble salts are generally
eached downward through the soil profile where they cannot cause problems.
In general, accumulation of salt results from water evaporation at the soil surface.
This condition can render land vegetatively nonproductive, and may lead to nonpoint
source pollution through erosion and sedimentation. Further, the salt concentration may
run off during a storm and affect adjacent lands. These problems normally occur where
either surface seep areas appear or where a high water table exists in the soil profile.
Sometimes rainfall moves through the ground to the water table or to a barrier above the
water table. Here it accumulates and moves laterally, often parallel with the land
slope, toward an outlet or low point in the landscape. It then forms a wet weather or
saline seep. During the summer or periods of low rainfall, such seepage spots may completely dry
out. Only detailed analyses of borings, soils and surveys can establish
the source and amount of groundwater contributing to seep areas.
1. Irrigated land in arid areas sometimes must be drained to prevent or reduce salinity
problems. Topographic surveys and subsurface investigations should be made to obtain
information on the soils, geology and water table elevations. These data are the
basis for determining the extent of the problem and for setting design parameters.
2. Plant nutrients and pesticides should be applied in such a manner as to limit the
potential for contamination of surface and groundwater supplies by outflow from
drainage systems.
3. One alternative treatment is to establish permanent salt tolerant species such as
bermudagrass, aikali sacaton, gramas and kleingrass. Salt tolerant species will
allow a vegetative cover where bare ground would otherwise lead to water quality
problems.
4. Cropping with salt tolerant, seasonal species such as cotton or small grains assists
in addressing the problem of saline soils. Planting high water use crops such as
alfalfa, four-wing saltbush or trees above a seep area helps control the amount of
moisture that accumulates.
5. Organic or inorganic additives to the soil surface will increase water infiltration.
This will allow water to force dissolved salts below the root zones and prevent
further concentration of salts on the soil surface. Organic amendments include
cotton burs and gin "trash" that may be obtained from cotton processing facilities.
Inorganic agents to increase soil tilth include gypsum or calcium sulfate.
6. Land alterations are sometimes used to alleviate salinity problems. Such
constructed systems have a place in salinity control, but use caution when
implementing them. In some cases, altering the land surface by smoothing or
grading may eliminate the effects of the problem by confining the seep area or
providing natural surface drainage. Practices such as closed-end terraces or
basin terraces which impound water can be used on areas with minimal seepage,
but should be scrutinized where they might contribute to problems associated with
salinity of the site.
7. A surface drainage system may be the least expensive alternative, but potential
maintenance problems and obstructions to farming operations should be considered.
Maintaining water quality of any discharge waters is of utmost importance. Most
subsurface drainage uses corrugated plastic tubing installed with a synthetic filter
envelope. Again, as with any other drainage system, an adequate outlet is imperative,
especially considering the discharge water quality in comparison to receiving waters.
8. Irrigation water management is important on saline soils. Salt accumulates in soils
because of salts in irrigation water or the presence of a high water table. To prevent
harmful accumulation of salts in soils irrigated with saline water, an additional
quantity of water, above that required for the crop, must be passed through the
root zone to leach salt from the soil. A high water table contributes to salt
accumulation because capillary action causes water and soluble salts to rise to the
soil surface. There the water evaporates, leaving behind salt deposits. Enough water
must be applied periodically to leach out accumulated salts without excessive waste of
water. If a seep area could be made worse by applying liquid agricultural waste,
proper management must be used, including nutrient management.
Earthquakes
The crust of the earth is made up of seven masses called tectonic
plates. They are in steady motion. Accumulated stress builds up
from the continental plates grinding, sliding or colliding against or
slipping under each other. Pressure is released in a powerful
explosion of energy that fractures the earth's surface, shakes the
ground, causes the ground to roll, liquefies some soil and generates
giant water waves.
When an earthquake will unleash its force remains unpredictable.
Preliminary cracks may send off foreshocks before a main fracture.
These foreshocks can occur months or minutes before the rapid onset
of the earthquake. An earthquake lasts for seconds or minutes, while
aftershocks may occur for months after the main earthquake.
Powerful and widespread ruptures or shaking ground can cause
buildings to move off their foundations or collapse; damage utility
lines, other structures and roads; set off fires; and threaten the
lives of people and animals. It is the damage to structures that
presents the greatest risks to life and property.
Earthquakes create a trigger for other natural hazards such as
landslides, tsunamis, avalanches, fires and flash floods.
The greatest likelihood of major earthquakes is in the western United
States, particularly along the San Andreas Fault in California and up
the Alaskan Coast, in the New Madrid Fault Zone in the Midwest, and
in a few pockets on the East Coast, particularly in South Carolina
and New England. There is no seasonal or yearly cycle of occurrence.
Earthquakes can happen at any time. Major earthquakes appear to occur in cycles of
between 50 and 275 years.
How Earthquakes are measured in intensity of ground vibrations,
the elasticity of buildings and tructures, and how well structures are connected to
their foundation, falling or collapsing objects and structures accompany earthquakes.
Structural instability, such as dam failures, can trigger flash floods. Fires have been
the greatest cause of damage in the past. Offshore earthquakes may cause tsunamis.
Preparing for an Earthquake
In addition to precautions outlined in the sections on General Family
Preparedness, Residential Fires and Hazardous Material Accidents, you
need to take the following steps.
1. Become familiar with earthquake terms.
Aftershocks: Tremors that occur in the hours or days after the initial earthquake
shaking is over.
Epicenter: The place on the surface of the earth directly above an earthquake's first
movement (focus).
Fault: A fracture in the earth's crust along which rocks have been displaced.
Focus: The point beneath the surface of the earth where the rocks first break and move,
beginning the earthquake.
Intensity: An indication of an earthquake's apparent severity at a specific location,
based on its effects on people and structures.
Magnitude: Size of an earthquake determined from the size of the seismic waves it
generates as recorded by seismographs.
Mercalli Scale: The scale used to measure the strength of an earthquake as determined
by people's eyewitness observations.
Tidal wave: This is a misnomer for a tsunami. Tidal waves occur from the interaction
of the moon and large bodies of water. Waves you see rolling into the ocean shore
every day are tidal waves. Tsunami: A seismic sea wave. An unusually large wave (or
series of them) produced by an undersea earthquake or volcanic eruption.
2. Safeguard your home by:
Bolting bookshelves, water heaters and cabinets to wall studs.
Anchoring things so that they will not move or fall during an earthquake is the most
important thing you can do to make yourself safe. Keeping things in place also means
they will not break.
3. There are many ways to make the contents of your home and workplace less hazardous.
Move cabinets and tall furniture so that if they fall they are not likely to hit
people.
Use steel angle brackets to anchor them to studs in the wall. Put heavy or breakable
things on bottom shelves. You can even put "fences" or restraining wires to keep items
from falling off open shelves.
Put child-proof or swing-hook latches on bathroom and kitchen cabinets. At work, put
strong latches on cabinets where hazardous items are stored.
Use screw-eyes or tongue-in-groove hangers to mount mirrors or pictures instead of
hanging them on nails.
Preparing for an Earthquake
Be sure that ceiling fans and light fixtures are well anchored or have earthquake
safety wiring.
Anchor typewriters, computers, televisions, stereos and like items with heavy duty
Velcro, at home and at work.
Strap your water heater to anchor it to wall studs. You can buy metal strapping,
called plumber's tape or strap iron, in hardware stores. Use it to strap the
heater at the top and bottom. This not only preserves your best source of
water but also significantly reduces the fire hazard in your home by preventing a
broken gas line.
Do not assume that anything is too heavy to move in an earthquake. When the ground
is going up and many injuries occur when people act on their impulse to run. Train
yourself to take cover where you are.
Responses Inside Buildings During an Earthquake
For most of us the biggest danger in an earthquake is not from a building collapsing,
but from things inside the building falling or flying around while the building is
shaking.
Hazards found inside buildings include overhead lights, ceiling tiles, cabinets,
windows, furniture and equipment.
If an earthquake happens, the best thing to do is:
1. Drop, cover, and hold on. Get under a table. If there are no tables, get under or
down between rows of chairs or against inner walls.
2. Do not stand in a doorway. Buildings today have so much partitioning, much of which
is temporary, that many doorways are actually weak points. Doorways are not a
good solution in a group situation either.
3. If you have nothing to get under, sit down against an interior wall or next to a
chair, holding on if possible.
4. If you are in bed, it's best to stay there, hold on, and pull the pillows over your
head for protection.
5. If children are in another room, take cover in the closest safe place and call to
them to do the same. Children will need you alive and unhurt after the earthquake.
Avoid the urge to run to protect your children, as that puts you in more danger of
being hurt or injured.
Responses if You are Outside During an Earthquake
1. Outside, get away from buildings, walls, trees and power lines.
If you cannot get clear of hazards, getting back inside a building is better than
staying on the sidewalk. Sidewalks next to buildings are among the worst places to
be.
2. In a car, ease off the accelerator and slow down carefully. Do not stop on or under
overpasses and bridges if you can avoid them. Be aware of what traffic around you
is doing and act accordingly.
3. If you live in coastal areas, be aware of possible tsunamis.
After an Earthquake
1. Take basic precautions immediately after an earthquake. In addition to those
outlined in the General Family Preparedness, Residential Fires and Hazardous
Materials Accidents sections you should:
Expect aftershocks. Avoid using vehicles except in emergencies.
2. Check yourself for injuries and protect yourself by putting on shoes, work gloves
and any other protective gear at hand.
3. If the electricity is off, turn on a flashlight.
4. Once you are sure that you're all right, check the people around you for injuries.
You might ask loudly, "Is everyone okay?" This will also help calm people. The
types of injuries that happen most often in an earthquake include cuts, bruises,
fractures and physiological shock.
5. Check the entire building for structural damage and chemical spills. Refer to the
section on Hazardous Materials Accidents for further response information.
Check chimneys for cracks and damage. The initial check should be made from a
distance. Have a professional inspect the chimney for internal damage that could
lead to fire.
6. Right after an earthquake, hang up your phone. If the receivers are shaken off the
hooks, these lines register as "open" in the system and it overloads. You can help
restore telephone service by hanging up your phone.
Special Considerations for Agricultural Producers
In addition to animals right after an earthquake. Aftershocks are quite frequent after
large earthquakes, and further increase the fear and skittish reactions of animals.
3. The best thing to do for animals after an earthquake is to get them out in the open,
to open pasture or rangeland. Let the animals run free. Do not attempt to rope or
chain large animals such as cows and horses because they may injure or kill
themselves if an aftershock occurs and they try to run.
4. Get animals out of barns or buildings that may have been damaged in an earthquake.
Barns are especially susceptible to earthquake damage. Large beams and rafters
may not be well secured, thus making the barn subject to collapse during aftershocks.
Hay bales and large equipment may be tossed around and come tumbling down on
animals and people inside barns.
Immediately open the doors and let the animals out. It's easier to recover a live
animal than replace a dead one.
5. Ensure that mechanical equipment has not been turned over or damaged. If there is
danger of electrical shock, turn off the main electrical circuit breaker or fuse.
If you smell gas or suspect a gas leak, turn off the main valve.
6. Check fence lines and posts. You may need to build a make-shift yard from temporary
posts and fencing. Then repair/rebuild the regular fencing, and open the temporary
yard when completed.
7. If animal carcasses need to be disposed of refer to the General Family Preparedness,
Special Post-Disaster Considerations section for appropriate handling.
Residential Fires
Fire safety and prevention are important for everyday emergencies,
but they are crucial during disasters. More than 6,000 Americans die
and 100,000 more are injured by fires each year. Fire spreads
quickly. A fire's heat is more dangerous than the flames; inhaling
super hot air can sear your lungs. Fires produce poisonous gases
that make you drowsy and disoriented. In addition to those measures
outlined in the General Family Preparedness section, the following
fire specific measures should be followed.
Fire Safety and Prevention
1. Install smoke detectors in your house or apartment. Place detectors on every level
of your house: outside bedrooms at the top of open stairways or the bottom of
enclosed stairs - near (but not in) the kitchen. Clean smoke detectors regularly
and replace batteries once a year.
2. Plan escape routes with your family. See the General Family Preparedness section of
the Handbook.
3. Clean out storage areas. Don't let trash accumulate.
4. Check electrical wiring. Inspect extension cords for frayed or exposed wires or
loose plugs. Do not overload extension cords or outlets.
5. Never use gasoline, benzine, naptha or similar liquids indoors. Never smoke near
these flammable liquids. Safely discard all rags or materials soaked in flammable
material after use.
6. Check heating sources. Make sure they are clean and in working order.
7. Alternative heating sources such as wood, coal and kerosene should be used
carefully.
8. Make sure that home insulation is not in contact with electrical wiring.
9. Know where your gas meter and central electrical panels are so you can shut them off
in an emergency. If you shut off your gas line, allow only a gas company
representative to turn it on again to make sure it is done properly.
10. Ask your local fire department to inspect your house for fire safety and
prevention.
11. If you live in wildland areas, your house could be a target for wildfire.
Call local authorities and get information about wildfires in your area.
Do not install an untreated wood shake roof. Make your landscape fire safe by
removing excess brush and undergrowth, planting fire resistant plants, and pruning
trees of low branches.
What to Do in Case of a Fire
1. To put out a small fire, take away its air or fuel, or cool it with water or fire
extinguishing chemicals.
2. Never use water on an electrical fire. Use only a fire extinguisher.
3. Oil and grease fires occur primarily in the kitchen. Smother the flames with baking
soda or salt or put a lid over the flame if it is burning in a pan.
4. Small fires can be controlled with water or fire extinguishers, but do not try to
put out a fire which is getting out of control.
5. If your clothes catch on fire, stop, drop and roll until the fire is extinguished.
Running only makes the fire burn faster.
6. Sleep with your door closed. If you wake up to the sound of a smoke detector, feel
the door before you open it. If the door is cool, leave immediately. Be prepared to
bend low or crawl. Smoke and heat rise, and the air is cooler near the floor.
If the door is hot, escape through a window.
After
1. Ask your insurance agent about estimates and loss coverage.
2. Do not enter a fire-damaged building unless authorities have given you permission.
3. When entering a building, be watchful for signs of heat or smoke because they may be
signs of smoldering remains of fire.
4. Have an electrician check your household wiring before the current is turned back
on. Do not attempt to reconnect any utilities yourself.
5. Beware of structural damage. Roofs and floors may be weakened and need repair.
6. Discard food, beverages and medicines that have been exposed to heat, smoke or soot.
7. If you have a safe or strong box, do not try to open it. A safe or fire proof box
can hold intense heat for several hours. If the door is opened before the box is
cooled, the entering air combined with the high internal temperature may cause the
contents to burst into flames. Refer also to the General Family Preparedness section.
Floods
Floods are the most common and widespread of all natural hazards.
Some floods develop over a period of days, but flash floods can
result in raging waters in just a few minutes. Even very small
creeks, gullies, culverts, dry streambeds or low-lying ground that
may appear harmless in dry weather can flood. Wherever you live, be
aware of potential flooding hazards. If you live in a low-lying
area, near water or downstream from a dam, you must be prepared for
floods. In addition to the information provided here, also refer to
the General Family Preparedness section.
Preparing for Floods and Flash Floods
Some simple advance preparation will help you be ready for possible
floods in your area.
1. Know the flood warning system in your community and be sure your family knows the
warning. Instruct family members in emergency procedures during a flood warning.
If you live in an area subject to frequent or sudden floods, especially flash
floods, you may wish to have family flood drills. Assign each family member an
emergency task such as gathering emergency supplies, turning off utilities, or
listening to the radio for instructions.
2. Flood proof your buildings. Install check valves in sewer traps to prevent water
from backing up in sewer drains. Seal cracks in walls and floors with hydraulic
cement.
Watch for these these fire hazards on your property:
- Broken or leaking gas lines
- flooded electrical circuits,
- submerged furnaces or electrical appliances
- flammable or explosive materials coming from
upstream.
5. Before floodwaters crest, turn off the main power switch if you think the electrical
circuits are going to be under water. Never Touch The Switch While You Are Wet Or
Standing In Water. Do not turn the electrical system back on until it has been
inspected by an electrician.
6. Know what a river height forecast means for your property especially how far your
property is above or below expected flood levels.
7. Know where to go in case of flooding. Remember that you must seek higher ground as
quickly as possible, on foot if necessary.
8. If you are camping, know how far your campsite is above nearby waterways. Know
how to seek higher ground. Stay out of unknown water paths such as dry creeks or
river beds. If advised to leave the area, do so immediately.
9. Refer to the General Family Preparedness section of this Handbook for additional
steps to take.
Building Dikes To Prevent Minor Surface Flooding
Standing water from melting snow or heavy rains can flood basements and damage yards,
wells, feed supplies, machinery and other property. Flooding is more apt to occur in
areas with poor surface drainage systems or ice dams.
A 1- to 3-foot high sandbag earth dike offers protection from shallow flooding (water
depth less than 3 feet). Contact a construction firm, lumber yard or Civil Defense
officials for information on where to buy sandbags in the area.
A sandbag dike can be constructed as follows:
1. Select the site for the dike, making the best use of natural land features to keep
it as short and low as possible. Avoid trees or other obstructions which would weaken the
structure. Do not build the dike against a basement wall. Leave about 8
feet of space to maneuver between the dike and buildings.
2. Remove ice and snow (down to the bare ground if possible) from a strip of land about
8 feet wide.
3. Fill and lap sandbags. Fill bags approximately half full of clay, silt or sand. Do
not tie. Alternate direction of bags with bottom layer lengthwise of dike.
Lap unfilled portion under next bag. Tamp thoroughly in place. Build the dike three
times as wide as it is high.
Dike Construction Continued
4. Seal the finished dike to increase its watertightness. To seal the dike:
Spread a layer of earth or sand 1 inch deep and about 1 foot wide along the
bottom of the dike on the water side. Lay polyethylene
plastic sheeting so that the bottom edge extends 1 foot beyond the bottom edge of
the dike over the loose dirt. The upper edge should extend over the top of the
dike. (This plastic sheeting, available from construction supply firms, comes
in 100-foot rolls and is 8 or 10 feet wide.) Lay the plastic sheeting down very
loosely so that the pressure of the water will make the plastic conform easily with
the sandbag surface. If the plastic is stretched too tightly, the water force can
puncture it. Place a row of tightly fitting sandbags on the bottom edge of the
plastic to form a watertight seal along the water side. Place sandbags at about
6-foot intervals to hold damp or flooded basements. Leaks in basements may be
caused by cracked walls, improper grading, water in window wells or water pressure
under floors.
Cracks
Watertight concrete is important to prevent water seepage in the basement. Fill cracks
when the soil is dry, so cracks will be dry. It is best to fill cracks when there is no
artificial heat in the basement so thin layers of mortar can cure.
1. Wide cracks (? inch or more). Shape the crack like a V with a star drill or cold
chisel. Fill with mortar. Chisel out the sides of the crack to make a V opening
about 1 inch deep and 1 inch wide at the surface. Coat the crack with a creamy
mixture of cement and water. With a trowel immediately fill the opening with a 1:2
mixture of cement and sand mortar (one amount of cement to two amounts of sand
mortar). Or use a chemically treated cement available at hardware or building
supply stores.
2. Hairline cracks. Fill the cracks with a cement base paint. With a scrub brush
apply a cement wash of Portland cement and water. Or check for other leak-stopping
materials at your local lumberyard or hardware store.
3. The ground around foundations should slope away from the house at a rate of at least
6 inches in 10 feet. You should regrade by cutting and filling if you notice
water standing along foundations, or if the surrounding ground is flat or slopes
toward the house.
4. Carry roof water away from the building by eave gutters and downspouts. Water from
downspouts should be carried about 3 feet away from the foundation wall. Use a splash
block, downspouting or tile drain. Do not direct water from the downspouting into the
drain around the footing.
Preventing Leaks in Basements
Window Wells
1. Check window wells to be sure that surrounding ground ends a few inches below the
top of the well.
2. To prevent water seeping down the outer surface and under the well, compact several
inches of dirt around the well.
3. If there is tile around basement footing, dig a post hole inside the well to this
tile. Fill with clean gravel.
4. If there is no tile around footing, improve drainage by laying drain tile from the
bottom of the window well to a lower point in the yard.
Basement Floors
Water pressure under concrete basement floors may cause them to leak or buckle.
To relieve this pressure:
1. Build a sump so water can run into it and be pumped out.
2. If there is a layer of clean gravel under the floor, drill a hole in the side of a
floor drain. This will allow water to flow through the gravel to the drain, and
will relieve the pressure under the floor.
3. Leaks sometimes can be diverted through concrete lined channels below or above floor
level. Make a channel by chipping away floor and smoothing it with mortar, or by
building a ditch above floor level. Carry the channel around the wall to a floor
drain.
Cleaning Up After a Flood Setting Priorities
Priorities will vary with the kind and seriousness of damage.
Buildings may not be habitable during repair.
1. Examine building structure. Check foundations for settling, cracking or
undermining. Examine walls, floors, doors and windows to determine what repairs are
necessary. You may want to repair only temporarily until extensive work can be done.
2. If basement is flooded, start pumping the water and water system.
5. Shovel out mud and silt before it dries.
6. Before they dry, wash down flooded walls and floors with a hose. Start at upper
limit of flooding and work downward.
7. Scrub and disinfect walls and floors.
8. Start the heating system if possible to speed up drying. Before operating it, the
heating system may need to be cleaned, dried and reconditioned. Make sure chimneys
are clean before starting system.
9. Dry out walls and floors. If necessary for proper drying, strip walls open up to
water level. Drill holes in exterior siding. Complete drying may take months.
10. Repair buckled walls and floors.
11. Clean and dry household items, furniture, carpets, clothing, dishes and bedding.
Disinfect when necessary.
12. Treat items for mildew as needed.
13. Care for damaged trees, shrubs and lawn.
14. Repaint, repair, refinish as necessary.
Salvaging Sewing Machines and Sergers
Most damage to flooded sewing machines and sergers is caused by rust.
Even if the machine was not submerged, check for rust caused by general dampness.
Rust develops quickly on highly polished, machined or plated surfaces.
1. If the equipment was submerged, the machine (head and controls) or the serger should
be serviced by a dealer or professional sewing machine/serger repair person
within 10 days if possible.
2. Try to prevent as much damage as possible by drying equipment quickly.
Use a hand-held hair dryer to help dry interior parts. Dry attachments with
a soft cloth or a hair dryer. Rinse attachments and removable metal parts in dry
cleaning solvent or a light machine oil. Oil replaces water and protects the metal.
3. Oil interior parts to protect them. Put a few drops of machine oil on each moving
part and operate the sewing machine or serger by hand for several minutes to
distribute oil. If the equipment has been submerged, do not use the motor and
controls to operate the equipment until they have been inspected by a dealer or a
repair person.
4. If the sewing machine, serger or attachments have already begun to rust, follow
preventive measures as above. Then rub rusted parts with very fine steel
wool and reapply a coating of oil.
5. If the equipment cannot be serviced within 2 weeks, be sure a light film of oil
remains on the parts. Store equipment in a large plastic bag until serviced to
protect other surfaces from leaking oil. Place a chemical dehumidifier in
the bag with the machine to absorb any residual moisture.
6. If equipment and controls were not submerged, professional servicing may not be
necessary. Follow rust prevention measures for metal parts and then operate the
equipment with the motor. If the equipment works properly, remove excess oil from
attachments and other removable parts with a soft cloth. To remove excess oil from
interior metal parts and thread-handling mechanisms sew/serge through scrap
fabrics until no more oil is absorbed into fabric.
Cleaning Flood-soiled Pillows and Mattresses
Mattresses
1. A good innerspring mattress should be sent to a commercial renovating company.
Renovation is too difficult to do at home. Ask about the cost of the work.
It may be less expensive to buy a good reconditioned or new mattress.
2. If a mattress must be used temporarily, scrape off surface dirt and expose mattress
to sunlight to dry as much as possible. Cover mattress with a rubber or plastic
sheet or mattress cover before using it.
3. If you decide to keep a flood-soiled mattress, it should be sterilized. This must be
done at a sterilizing plant such as a mattress company or a state hospital.
Ask your local public health department or county Extension agent for information on
mattress sterilizing plants in your area. Have mattresses as dry as possible
before taking them to a sterilizing plant. Use crop drying fans or household fans
to speed up the drying process.
Feather Pillows
1. For feather pillows, if ticking is in good condition and does not contain red or
yellow stains, wash feather and ticking together. Brush off surface dirt.
Wash in machine or by hand in warm (not hot) suds 15 to 20 minutes. Use a
disinfectant, following product directions for use. If using an automatic
washer, wash no more than two pillows at one time. If washing by hand, rinse at
least three times in clear warm water. Spin off water or squeeze out as much
water as possible. Do not put pillows through a wringer. Dry in an automatic
dryer at moderate heat setting. Put several bath towels in the dryer with the pillow to
speed up drying. Allow about 2 hours. Or dry pillows in a warm room on a
sweater drying rack with a fan on them. Shake and turn pillows occasionally to
fluff feathers and hasten drying. Or hang pillows on a clothesline by two corners.
Change position end to end and shake occasionally to fluff feathers and speed
drying.
2. If ticking is not in good condition or is stained with red or yellow mud, wash
feathers and ticking separately. Find or make a bag of light weight, firmly woven
fabric such as muslin. The bag should be two to three times larger than the
ticking. Open one edge of the ticking.
Radiological Accidents
Radiation is energy in the form of waves or particles and is part of
our everyday lives. Our planet receives radiation from outer space and from the sun.
Other naturally occurring radioactive materials are present in the soil, in the structures where
we live, and in the food and water we consume. These natural forms of
radiation are referred to as "background radiation." Radioactive materials also are a
source of fuel for nuclear power plants. While the history of such plants in the
United States has been generally safe, residents living near power plants should know
what preparations and responses are appropriate to take in the event of a radiological
accident. In addition to the information in this section, also refer to the General
Family Preparedness section.
Radiation Types
The three basic forms of radiation are:
1. Alpha particles can be stopped by a single sheet of paper or a few layers of dead
skin. Therefore, alpha radiation is not an external hazard. However, if the
source of radiation is within the body, it is the most serious hazard, because of
alpha radiation's greater biological effects on live tissue.
2. Beta particles can be stopped by a few layers of clothing, 10 feet of air or a
half-inch of tissue. If beta particles are retained in the skin, they can damage
living cells by causing severe skin or eye burns. They also can damage cells in the
digestive tract if particles are ingested with food or water.
3. Gamma rays are similar to x-rays and are the major radiation of concern in radiological
environments. Gamma rays are deeply penetrating and can damage
body cells. Although all cells are subject to damage, bone marrow cells and cells in
the intestinal lining seem to be particularly sensitive. Gamma rays can be shielded
to acceptable levels by sufficient amounts of materials.
Radioactive materials can be released in the form of particles or gases. Both are
spread by the wind. The farther the particles travel, the lower the concentration of
radioactive material. Contamination is an undesired presence of radioactive materials.
In an accident that releases radiation into the environment, people, farm equipment,
animals, crops and the soil can become contaminated. In addition to the following
procedures, homeowners and agricultural producers also should refer to the section on
General Family Preparedness.
Preparing for a Nuclear Power Plant Accident
1. If you live near a power plant, familiarize yourself with the terms used to describe
a nuclear emergency. Notification of unusual event means a small problem has
occurred at the plant. No radiation leak is expected. No action is necessary on
your part. An Alert means a small problem has occurred and small amounts of
radiation could leak inside the plant. You should not have to do anything.
A site area emergency is a more serious problem. Small amounts of radiation could
leak from the plant. Area sirens may be sounded. Listen to your radio or television
for safety information. A general emergency is the most serious problem. Radiation
could leak outside the plant and off the plant site. The sirens will sound. Tune to
your local radio or televistall sirens and other warning systems to cover a ten-mile
area around the plant.
3. Obtain public emergency information materials from the company that operates your
local nuclear power plant or from your local emergency services office.
What to Do in a Nuclear Power Plant Emergency
1. Keep calm. Not all incidents result in the release of radiation.
2. Stay tuned to local radio or television. Specific instructions will be given by
authorities. Local instructions should take precedence over any advice given in this
handbook.
3. Evacuate if you are advised to do so. See the section on Evacuation Procedures in the
General Family Preparedness section. Keep car windows and vents closed; use
reecirculated air.
4. If you are not advised to evacuate, remain indoors. Close doors and windows.
Turn off the air conditioner, ventilation fans, furnace and other air intakes.
Go to a basement or other underground area if possible. If you must go outdoors,
cover your nose and mouth with a handkerchief.
5. Do not use the telephone unless absolutely necessary. All lines will be needed for
emergency calls.
6. If you have just been outdoors, take a thorough shower. Change your clothes and
shoes. Put the items you were wearing in a plastic bag. Seal the bag and store it
out of the way. Clothes can later be washed as you normally would in the washing
machine. Any contamination would remain in the water and not contaminate the
washing machine.
7. Put food in covered containers or in the refrigerator. Food not previously in
covered containers should be washed first.
Safety of Home Gardens After a Nuclear Accident
1. Test homegrown produce for radioactive contamination before it is consumed.
2. If you work outside make sure you: Wash hands thoroughly before eating.
Wear protective clothing that covers all portions of your body while
outside. Remove outer clothing before you go inside. Wear a dust mask
or a folded, damp cloth over your nose and mouth while you work.
Avoid dust-producing activities as much as possible.
Recovering Losses and Expenses from a Nuclear Accident
1. Nuclear power station operators are required to have insurance to cover damages
suffered by the public. Additional living expenses, loss of farm or business
income, and physical or property damage are covered.
2. The Federal Emergency Management Agency also may provide funds for temporary housing
and home repair, as well as other types of assistance. See the section on General
Family Preparedness for post-disaster assistance information.
Special Considerations for Agricultural Producers
In addition to the precautions and responses covered in the previous pages, the agricultural
producer will want to consider the following measures.
What to Do in a Nuclear Power Plant Emergency
1. Shelter livestock and give them stored feed if advised to do so by authorities.
Some farm buildings provide better protection than others because of heavy construction.
Placing earth, hay, sacked feed or fertilizer, concrete blocks or other materials around exposed
shelter walls will increase shielding effectiveness. Make sure that adequate ventilation and
wood lots offer some protection. Cattle could be penned in cattle underpasses or bridges if
available. Cattle confined in pens shelter each other to a limited extent. Move dairy cattle
And goats indoors first because radioactive material easily transfers to milk.
2. Do not add water to covered storage unless it is from a protected source.
3. Protect standing water by covering the surface at the outset of an emergency.
4. Cover feed to protect it from falling particles. Protect haystacks in an open field
with tarpaulins, plastic sheets or similar coverings.
5. Poultry are somewhat more resistant to radiation than other farm animals.
Confined shelters and use of stored feed also lower concern of contamination.
The same feed, water and shelter ventilation measures taken for livestock should
be followed to reduce the likelihood of contaminated egg and poultry products.
6. Swine care should follow the steps taken with other livestock. Water is a
primary necessity for hogs, so sure the source is protected.
Animal Care After a Nuclear Accident
1. Limit the use of feeds to those under cover or protected from contamination.
Grain in permanent indoor storage, hay in a barn and silage in a covered silo
may be considered protected. Rolled bales of hay should be used only when
absolutely necessary, and only if the outer layers are removed and discarded.
Do not let animals graze until you are notified that forage in your area is safe. If grazing
cannot be avoided, supplementing it with protected feed will limit ingested contamination. If
no stored feed is available, animals can survive on water for a period. Make a special effort
to prevent dairy animals from becoming contaminated by providing clean food and water.
If possible, prevent cattle from drinking from ponds, lakes, rivers and streams.
Spring and well water should be free of contamination.
2. If you have been evacuated and your absence is longer than the protected feed
sources will last, emergency officials may allow you to reenter the area.
You must conform to rules regarding emergency workers, including the use of
protective equipment and instrumentation and limitation of stay.
3. It is unlikely that even a worst case event would cause the death of any animals.
Any unexplained illness or death would more likely be the result of changes in
routines of livestock feeding and patterns of grazing. In the event of death or
illness of an animal contact your State Department of Agriculture or County Extension
agent immediately to assist in diagnosis of the problem.
4. Soap and water will remove contamination from animal hides.
5. Wear protective clothing similar to that used in pesticide application.
Recovering Exposed Fruits, Vegetables and Soils
1. Fruit and vegetables may be externally contaminated by radioactive particles.
Normal washing of leaves, pods and fruits that are surface contaminated is effective
in removing contamination. Washing should be done in a place other than the kitchen
to prevent contamination of foods and dishes.
2. Underground crops absorb little radiation. Standard removal and disposal may be
necessary. Planting alternative crops such as cotton or flax instead of food
crops may be recommended in some situations. Deep plowing will remove radioactive
substances below the plant root level and prevent plants from taking up contaminated
substances.
Monitoring Fish and Marine Life
1. Fish and marine life in ponds may be harvested unless officials determine they are
contaminated.
2. Samples of water, fish and marine life from open bodies of fresh and saltwater
should be analyzed for contamination.
Marketing Animals and Products
1. A buffer zone, called a Food Control Area, will be established around land which may
be contaminated.
2. State emergency officials will monitor milk on farms and at points on its way to
market. You will be notified if sampled milk contains radioactive materials.
Milk should be safe if it is from dairy animals that have been adequately sheltered
and protected. There may be delays in milk pickups which will require holding
milk for longer periods of time. Be prepared to provide alternate storage or some
milk may have to be discarded.
3. Do not destroy animal foods unless storage has made them inedible.
4. Livestock that have been exposed to external contamination can be used for food if
they have been washed well and monitored by authorities prior to slaughter.
Meat animals that have internal contamination cannot be slaughtered until officials
advise that it is safe to do so.
Tornadoes
Tornadoes are nature's most violent storms and can leave an area devastated in seconds. A
tornado
appears as a rotating, funnel shaped cloud, striking the ground with whirling winds of up to 200
miles per hour or more. A tornado spins like a top and may sound like a train or an airplane.
Although tornadoes usually travel for up to 10 miles before they subside, 200-mile "tornado
tracks"
have been reported. Tornadoes can strike any time of the year and often accompany hurricanes.
In addition to those measures listed in the General Family Preparedness section, also use the
following tornado preparedness and response measures.
How to Prepare for a Tornado
1. Know the tornado season for your area.
2. Learn to recognize severe weather signs. Tornado weather is usually hot and humid
with southerly winds.
3. Know what a tornado looks and sounds like.
4. Know what a tornado watch or warning is:
A Tornado Watch indicates that weather conditions may cause tornadoes or severe
thunderstorms to develop in or near the watch area. A watch does not mean a
tornado has been sighted. A Tornado Warning means that a tornado has actually been
sighted or indicated by radar and residents should take shelter.
Special Precautions for Mobile Home Dwellers
1. When you purchase a mobile home, look for built-in safety features:
Factory installed anchoring strapscate your home so the small end
is directed into the direction of prevailing winds, reducing
surface exposure to wind impact.
2. Encourage your neighbors to tie down, too. An unanchored mobile home blown
into your home can cause extensive damage.
3. Have your mobile home blocked properly. Open concrete blocks are less expensive
but are never good enough.
4. Make sure you purchase approved tie-downs.
5. Skirting your mobile home will help protect underneath the home from moisture and
winter weather, as well as reduce soil heaving caused by soil thawing and freezing
during winter months. Soil heaving destabilizes the mobile home, requiring
retightening of the tie-downs.
6. Be aware of where designated tornado facilities or shelters are.
What to Do During a Tornado Warning
1. When a tornado has been sighted, stay away from windows, doors and outside walls.
Protect your head from falling objects or flying debris. Take cover wherever you
are. In a house or small building, go to the storm cellar or basement. If there is
no basement, go to an interior part of the structure on the lowest level (closets,
interior hallways). In either case, get under something sturdy (such as a heavy
table) and stay there until the danger has passed. In a school, nursing home,
hospital, factory or shopping center, go to a designated shelter area.
Stay away from windows and open spaces. In a vehicle, trailer or mobile
home, get out immediately and go to a more substantial structure.
If there is no shelter nearby, lie flat in the nearest ditch, ravine or culvert with
your hands shielding your head.
2. Do not attempt to flee from a tornado in a car or other vehicle.
Responses After a Tornado
1. Use great caution when entering a building damaged by high winds. Be sure that
walls, ceiling and roof are in place and that the structure rests firmly on the
foundation.
2. Look out for broken glass and downed power lines.
Inspecting Buildings for Hidden Wind Damage
1. Check the roof for:
Missing or damaged shingles. Loose nails on metal roofing. If nails don't hold when
hammered back in, use #12 or #14 metal screws to fill old nail holes.
Potential leaks that could indicate structural separation. This is more easily
checked for on sunny days.
2. Inspect the foundation to make sure that joints where the foundation and wall meet
haven't separated. On stone or concrete foundations, check to see that plate bolts
have not worked loose.
3. Inspect the interior of buildings for structural damage. Using a good light, check
the framing. Look for ridge separation, loose knee braces and loose rafters where the
rafters join the walls.
Special Considerations for Agricultural Producers
In addition to those tornado concerns listed previously, agricultural producers should inspect silos
for hidden wind damage. Make sure the silo is still plumb. Look for loose hoops. Inspect the base
of metal silos inside and out for hairline cracks. Remove any rust around the base with a wire
brush. Look for new cracks in the plaster of empty concrete stave silos.
Volcanic Eruptions
Volcanic ash can be harsh, acid, gritty, glassy and smelly. While not immediately dangerous to
most adults, the combination of acidic gas and ash which may be present within miles of the
eruption can cause lung damage to small infants, very old people or those suffering from severe
respiratory illnesses.
Preparing for a Volcanic Eruption
1. Follow the information located in the General Family Preparedness section of the
Handbook.
2. Be familiar with terms associated with a volcanic eruption. Volcanic ash
usually is erupted into the air above the volcano and then is carried downward along
with volcanic gases. Pieces of ash may range from dust sized particles to pieces of
rock. Ash can overload roofs, corrode metals, cause fabrics to decompose, clog
machinery, block drains and water intakes and injure or kill vegetation.
Lava flows are streams of molten rock from a vent or from a lava fountain.
Volcanic gases associated with active volcanoes are water vapor, carbon dioxide,
hydrogen sulfide, hydrogen, helium, carbon monoxide and hydrochloric acid.
People with respiratory problems and heart disease are especially susceptible to
volcanic gases. Gases rarely reach populated areas in lethal concentrations, although
sulfur dioxide can react with the atmosphere downwind and fall as acid rain.
Pyroclastic flows and surges are mixtures of hot rock fragments that sweep away from their
source at hurricane velocity. Because of their high speed and temperature, pyroclastic flows
and surges kill or destroy virtually everything in their path.
Volcanic landslides are not always associated with eruptions; heavy rainfall or
a large earthquake can trigger landslides on steep volcanic slopes.
3. Check with your local emergency management agency to locate hazard maps of your area.
Areas that could be endangered by volcanic ash, pyroclastic flows, lava flows and mud
flows are identified in these maps.
During a Volcanic Eruption
1. Do not visit the volcano site; you could be killed by a sudden explosion.
2. If ash is being expelled, avoid areas downwind from the volcano. A building offers
good shelter from volcanic ash but not from lava flows and rock debris.
3. Be aware of flying rocks and mudflows. The danger from a mudflow increases as you
approach a stream channel and decreases as you move away and toward higher
ground. Mudflows can move faster than you can walk or run. Look upstream before
crossing a bridge, and do not cross if the mudflow is approaching.
4. If ash is falling, stay indoors until the ash has settled.
5. During an ashfall, close doors, windows and all ventilation in the house.
6. Remove ash from flat or low pitched roofs and rain gutters to prevent thick
accumulation.
7. Avoid driving in heavy dust conditions unless absolutely required. If you must
drive in dense dust, keep speed down to 35 mph or slower.
8. Avoid driving in heavy dust conditions unless absolutely required. The more dense
the dust, the more urgent the requirement should be for driving.
9. When required to drive in dense dust, keep the speed down to 35 mph or lower.
Do not follow too close to cars in front of you. Use headlights on low beam.
10. Change oil often. In very dense dust, change at 50- to 100-mile intervals.
In light dust conditions, change oil at 500- to 1000-mile intervals.
Lubricate all chassis components at each oil change.
11. Clean air filter by backflushing filter paper with compressed air (30 psi).
CAUTION! Blow element from inside (clean side) to outside (dirty side).
DO NOT strike filter against anything. If you are unsure, have a qualified
mechanic perform the air filter service.
12. Cover passenger compartment vent inlet (located at base of windshield and usually
under hood) with thick, loosely woven, felt-type material to filter air into
vehicle. With vent filter in place, keep heater blower on high. The blower will
slightly pressurize the inside of the vehicle and keep dust from entering through
body gaps or holes. If a vent filter is not installed, keep air conditioner and
heater blowers off.
13. Have a service garage clean wheel brake assemblies every 50 to 100 miles for very
severe road condition, or every 200 to 500 miles for heavy dust conditions.
14. Have a service garage clean alternator winding with compressed air after heavy dust
accumulation or every 500 to 1,000 miles of severe dust exposure.
15. Wash the engine compartment with a garden hose or steam cleaner. Be sure to seal off
air intakes and electrical components before cleaning.
16. Commercial truck filters can be installed to increase the filtering capacity of the
air cleaner. However, this is expensive and should be attempted only by trained
garage mechanics or experienced personnel. This would be beneficial for vehicles
operating continuously in extreme dust conditions.
Winter Storms
Winter storms can strike any area. Even areas that normally
experience mild winters can be hit with a major snowstorm or extreme
cold. The results can be isolation from power outages, blocked roads
and cars trying to maneuver ice-covered highways. Everyone needs to
be prepared to protect themselves from the hazards of winter
weather-blizzards, heavy snow, freezing rain and sleet.
Preparing for Winter Storms
1. Being familiar with terminology used by the Weather Service will help you know what
to expect when weather warnings are issued. The following terms are used frequently
in winter weather releases: Freezing rain occurs when temperatures are below 32
degrees F and rain freezes on impact. This causes an ice coating on all exposed
surfaces. If the coating is heavy, falling trees or wires can be additional hazards.
Freezing rain or drizzle is called an ice storm when a substantial glaze layer
accumulates. In some parts of the country, ice storms are called "silver thaws" or
"silver frosts."
Sleet is frozen rain drops (ice pellets) which bounce on surface impact. Sleet does
not stick to objects, but sufficient accumulation can cause dangerous driving
conditions. Travelers' advisory means that falling snow and/or drifting snow, strong
winds, freezing rain or drizzle will make driving hazardous.
Heavy snow warnings are issued when 4 or more inches are expected during a 12-hour
period, or when 6 inches or more are expected during a 24-hour period. Blowing and
drifting snow result from strong winds. Blowing, falling snow or loose snow on the
ground can produce sizeable drifts. Blizzard warnings are issued when wind speeds of
35 miles per hour or more are expected with blowing or drifting snow. Snow squalls
are brief, intense snowfalls accompanied by gusty surface winds. Wind chill factor is
the combined effect of wind and cold. A very strong wind combined with a temperature
below freezing can have the same chilling effect as a temperature almost 50 degrees
lower with no wind. Anyone who is outdoors and exposed to low temperatures and
strong winds will be more easily exhausted and more subject to frostbite or death.
° = temperature in degrees Fareneheit
Temp. Wind 15 mph 30 mph 40 mph
30F 11°F -2°F -4°F
20°F -5°F -18°F -22°F
10°F -18°F -33°F -36°F
0°F -33°F -49°F -54°F
-10°F -45°F -63°F -69°F
-20°F -60°F -78°F -87°F
-30°F -70°F -94°F -101°F
-40°F -85°F -109°F -116°F
Pay attention to weather forcasts and plan accordingly. Include food that needs no
cooking in case of power failure. If power is out, keep your refrigerator
and freezer doors closed as much as possible. Prevent fires by not overheating your
stove, heater or furnace. Don't leave fireplaces unattended. Stay indoors during
cold snaps and storms unless you are in top physical condition. If you must go
out, don't overexert. Be particularly careful when shoveling snow. Heart attack is a
common cause of death during and after winter storms. Remember that cold winds
and temperatures put extra stress on your body even if you are in good condition.
Wear several layers of loose-fitting, lightweight, warm clothing. Layers of clothing
trap warm air close to your body. You can remove clothing to prevent
perspiring and subsequent chill. Outer clothes should be tightly woven, water
repellent and hooded if possible. Cover your mouth to protect your lungs from
extreme cold. Get your car winterized before the cold season. Use snow tires or
chains. Keep the fuel tank filled to prevent water from getting into the fuel and
causing the engine to stall. If you must travel when bad weather is forecast, be
sure someone knows where you are going and the time you expect to arrive. Travel
with someone else if at all possible.
Blizzards may require long periods of isolation. If you need outside help during
this time, you should know the following emergency distress signals to signal
aircraft:
Need doctor . . . . . . . . . . . . . . . . . . .I
Need medical supplies . . . . . . . . . . . . . II
Need food and water . . . . . . . . . . . . . . .F
Need fuel . . . . . . . . . . . . . . . . . . . .L
International distress signal .. . . . . . . . . .SOS
Make these signals on the ground where they will be clearly visible from the air.
The letters should be at least 10 feet tall. Use black cloth or plastic, hay,
boards or other material readily visible on the white snow. If no materials are
available, tramp the letters into the snow, deep enough to create as much shadow as
possible.
Special Considerations for Travelers
When traveling any distance by car during the winter, observe these
safety precautions:
1. Before you leave, have your car checked. A thorough winterizing check should
include:
Ignition system,
Battery Lights,
Snow tires installed,
Cooling system
Fuel system
Exhaust system
Heater Brakes
Wiper blades
Defroster
Tire chains and tow chains
Antifreeze Winter-grade oil
2. Select alternate routes before you leave, in case your preferred route isn't
passable.
3. Listen to the radio as you travel and heed latest weather information.
4. Seek shelter immediately if the storm seems severe.
5. Try not to travel alone during a storm. Two or three people are better than one
because they can help each other. Travel with another car if possible.
6. Make sure someone knows where you are going, when you leave, the time you expect to
arrive and your expected route.
7. Always fill your gas tank before entering open country, even for short distances. You
will be less likely to be stranded from running out of gas. In case you are stranded
by the storm, you will have enough fuel to run the motor and heat the car.
8. Drive defensively.
9. Carry a winter storm car kit. This should include:
additional batteries, Windshield scraper, Booster cables, tow chains,
Fire extinguisher, Catalytic heater, Axe, Plastic scraper, Transistor radio with
extra battery, Tools like pliers, screwdriver, adjustable wrench, Flares,
Winterizing Mobile Homes
1. Inspect the roof for leaks and cracks. Water can seep through to damage ceilings,
interior panels or furnishings. When making inspections or repairs, do not walk on
the roof unless it is absolutely necessary. Most repair work can be done from
an extension ladder. Be careful not to lean to the side of the ladder when making
repairs. Instead, move the ladder to the work area.
2. Check locked or lapped roof seams for loose screws, spreading, parting or buckling.
Add new screws if necessary, and cover all seams with roof coating or asphalt-base
paint.
3. Check stacks and vents for cracks, and make sure they are free of debris.
4. Check the flashing for loose screws and separation from the roof. Water can freeze
between loose flashing and the roof, causing damage when it melts. If necessary,
attach flashing to roof area with a liberal coat of caulking and extra sheet metal
screws. Then coat screws and flashing area with roof coating or paint.
5. Check to see that molding is secure where roof meets exterior walls.
6. Check total roof surface for cracks, breaks, rust or oxidation. Scrape or wire brush
rusted seams and recoat entire roof.
7. Provide at least one front and rear circulation vent and two side circulation vents
when installing skirting. Keep vents free from obstructions. Allow for frost and Ground
expansion. Do not apply skirting tight against the ground or tight against
the bottom of the unit. Without expansion room, frozen ground can heave the skirting
against interior panels, causing wall to buckle.
8. Clean or change furnace filters as recommended by manufacturer. Collected dust can be
pulled into the motor, causing it to overheat. Some filters can be cleaned with a Vacuum cleaner;
some should be washed in a detergent solution; and others require replacement.
Follow manufacturer's instructions for cleaning, oiling and replacing parts.
9. During the summer months when the heater is not used, keep the fuel tank full to
prevent condensation and rusting. Use only No. 1 fuel oil or kerosene in the outside
fuel tank. No. 2 fuel oil can be used in underground tanks. Never add gasoline or
naptha to the fuel oil.
10. If the mobile home is not positioned on concrete pads, frozen ground may cause it
to heave or rise. This could make the doors stick. To correct this, turn the jack
handle on the front hitch, raising the front as needed. Reverse the jack handle
when the ground thaws in the spring and the unit settles again.
11. During sub-freezing temperatures give extra protection to water systems,
especially if the unit is not set on a permanent sub-surface heated basement.
Skirting will help reduce some possibility of freezing damage, but will probably
not eliminate the problem. On most modern units, pipes leading from the underground
pipe connection to the faucets are protected within the floor system. You will
need to protect only the exposed pipes. Use electric heat tape equipped with
a thermostat. This material is available at most hardware outlets , and when
installing the pipetape, keeping it snug against the pipe. In general, three
turns per foot of pipe (a spacing of about 4 inches between spirals) is adequate.
Apply friction tape at 12- to 16-inch intervals to hold the heat tape in place.
Wrap heat tape over the full length of the water pipe from the floor to below frost
level. The heat tape should not touch itself at any point because hot spots could
develop, causing failure of the tape. Place insulation around the pipe to save
electricity. Inch-thick, pre-foamed pipe insulation with a waterproof coating is
recommended. Tape all joints with a waterproof tape or seal them with adhesive.
Be sure the thermostat is also covered with insulation. Plug the heat tape cord
into an electrical outlet when cold weather arrives.
12. Freezing problems sometimes occur in mobile home drainage systems, especially when
drain pipes below the floor are installed with very little slope. To help prevent
damage from freezing: Fix leaky faucets. When water flow in drain pipes is very slow
(as from a dripping faucet) the water in the pipeline may freeze. This is
especially true if faucets drip overnight. Check toilet tanks. Water running
or dripping in the toilet tank could cause sewer lines to freeze.
Install electric heating tape on the drain line. Drain pipes are less susceptible to
freezing than pipes in a potable water system, so a single strand of heat tape taped
to the bottom of the drain line usually will prevent freezing problems. Install insulation
over the heat tape. Hold the eave in place with friction tape at 12-inch
intervals. Be sure the thermostat is held securely to the pipe and is covered with
insulation. Use preformed pipe insulation with a waterproof cover. Tape all joints
in the insulation with waterproof tape.
Winterizing Residential Buildings
When winterizing your house, check each of the following items.
Repair as necessary.
Roof
1. Check for broken, damaged or loose shingles; small holes; and loose nails.
2. Check flashing around all dormers, vent pipes, chimneys and any other projections
where the roof covering meets an adjoining surface.
Gutters and downspouts
1. Clean out leaves, dirt and debris.
2. Paint any rusty gutters.
3. Check supports.
Exterior
1. Repair cracks in stucco or masonry walls.
2. Spot repair and paint any defective areas to prevent damage from freezing and
thawing.
Windows and doors
1. Check weather-stripping around windows, doors and between foundation and siding.
Replace where needed.
2. Check metal weather-stripping for dents, bends, breaks, loss of tension or other
damage that could make it less effective.
3. Repair and paint storm windows if necessary.
Heating system
1. Have a qualified serviceman clean and check your furnace, replacing necessary parts.
Furnace check should include:
Fan belts check for proper tension, cracks or wear. Motors and bearings oil units equipped
with
oil parts.
Filters clean or install new filters. Fiberglass filters will need to be replaced
because they lose their effectiveness if cleaned and re-used. Hot and cold air
registers vacuum if necessary. Humidifier (if part of furnace) remove scale, lime
deposits and corrosion. Check float valve and evaporator plate.
2. Remove air conditioner for winter storage. Cover with dust-proof cover. If air
conditioner is left in the window, install a weather proof cover and seal the
space around the unit.
Driveways and sidewalks
1. Clean and repair cracks, fissures and joints in concrete surfaces.
2. Upgrade gravel driveways.
3. Repair cracks or fissures in asphalt drives. Seal with asphalt topcoating.
Preparations to Reduce Heat Loss from Buildings
1. Install overhead and sidewall insulation. Adequate insulation is one of the most
important factors in reducing heat loss and will increase the comfort of your home
in both summer and winter.
Under most conditions you need the equivalent of 6 inches of fiberglass thermal
insulation over your top floor ceiling; 3? or 4 inches of sidewall insulation is also
recommended.
2. Weatherstrip and caulk around all joints and frames of windows and doors.
3. Install storm windows and doors or insulating glass. Storm windows can result in a
10 to 20 percent reduction in heating costs. If buying storm windows is
not practical (as when renting), tape clear plastic to the window frame.
4. Clean and change furnace filters regularly. Have furnaces checked and cleaned by a
qualified repairman once a year. Clean and replace air filters when they become
loaded with dust or lint.
5. Close window draperies at night. Regular draperies reduce heat loss slightly;
insulated draperies cut down heat loss even more.
6. Seal as tightly as possible any openings which may permit cold air leakage from the
attic. Leakage is likely to occur around attic stairway doors, pulldown stairways,
electric light fixtures, ceiling fans, air ducts and plumbing vents or pipes.
Air leakage from the attic not only increases heat loss but also increases the
possibility of moisture condensation in the attic. Condensation can wet insulation
and building materials, eventually causing structural damage and reducing the
effectiveness of the insulation.
7. If your basement is heated, close off upper wall construction that is open to the
attic. However, be sure to provide exterior vents into the wall cavity.
8. Repair leaking hot water faucets. Leaky faucets waste both heat and water.
9. Close fireplace dampers when they are not in use. This will keep heated air from
escaping up the chimney.
What To Do During a Home Power Failure
During severe winter storms, your home heating system could be inoperative for as long
as several days. To minimize discomfort and possible health problems during this time,
ake the following steps:
1. Conserve body heat.
2. Put on extra clothing. If cold is severe, your bed may be the warmest place.
Extra blankets and coverings will trap body heat. This is a good way to keep
children warm. Farm families might consider taking refuge in the relative warmth of
the livestock barn.
3. Find or improvise an alterric heater, Gas-fired hot water heater,
4. Provide fuel. Common fuel materials include:
Furnace coal
Canned heat Furnace oil
Wood chips
Campstove fuel
Alcohol
Newspapers, magazines
Charcoal lighter fluid
Kerosene, gasoline
Straw
Firewood
Corncobs
You can burn coal in a fireplace or stove if you make a grate to hold it, allowing
air to circulate underneath. "Hardware cloth" screening placed on a standard wood
grate will keep coal from falling through. Tightly rolled newspapers or magazines can
be used for paper "logs." Before burning the "logs," stack them properly to allow
for air circulation. Consider burning wood, including lumber or furniture, if the
situation becomes critical.
CAUTION: Do not store fuels in the heated area because of fire danger, especially if
you have highly combustible materials such as gasoline or kerosene.
What To Do During A Home Power Failure
5. Select a room to be heated. To increase efficiency of available heat, close off all
rooms except the one to be heated. When selecting a room or area to be heated,
consider the following:
If using a vented stove or space heater, select a room with a stove or chimney flue.
Confine emergency heat to a small area.
Try to select a room on the "warm" side of the house, away from prevailing winds.
Avoid rooms with large windows or uninsulated walls. Interior bathrooms probably
have the lowest air leakage and heat loss. Your basement may be a warm place in cold
weather because the earth acts as insulation and minimizes heat loss. Isolate the
room from the rest of the house by keeping doors closed, hanging bedding or heavy
drapes over entry ways, or by erecting temporary partitions of cardboard or plywood.
Hang drapes, bedding or shower curtains over doors and windows, especially at night.
6. Provide adequate safety measures. Safety is of prime importance in a heating
emergency. Your chances of freezing to death in your home are small. Fire,
asphyxiation from lack of oxygen, or carbon monoxide poisoning are much greater
dangers unless you take adequate safety precautions. Do not burn anything larger than
candles inside your home without providing adequate ventilation to the outside.
Any type of heater (except electric) should be vented. Connect the stove pipe to a
chimney flue if at all possible. (Many older homes have capped pipe thimbles in
rooms once heated by stoves.) Or hook up your stove to the flue entrance of the
nonfunctioning furnace pipe (after removing the pipe). Sometimes a stovepipe can be
extended through a window if no other alternative exists. Replace the window glass
with a metal sheet, and run the temporary stovepipe through the metal.
Do not run emergency stovepiping close to flammable materials. Be particularly
careful with window-mounted flues. The wood sash, curtains and shades are especially
flammable. If you use a catalytic or unvented heater, provide plenty of ventilation in
the room. Whenever the device is in use, cross ventilate by opening a window an inch
on each side of the room. It is better to let in some cold air than to run the risk
of carbon monoxide poisoning. Do not burn outdoor barbecue materials such as charcoal
briquets inside even in ventillated areas as your resources are used. One person
should stay awake to watch for fire and to make sure ventilation is adequate. If the
firewatch feels drowsy, it may be a sign of inadequate ventilation. Keep fire fighting
materials on hand.
Responses to Other Heat Loss Problems
During a power failure, keeping warm will be a major problem. However, several other
related heat loss problems also should be considered.
1. If it seems likely that the heat will be off for several hours in below freezing
temperatures, protect exposed plumbing. Drain all pipes (including hot water
heating pipes) in any rooms where temperature falls below 40°F. You may need
to drain only portions of your system. Drain the sink, tub and shower traps,
toilet tanks and bowls, hot water heater, dish and clothes washers, water pumps and furnace
boiler.
2. If your water pump is electrically powered, a power outage could restrict your
water use. Save as much water as possible when you drain the system. Store the water
in closed or covered containers, preferably where it will not freeze.
You may use water from your hot water heater and toilet tanks (not the bowls) for
drinking and household use. Water from the heating system will be unfit for
drinking or other household use.
3. Keep on hand a good supply of candles, matches and at least one kerosene or gas
lantern with ample fuel. Also have a dependable flashlight with spare bulbs and
batteries.
4. If your water supply is shut off, sanitation will become a problem.
Flush the toilet only often enough to prevent clogging. (Disconnect the chain or
lever attached to the toilet handle to prevent children from flushing.)
Provide covered containers for disposing of toilet paper. A portable camper's toilet
might be useful.
5. Camp stoves or fireplaces may be used for cook stoves in an emergency.
Meal-in-a-can foods such as stews, soups, canned meats, beans or spaghetti require
little heat for cooking, and some can be eaten without cooking.
Cereals, breads, dried meats and cheese are other "no cook" possibilities.
Freeze-dried meals used by campers and backpackers can be prepared with a minimum
of heat.
Protecting Your Hot Water System During A Winter Storm Power Failure
1. If you think the heat will be off several hours or more during below freezing
temperatures, you will need to keep exposed heating pipes from freezing. This can
be done by circulating water through the pipes or adding antifreeze to the system.
2. If electrical power is available, keep the circulator pump going. Moving water does
not freeze readily. However, if the room temperature drops to below 40°F, you
probably should begin to drain the pipes.
3. Most hot water heating systems are not easily drained. Pipes may have to be
disconnected to drain low points. Open the vents on radiators to release air so
pipes can drain.
4. Consult a heating contractor about adding antifreeze to your system.
Antifreeze is poisonous and must not be allowed to get into the drinking water
system. Make sure the house water system and the boiler water system are not
connected. Use only antifreeze containing ethylene glycol. Do not use antifreeze
containing methanol. (Methanol vaporizes readily when heated, and could cause
excessive pressure in the system.) Make sure the antifreeze does not contain
leak-stopping additives. These may foul pumps, valves, air vents and other parts.
Protecting Your Plumbing System During A Winter Storm Power Failure
1. Shut off the water at the main valve, or turn off the well pump if it is in the
house.
2. Drain the pressure tank.
3. Open all faucets until they drain completely! Some valves will open only when there
is water pressure. If so, remove the valve from the faucet.
4. Drain the entire system by disconnecting pipe unions or joints as close to the main
valve as possible. You may use compressed air to blow water from pipes.
5. Insulate undrainable pipes around their main valves. Use newspaper, blankets or
housing insulation.
6. Drain toilet flush tanks and spray hoses controls. Lay the softener tank on
its side to drain as much water as possible. Also drain controls and tubing on brine
(salt) tank. A brine tank itself will not be harmed by freezing.
Protecting Your Sewage System During A Winter Storm Power Failure
1. Empty all drain traps by carefully removing drain plugs or by disconnecting traps.
2. Blow out inaccessible traps with compressed air or add ethylene-glycol base
antifreeze in an amount equal to the water in the trap (1 pint to 1 quart is
sufficient, depending on the size of the trap).
3. Check kitchen sinks, bathroom sinks, bathtub drains, toilets, washtubs, showers,
floor drains and sump pumps.
Protecting Appliances During A Winter Storm Power Failure
1. Disconnect the electric power or shut off the fuel to all water-using units.
2. Shut off the water supply and disconnect the hoses if possible.
3. Drain all water-using appliances.
4. Check the water heater, humidifiers, ice-making unit of the refrigerator, washing
machine and the dishwasher. Do not put antifreeze in these appliances. Close
valves to the furnace, water heater and dryer.
Preventing Ice Dams on Eaves
Ice dams along eaves may cause considerable damage to the roof and inside walls of a
house. Poorly insulated roofs are the chief cause of ice build-up on eaves. Ice forms
when the snow melts off a warm roof, runs down to the eave line, and refreezes there.
Ice in the eave trough prevents water from running off freely. If water backs up high
enough, it may seep under shingles and down into the house. Sometimes it leaks through
plaster walls and ceiling. Ice dams are usually a problem only on cold days when the
roof is warmer than the eave overhang. On warm days the snow melts at the same rate on
the eaves and water runs off freely.
To prevent ice dams:
1. Insulate between the top floor ceiling and the attic, or along the underside of the
eaves if the attic is used as living space. Insulation also will help cut fuel cost.
2. Ventilate the attic through windows and louvers when insulation is added to the
attic floor. This will help reduce moisture condensation in the attic.
3. Use electric heating cables along the eaves if insulation or ventilation is not
possible. Cables can be strung out along the edge of eaves. When plugged in, they
will heat the area, melt any ice already formed and prevent further freezing when
water drips off the roof. Be sure cables are approved for the intended use by the
Underwriters Laboratory. Check with your electrician for correct installation.
4. Do not use salt to melt snow or ice from roof. Salt will rust nails, damage gutters
and downspouts, and ruin next year's lawn.
Responses to Take When Caught Outdoors During A Winter Storm
Hunters, sportsmen or snowmobile riders occasionally become lost or injured in severe winter
weather. Be sure someone knows where you are going and when you plan to return. Don't
travel
alone. Dress properly. If you do become stranded:
1. Remain calm. Don't rush to get out immediately. You can easily become disoriented
and lose your way during a snowstorm.
2. Build a shelter for the night, preferably on the leeward side of brush or timber.
In timber country a lean-to gives good protection. Construct one by using two "Y"
poles for corners and a sturdy cross shaft. Place poles from cross shaft to the
ground and cover with evergreen boughs. In open country where snow is shallow and the
temperature isn't too cold, a snow trench can provide adequate shelter. "Snow caves"
(in snow at least 4 feet deep) provide the warmest shelter during cold weather. Dig
your cave on the leeward side of a drift. Be sure that you don't locate the opening
under an overhanging drift or in a possible avalanche path. Cover the bottom of your
shelter with boughs, grass or sticks if they are available. Soft, springy boughs are
good for a mattress.
3. Gather a fuel supply that will last throughout the night. Gather fuel while it is
still daylight. Build a fire approximately 2 feet from the shelter, using a log or
piled rocks to reflect the heat. When daylight comes again, be prepared to increase
the size of the fire. Try to produce as much smoke as possible to signal rescue
parties. Extreme cold and over exertion can cause a heart attack in cold weather conditions.
4. Stay in your car where you are sheltered and more likely to be found. You can become quickly
disoriented when trying to walk around in blowing snow.
5. Stay calm.
6. Keep fresh air in your car. Freezing wet and wind-driven snow can seal the passenger
compartment and suffocate you. Keep the downwind window open about an inch when you
run the motor and heater. Be sure snow has not blocked the exhaust pipe.
7. Exercise from time to time by clapping hands and moving arms and legs vigorously.
Don't stay in one position long.
8. Keep the dome light on at night to make the car visible to snow plows or rescue crews.
9. Have one person keep watch. Don't allow everyone in the car to sleep at once.
10. In a snowstorm, automobile parts can sometimes be used for emergency tools:
A hubcap or sun visor can be used as a shovel. Seat covers can serve as blankets.
Floor mats will help shut out wind and cold. Place them against windows on the
upwind side to help reduce drafts. Engine oil burned in a hub cap creates a smoke
signal visible for miles. To light the oil, prime with a little gasoline or use
paper for starter fuel. Signal with the horn. An automobile horn can be heard as far
as a mile downwind.
Special Considerations for Agricultural Producers, Preparing for a Winter Storm
In addition to the precautions and responses covered in the previous pages, the agricultural
producer will want to consider the following measures.
1. Be aware of winter storm terminology. Stockman advisories are issued with combinations
of cold, wet and windy weather, specifically, cold rain and/or snow with temperatures
of 45°F or colder and winds of 25 miles per hour or higher. If the temperatures
are in the mid-30s or lower the wind speed criteria are lowered to 15 miles per hour.
2. Stockmen also should consider the effect of the wind chill factor on livestock.
Providing Windbreaks for Livestock Protection
1. Simple shelters, sheds or windbreaks are necessary to protect livestock from winter
storms. Usually, severe cold alone will not affect the performance of animals on full
feed. Wind, however, can be a serious stress factor. A strong wind has about the
same effect on animals as exposure to a sudden drop in temperature. In general, a 20
mph wind is approximately equivalent to a 30°F drop in temperature. Under extreme
conditions, simple wind and snow protection devices will not be 100 percent effective.
2. Consider wind and snow as a joint problem when deciding the kinds of livestock
protection you need.
3. Simple windbreaks, shelters or sheds are essential for livestock protection from wind
and snow.
4. The effectiveness of a windbreak depends on its height and density. Windbreaks may be
natural (trees) or manmade (fences).
5. Cottonwood or poplar trees are relatively ineffective as windbreaks because of their low branch
density. Supplement these trees with thick-growing trees such as red pines, or with fences.
6. Snow fences can be good substitutes for tree windbreaks which take time to grow and
are not practical under all conditions.
7. Porous fences of 80 percent density offer the best wind protection.
8. Snow will drift through a porous fence. A solid fence keeps most of the snow outside a
yard and provides the best snow barrier, but may direct snow to other parts of the
farmstead. Porous fences can give good snow control if you locate the fences to allow
for the resulting drifts.
9. Swirling and relocation of snow within a farmstead is often the main cause of drifting
problems.
10.Shallow open-front sheds provide excellent shelters for livestock. Such shelters
should have slot openings along the eaves on the back side of the shelter. These
openings will provide ventilation and prevent snow from swirling into the front of the
shed. Plan slot size according to building width. You should have a 1- to 2-inch
opening per 10 feet of building width. Ridge ventilators also are recommended.
11. Do not attach windbreak fences directly to the front corner of an open-front shed.
Instead, use a swirl chamber arrangement. Attach a separate short fence to the
building. Start the longer fence behind it and away from the building.
12.Divide long open-front sheds into 20- to 40-foot sections to reduce drafts and
possible snow build-ups.
13.Locate shelters so that adjacent buildings will not deflect wind and snow into a shed.
Creating Windbreaks On Your Property
1. On some farms a windbreak may be necessary for protection from strong winds and
blowing snow. A windbreak will:
Protect livestock and reduce winter feed requirements.
Help protect homes and reduce fuel use.
Help eliminate snow drifting around farmstead buildings and work areas.
2. Plan the windbreak before you plant. In designing the windbreak you should consider
size and location, tree species, tree spacing and soil preparation.
3. To give the best protection from wind and snow a windbreak should be:
Located to the northwest of the farmstead L-, U- or E-shaped, with the ends
extending about 50 feet beyond each corner of the area to be protected
At least 50 feet and preferably 100 feet from farm buildings and feedlots on level
land (If your land slopes steeply to the north or west, plant trees closer to
the farmstead, but no closer than 60 feet from the many trees, especially
evergreens, are susceptible to "nitrogen burning." If any section of the windbreak
is likely to be saturated by barnyard seepage, plan to construct a ditch or use
drainage tile to carry the seepage away from trees.
5. Do not plant windbreaks where they could cause visibility hazards at intersections.
6. If it is necessary to cross fields, driveways or large ditches with a windbreak
planting, try to make the crossing at oblique angles. This will prevent direct
wind tunnels through the planting.
7. Windbreaks should contain several tree species. A mixture of species offers
protection against disease, insects and weather damage, and takes advantage of
differences in growth rates. Both deciduous and evergreen species should be included,
but all trees must have adequate space. Select low, dense growing shrubs for outside
rows. Plant medium sized trees next, and tall growing trees in center rows.
Your choice of species will depend on your needs, climate and type of soil. Contact
your county Extension agent for information about appropriate windbreak species for
your area.
8. Sod, loosely powdered soil or field soil is best for tree planting. In late summer or
early fall, plow heavy soil and soil covered with sod. If the soil has been
deeply plowed and is relatively loose, roll or cultipack it.
During winter months cover light or sandy soils with organic material such as
well-rotted manure. This will increase soil fertility and reduce the possibility of
erosion and moisture losses during winter and early spring. In dry regions summer
fallow the land during the year prior to planting. Cultivate frequently enough to
prevent any weed or plant growth and to keep the soil in suitable condition for
absorbing moisture. If the soil is sandy and subject to blowing, plant a cultivated
row crop such as corn instead of summer fallowing. Thoroughly disc and harrow the soil
just before planting.
9. Do not overcrowd trees. Trees must have adequate space, especially when deciduous
and evergreen species are mixed. Allow at least 20 feet between deciduous and
evergreen species. A five-row planting is recommended for the most efficient
windbreak but if space is limited use fewer rows rather than overcrowd trees.
Properly spaced trees will have increased growth and vigor. Stagger trees in adjacent
rows to offset wide spaces between young trees. Be sure to allow enough space for
operating any necessary maintenance equipment.
10. Plant trees as soon as possible after receiving them. If you must hold trees for a
few days before planting them, unpack them and heel them in until they are to be
planted. Keep roots moist at all times during planting. Plant in rows according to
predetermined plan. For specific planting instructions, contact a local nursery or your
county agricultural Extension agent.
11. Provide protection and care for young seedlings. Protect trees permanently from
poultry and livestock. Protect trees from rodents. Use screen wire, tree wrap
materials or commercial repellents. Inspect trees periodically for disease or
insect damage. To eliminate competition from grass or weeds, cultivate often
Cold weather causes additional stress on livestock, increasing their need for food,
water and shelter. To minimize livestock loss during winter storms, stockmen should:
1. Move stock, especially the young, into sheltered areas. Windbreaks, properly
oriented and laid out, or timber-covered lowlands are better protection for range
cattle than most shed-type shelters which may overcrowd and overheat cattle, causing
subsequent respiratory disorders. Never close indoor shelters tightly because stock can
suffocate from lack of oxygen. Extremities that become wet or are normally wet are
particularly subject to frostbite and freezing during sub-zero weather. The loss of
ears or tails may be of little economic significance, but damage to male reproductive
organs can impair the animals' fertility or ability to breed.
2. During severe or prolonged cold weather, animals need extra feed to provide body heat
and to maintain production weight gains. A grain ration that maintains an animal
during the summer may not carry it through the stress of prolonged or severe cold.
Haul extra grain to feeding areas before the storm arrives. If the storm lasts for
more than over 48 hours, emergency feeding methods may be required. Pelleted cake or
cake concentrates make good emergency feed. Mechanized feeders may be inoperable during
power failures unless you have a source of emergency power.
3. Use heaters in water tanks to provide livestock with enough water. Cattle cannot lick
enough snow to satisfy their water requirements.
Caring for Livestock After a Blizzard
1. Following a blizzard, water will be a crucial need for livestock. Cattle will not be
able to satisfy all of their water requirements by eating snow. In pastures with
severe drifting, water in shallow streams may be absorbed by snow in the stream
bed. Very little, if any, running water may be available for several days. You may
need to haul water to cattle. If water is limited, keep cattle off salt. Cattle
which have been away from feed and water for several days may overeat salt, causing
salt poisoning.
2.When stock cannot be reached by roads, use planes, helicopters or snowmobiles to
provide emergency rations. Feedlot cattle that have gone through a severe storm or
stress period should be put back on feed carefully. Change the ration gradually from a
low to a high proportion of concentrate. Watch your herd carefully for several weeks
following prolonged exposure. Isolate cattle showing signs of scouring or labored breathing. Keep
these animals in a dry, draft-free place and contact a veterinarian. Cattle which have not been fed
for several days or are unaccustomed to grain should be limited to Two to fourpounds per head of
whole grain in one feeding, or a total of five pounds per head the first day. Increase the amount of
feed by two lb/head/day for large cows. Make any additional increases slowly. Add hay, even
poor quality roughage, to the ration as soon as possible. Feeding three pounds per head of hay
daily will greatly reduce the possibility of founder (acute indigestion). Cattle can use hay to better
advantage than grains when they must be fed on the ground. Even moisture-saturated hay can be
used until suitable feed is available. Do not use mildewed hay. Depression, followed by colic and
diarrheacan occur. Animals may die in a few days. Some survivors may develop acute lameness.
Prompt treatment can reduce deaths, crippling and recurring digestive disturbances.
Feeding Sheep After a Blizzard
1. If sheep, especially pregnant ewes, are withheld from feed heavy losses may occur.
2. Ewes in good flesh late in pregnancy may incur pregnancy disease if they are without
feed for even a short time. Early symptoms of pregnancy disease include istlessness and
depression. As intoxication advances, ewes develop a wobbly gait, become uncoordinated and
die.
3. Sheep can eat 1 to 3 pounds of whole grain per day. A small amount of roughage will
prevent digestive trouble. Drying feed before giving it to sheep can reduce the
possibility of digestive problems.
Feeding Horses After a Blizzard
1. Horses fed a maintenance ration adequate for summer conditions may need additional energy in
their winter feed.
2. They can tolerate reduced rations for a few weeks unless they are mares nursing foals.
Feeding Swine After a Blizzard
1. Swine present few problems during periods of feed shortage. If you are substituting
other feed, such as dairy feed, for regular swine feed, be sure swine have adequate
fresh water available at all times. The salt content of cattle feed will produce salt
poisoning in swine unless they have constant access to water.
Protecting Poultry and Livestock During a Winter Storm Power Failure
1. Ventilate shelter. Do not close buildings tight to conserve heat because animals
could suffocate from lack of oxygen. Because oxygen eventually will be used up in
mechanically ventilated production facilities, clear ice and snow from all vents.
Then open vents to facilitate natural air flow.
2. Poultry facilities should be equipped with knock-out panels for emergency ventilation.
3. In dairy facilities, open door or turn cows outside.
4. Provide water. All animals, especially cattle, need plenty of water during cold
weather. It may be possible to drive your water pump with a small gasoline engine and a belt.
Otherwise, you will need to haul water. If you have an outside source of water, cattle can be
turned out to it. Be sure to place sand or other gritty material on icy feedlots to provide good
footing. Whatever the source of water, watch that it remains unfrozen so animals can drink it.
If no water is available, dairymen can feed cows their own milk as a last resort.
5. Provide heat. Use camp stoves and heaters as emergency heat sources for brooders. Plan
ahead
to have this equipment ready when needed.
6. Provide feed. Animals need extra energy for body heat during severe or prolonged cold
weather, especially if they are outside without shelter. Mechanical feeders will be inoperable
during a power failure. Provide for emergency feeding procedures. Pelleted cake or cake
concentrate may be used for emergency feed.
Protecting Equipment During A Winter Storm Power Failure
1. Unplug or turn off all electric equipment to prevent damage when power is restored.
2. If you use portable space heaters for supplemental heat, close off the fuel valve as
soon as possible after power is interrupted. On models not equipped with safety
shut-offs, and especially on some models with gravity feed fuel systems, fuel
continues to flow even when the burner is inoperative. An explosion or fire can
result when power is restored.
Storing Milk and Cream During A Winter Storm Power Failure
1. You can use the intake manifold on the tractor engine as a source of vacuum to operate
milkers that do not have a magnetic pulsator.
2. Ask the dairy to pick up milk as soon as possible.
3. Consider adding a standby power generator to handle vital electric equipment on the
dairy.
4. Even if you are short of extra milk storage facilities, do not store milk in stock
tanks or other containers such as bathtubs. Dairy plants may not accept milk
that has been stored in anything other than regular milk storage containers.
Check with your local dairy about policy regarding emergency storage of milk and
cream.
5. Check your tank for souring each time you add milk to it if you are unable to cool
your milk or have it picked up. This check could mean the difference between
losing all or only part of your milk supply.
Repairing Ice and Snow Damage to Shrubs and Trees
1. To prevent ice damage to trees or shrubs, try to remove ice before winds cause major
damage. Do not try to break ice off branches. Connect a garden hose to the hot
water faucet to melt the ice. If branches have been badly damaged, remove or repair
them as suggested below.
2. Heavy accumulations of wet snow can cause damage to trees and shrubs. Evergreens
and weak-wooded trees are more susceptible to snow damage than deciduous and
hard-wood trees. Snow damage is more common to shrubs than to trees because snow
depth often equals or exceeds shrub height. Evergreen shrubs are more easily
damaged ove heavy snow ccumulations:
Tap the branches lightly with a broom soon after the snow falls or as it
accumulates. If snow has melted and refrozen, do not use this procedure because you
could break the branches. To remove frozen snow, spray the shrubs with a hose
connected to the hot water faucet. Shrubs also may be damaged when snow from walks
or drives is piled onto them, or when salt is used for snow removal along drives,
walks and streets. With a hose, wash off shrubs that have been splashed with salt
from streets. Often snow damage to evergreens is not apparent until the following
spring as a broken branch will retain its green color until warm weather.
3. Determine whether the tree can be repaired, or if it should be removed completely.
If the main trunk is completely broken or if the tree is uprooted, it should
be removed. Most broken branches can be either repaired or pruned. Some branches
broken at a crotch can be lifted into place and then bolted and cabled. Remove
broken branch to the nearest branch or to the tree trunk. Never leave a ragged
stub. Remove large branches with three cuts. This will prevent splintering and
peeling. Make the first cut upward from the bottom of the branch about 12 inches
from the next branch. Cut about halfway through the branch, or until the saw begins
to pitch. Make the second cut 5 or 6 inches further out, and continue cutting until
the branch falls. With a third cut remove the stub cleanly without peeling.
Treat the wound.
United States
Department of
Agriculture
National
Agricultural
Statistics
Service
Pr 1-3 (99)
Agricultural Prices
1998 Summary
July 1999
Agricultural Prices
1998 Summary
The 39th Annual Summary of Agricultural Prices contains prices farmers
received for commodities sold as well as prices paid for production
input goods and services. Prices are weighted and aggregated into price
indexes. These indexes provide measures of relative price changes for
agricultural outputs and inputs.
The State, Regional, and U.S. average prices for agricultural
commodities and farm production inputs are based on voluntary reports
from agri-business firms, merchants, dealers, and farmers throughout the
Nation. These data are collected at regular intervals using mailed
inquiries, telephone, and personal enumeration. We greatly appreciate
the cooperation and support of all the individuals and firms that have
provided data.
Estimates of prices received by farmers are published by state for crops
(1997- 98), vegetables (1996-98), and livestock and poultry (1997-98).
Estimates for prices paid by farmers for feed, fuel, and fertilizer are
published by region for 1997. Prices paid for all other surveyed items
are published for 1997 at the U.S. level. U.S. price indexes for both
prices received and paid including any index revisions are published for
1991-98.
Preliminary crop prices for 1998 and fruit and vegetable prices for 1997
and 1998 are subject to revision. Prices received for livestock and
poultry are final estimates Prices received and prices paid revisions
are first published in the monthly issues of "Agricultural Prices" and
again in the Annual Summary.
* * * * * * *
July 1999
Table of Contents
Prices Received Page A-
Indexes: United States, 1991-98 (1910-14=100 and 1990-92=100)
Annual Averages (1990-92=100) ........................................... 3
Relative Importance of Commodities in Indexes of Prices Received ........ 4
All Farm Products, Subgroups .......................................... 5-12
Marketing Year Definitions and Commodity Marketing Percentages ....... 13-29
Crops Monthly MYA Crops Monthly MYA
Page A- Page A- Page A- Page A-
Almonds ................. 42 Potatoes ................ 114 34
Apples ................... 119 40 Prunes (Dried) .......... 42
Apricots ................. 44 Rapeseed ................ 33
Artichokes ............... 59 Raspberries
Asparagus ................ 138 53 Black ................. 44
Avocados ................. 41 Red ................... 44
Bananas .................. 42 Rice .................... 88 34
Barley Rye ..................... 34
All .................... 92 30 Safflower ............... 33
Feed ................... 94 30 Snap Beans .............. 57
Malting ................ 96 30 Sorghum ................. 72 34
Beans, Dry Edible ........ 86 30 Soybeans ................ 74 35
Bell Peppers ............. 58 Spearmint ............... 40
Blackberries ............. 44 Spinach ................. 59
Blueberries .............. 44 Strawberries ............ 150 56
Boysenberries ............ 44 Sugarbeets .............. 35
Broccoli ................. 138 53 Sugarcane ............... 35
Brussels Sprouts ......... 59 Sunflower
Cabbage .................. 57 All ................... 77 36
Canola ................... 33 Oil ................... 78 36
Cantaloups ............... 57 Non-Oil ............... 79 36
Carrots .................. 138 53 Sweetpotatoes ........... 36
Cauliflower .............. 140 53 Tangelos ................ 137 49
Celery ................... 140 53 Tangerines .............. 134 49
Cherries ................. 43 Taro .................... 42
Coffee ................... 42 Temples ................. 137 49
Corn, Field .............. 70 31 Tobacco ................. 109 37
Corn, Sweet .............. 142 54 Tomatoes ............... 152 56
Cranberries .............. 43 Walnuts ................. 42
Cucumbers ................ 58 Watermelons ............. 58
Cotton ................... 90 31 Wheat
Cottonseed ............... 89 31 All ................... 100 39
Dates .................... 42 Durum ................. 106 39
Eggplant ................. 59 Hard Red .............. 108 36
Escarole/Endive .......... 59 Other Spring ......... 104 39
Figs ..................... 42 Soft Red .............. 108 36
Flaxseed ................. 76 33 White ................. 108 36
Garlic ................... 59 Winter ................ 102 39
Grapefruit ............... 126 47
K-Early ................ 51
Grapes ................... 118 42
Hay Livestock and Products
All .................... 80 32
Alfalfa ................ 82 32 Cattle
All Other .............. 84 32 All Beef .............. 158 60
Hazelnuts ................ 41 Cows .................. 154 60
Honeydew Melons .......... 144 54 Steers and Heifers .... 156 60
Hops ..................... 33 Calves ................ 160 61
Kiwifruit ................ 42 Cows, Milk ............ 162 61
Lemons ................... 132 49 Chickens
Lettuce Broilers .............. 168 65
Head ................... 144 54 Excluding Broilers .... 65
Leaf ................... 59 Eggs
Romaine ................ 59 All ................... 171 66
Lima Beans ............... 59 Market ................ 170 66
Limes .................... 136 49 Hogs
Loganberries ............. 44 All ................... 163 62
Macadamia Nuts ........... 42 Barrows and Gilts ..... 164 62
Mustard Seed ............. 33 Sows .................. 165 62
Nectarines ............... 42 Honey ................... 69
Oats .................... 98 33 Lambs ................... 166 63
Olives ................... 42 Milk, Sold to Plants
Onions ................... 146 55 All - Price ........... 180 67
Oranges .................. 120 45 Test ............ 182 68
Papayas .................. 42 Fluid Market - Price .. 172 67
Peaches .................. 118 40 Test ... 174 68
Peanuts .................. 88 33 Manufacturing - Price . 176 67
Pecans .................. 41 Test .. 178 68
Pears .................... 118 41 Retailed by Farmers ... 67
Peppermint ............... 40 Mohair .................. 64
Pineapple ................ 42 Sheep ................... 167 63
Pistachio ................ 42 Turkeys ................. 169 65
Plums .................... 42 Wool .................... 64
Table of Contents - Prices Paid
General Page B -
Preface ............................................................... 1-2
Indexes ............................................................... 3-22
Feed Price Ratios ..................................................... 23-24
Prices Paid Regions and States Included - 1998 ........................ 53-54
Grazing Fees: Data for Computation of Public Land - Grazing Fee Rates. 55-56
Report Specialists ................................................... 57
State Average Prices, Feeder Pigs ..................................... 33
Indexes, United States
Annual Averages, 1991-98 (1990-92=100) ................................ A-3
By Months and Annual Average, 1990-97 (1910-14=100 and 1990-92=100)
Commodities, Services, Interest, Taxes, and Farm Wage Rates ......... B-3
By Crop and Livestock Sector ..................................... 13
Production Items, Interest, Taxes, and Wage Rates ................... 3
Items Used for Production ........................................ 4
Items Used for Production, by Groups .......................... 4-10
Farm Origin and Non-Farm Origin ............................... 12
Interest, Taxes, and Wage Rates and Family Living ................... 10-12
Parity Ratio and Adjusted Parity Ratio (1910-14=100) ................ 14
Ratio of Index of Prices Received to Index of Prices Paid (1990-92=100) 14
Commodities and Services, Interest, Taxes, and Wage Rates,
Adjusted for Productivity, (1910-14 = 100) ....................... 13
Index Sub-Components, Monthly and Annual Averages, (1990-92 = 100) .. 15-22
Average Prices, United States, 1995-98
Agricultural Chemicals Page B- Fertilizer * Page B-
Fungicides ............... 47 Limestone .................... 43
Herbicides ............... 47-48 Mixed Fertilizer Blends ...... 34-42
Insecticides ............. 48 Nitrogenous Materials ........ 42-45
Other .................... 48 Phosphate and Potash ......... 45&43
United States, April 1993-98 . 46
Farm Machinery (April 1993-98) Fuels and Energy *
Combines ................. 50 Diesel Fuel .................. 25
Disk Harrows ............. 50 Gasoline ..................... 25
Grain Drills ............. 51 L. P. Gas .................... 25
Tractors ................. 52
Other Farm Machinery ..... 50-52
Feed * Replacement Livestock, (1993-98)
Alfalfa, Meal and Pellets . 26 Chicks ....................... 32
Bran ...................... 26 Cattle ....................... 32
Beef Cattle Concentrate ... 26 Feeder Pigs .................. 33
Corn Meal ................. 27 Turkey Poults ................ 32
Cottonseed Meal ........... 27
Dairy Feed ................ 27-28
Hog Feed ................. 28-29 Seeds
Molasses .................. 29 Grasses ...................... 49
Poultry Feed .............. 29-30 Legumes ...................... 49
Soybean Meal .............. 30 Row Crops .................... 49
Stock Salt ................ 29 Small Grains ................. 49
Trace Mineral Blocks ...... 31
United States, April 1993-98 31
* Regional Average Prices Also
Annual Summary of Prices Received by Farmers
Agricultural Commodity Prices represent monthly and marketing year averages
received by farmers at the point of first sale for all grades and qualities of
the commodity sold. Points of first sale by farmers range from bulk sales at
the farm to packed and graded products delivered to a local market. For crops
the price refers to all sales, regardless of the year harvested. The average
price concept is that price which would result from dividing the total dollars
received by all farmers, before any marketing charges are deducted, by the total
quantity sold. Contract sales are reported in the month of settlement, not when
the contract is made. Prices are on an "as sold" basis, with the following
exceptions: milk is priced f.o.b. plant or receiving station; fruit and
vegetable pricing is covered in detail on page A-2.
Monthly Prices are based on all sales of the commodity during the entire month.
Exceptions are hay, eggs, and turkeys which are based on the 5-day period
centered on the 15th of the month. State commodity prices are estimated for
months when at least 0.5 percent of the annual sales occur. Weights for
computing monthly United States average prices are based on estimated marketings
during the month by State.
Marketing Year Average (MYA) Prices are weighted average prices for crops,
livestock, and poultry items sold during the marketing year. Commodity
marketing years are defined on pages A-13 and A-14. State marketing year
average prices are computed by weighting monthly prices by the estimated
percentage of monthly sales during the marketing year. State and U.S. monthly
and marketing year average prices for crops are open-market prices excluding
Government program payments or allowances for unredeemed loans and purchases by
the Government. Government payments to farmers are included in farm income
accounts as a separate cash receipt item. U.S. marketing year average prices
for corn, sorghum, oats, barley, wheat, rice, soybeans, flaxseed, sunflower, and
upland cotton are computed by weighting U.S. monthly prices by monthly
marketings for the U.S. marketing year. Other crops, livestock, and poultry
U.S. marketing year average prices are computed by weighting State marketing
year average prices by the estimated quantity sold in each State.
Preliminary Marketing Year Average Price estimates for 1998 are based on price
data through December 1998 for all field crops except tobacco which is based on
data through April 1999. Marketing years for fruit, vegetables, and nuts vary
by State and commodity. Allowances are made for the portion of the crop
expected to be marketed during the remainder of the marketing year for all
commodities except cotton.
Monthly and Marketing Year Average Crop Prices for 1997 are final except
for fruit. Crop prices for 1998 are subject to revision. These revisions
will be published first in the monthly issues of Agricultural Prices and
then in the "Annual Summary". Livestock, livestock products and poultry
prices are final estimates for 1997 and 1998. Prices for agricultural
commodities may be revised during the Agency's five-year review of
production estimates. Price revisions resulting from this review are
usually small and generally are the result of reweighting State prices
to the U.S. level. State monthly and MYA prices for noncitrus fruit sold
for fresh market are the weighted average of prices received by
producers at the points of first sale. Points of first sale include
f.o.b. shipping point, farm, roadside, U-pick, farmer's market, grower
auctions, and bulk sales to a packer. The exceptions to this are
California, Washington, New York (apples only), and Oregon (excluding
peaches), which use equivalent returns at the packinghouse-door. This is
a f.o.b. packed shipping point price adjusted back to the
packinghouse-door by subtracting all costs that accumulate between the
packinghouse and the f.o.b. shipping point. Costs include cleaning,
grading, packing, inspecting, and marketing. U.S. monthly prices are the
weighted averages of the state prices. U.S. MYA prices are derived by
dividing the sum of the states' values of production by their sum of
production. Monthly prices include all fruit sold in a month regardless
of the crop year in which it was harvested.
State MYA prices for noncitrus fruit sold for processing are the
equivalent returns producers receive for fruit delivered to the
processing plant door. The exceptions are California olives and
clingstone peaches, which are prices at the first delivery point, and
cranberries, which is a weighted average of adjusted co-op pool proceeds
and independent sales at the first delivery point. U.S. MYA prices for
noncitrus processing fruits are derived by dividing the sum of states'
values by their sum of production. There are no monthly price series of
noncitrus processing fruits.
State and U.S. MYA prices for noncitrus crops at the "all sales" level
(fresh and processing) are derived by dividing total value by total
production.
State monthly citrus prices are based on weighted average f.o.b. packed
prices received for fresh fruit, and weighted average prices received at
the processing plant door for processing fruit. Equivalent returns for
fresh and processed fruit are calculated at the packinghouse-door and
on-tree levels by deducting picking, hauling, sorting, grading, packing,
cooling, marketing, and other costs from the two base prices.
State MYA prices and equivalent returns for citrus are calculated from
the weighted average fresh and processed prices received each month in
the crop's marketing season. The crop year 1997-98 as shown on all
citrus tables in this publication refers to the crop which bloomed in
1997 and was marketed during the 1997-98 season. (See page A-18 for a
description of the citrus marketing seasons.)
Monthly and MYA citrus prices at the U.S. level are the average of the
states' prices weighted by their box movement and approximate net weight
per box. The box weights used are as follows: Grapefruit: Arizona and
California Desert Valleys - 64 lbs., other California areas - 67 lbs.,
Florida - 85 lbs. and Texas - 80 lbs.; Lemons - 76 lbs; Limes - 88 lbs.;
Oranges: Arizona and California - 75 lbs., Florida - 90 lbs., and Texas
- 85 lbs.; Tangelos - 90 lbs.; Tangerines: Arizona and California - 75
lbs., and Florida - 95 lbs.; Temples - 90 lbs.
State monthly fresh market vegetable prices are f.o.b. shipping point,
f.o.b. equivalents, or point of first sale prices. The state MYA prices
for fresh market vegetables are the weighted average of the monthly
prices using estimated monthly movements. U.S. monthly prices are the
weighted average of state prices. U.S. MYA prices are derived by
dividing the sum of states' values of production by their sum of
production. (Prices for broccoli, carrots, cauli flower, celery, and
onions may include some processing.)
Indexes of Prices Received and Paid, United States, 1991-98
-------------------------------------------------------------------------------
: : : : : : : :
Index :1991 :1992 :1993 :1994 :1995 :1996 :1997 :1998
: : : : : : : :
-------------------------------------------------------------------------------
:
: Prices Received (1990-92=100)
:
All Farm Products : 100 98 101 100 102 112 107 101
:
All Crops : 101 101 102 105 112 127 116 106
Food Grains : 94 113 105 119 134 157 128 103
Feed Grains & Hay : 101 98 99 106 112 146 117 100
Cotton : 108 88 89 109 127 122 112 107
Tobacco : 102 101 101 101 103 105 104 104
Oil-Bearing Crops : 99 100 108 110 104 128 131 107
Fruit & Nuts : 112 99 93 90 97 118 108 110
Commercial Vegetables : 100 111 117 109 121 111 122 119
Potatoes & Dry Beans : 99 88 107 110 107 114 90 99
All Other Crops : 97 102 103 105 106 108 108 108
:
Livestock & Products : 99 97 100 95 92 99 98 97
Meat Animals : 101 96 100 90 85 87 92 79
Dairy Products : 94 100 98 99 98 114 102 119
Poultry & Eggs : 99 97 105 106 107 120 113 117
:
Food Commodities : 99 99 102 98 99 108 105 100
:
:
: Prices Paid (1990-92=100)
Prices Paid by Farmers for :
Commodities & Services, :
Interest, Taxes, & Wage Rates: 100 101 104 106 109 115 118 117
:
Production Items : 100 101 104 106 108 115 119 115
Feed : 98 99 102 106 103 129 125 110
Livestock & Poultry : 102 96 104 94 82 75 94 88
Seed : 99 99 101 108 110 115 119 122
Fertilizer : 103 100 96 105 121 125 121 112
Agricultural Chemicals : 101 103 109 112 116 119 121 122
Fuels : 104 96 93 89 89 102 106 88
Farm Supplies & Repairs : 100 104 107 109 112 115 118 119
Autos & Trucks : 100 102 107 111 115 118 119 119
Farm Machinery : 100 104 107 113 120 125 128 133
Building Materials : 100 101 106 109 114 115 118 118
Farm Services : 98 103 110 110 115 116 116 117
Rent : 100 104 100 108 117 128 136 134
:
Interest : 100 93 87 94 102 106 106 109
:
Taxes : 101 104 108 106 109 112 115 119
:
Wage Rates : 100 105 108 111 114 117 123 129
:
Production Items, Interest, :
Taxes & Wage Rates : 100 101 103 106 108 115 118 116
:
Ratio 1/ : 99 97 97 94 93 98 90 87
-------------------------------------------------------------------------------
1/ Ratio of Index of Prices Received by Farmers (All Farm Products) to Index
of Prices Paid by Farmers for Commodities & Services, Interest, Taxes,
and Wage Rates. May not compute directly due to rounding.
Relative Weights of Commodities in the Index
of Prices Received, Base Weight Period 1990-92
------------------------------------------------------------------------------
: : :
Commodity and Group : Relative : Commodity and Group : Relative
: Weight : : Weight
------------------------------------------------------------------------------
: Percent : : Percent
: : :
Wheat : 4.0 : Onions : .5
Rice : .7 : Sweet Corn : .4
Food Grains : 4.7 : Tomatoes : 1.6
: : Broccoli : .2
Corn : 8.3 : Cantaloupes : .2
Oats : .1 : Cauliflower : .2
Barley : .5 : Cucumbers : .3
Grain Sorghum : .7 : Snap Beans : .3
All Hay : 1.8 : Commercial :
Feed Grains and Hay : 11.4 : Vegetables : 5.1
: : :
American Upland : 2.8 : Dry Edible Beans : .3
Cotton : 2.8 : Potatoes : 1.3
: : Potatoes and Dry :
Tobacco : 1.7 : Beans : 1.6
: : :
Cottonseed : .3 : Other Crops : 7.5
Peanuts : .8 : :
Soybeans : 6.5 : All Crops : 48.4
Sunflower : .2 : :
Oil-Bearing Crops : 7.8 : Beef Cattle : 22.0
: : Calves : 1.9
Apples : 1.2 : Hogs : 6.7
Grapefruit : .3 : Meat Animals : 30.6
Lemons : .2 : :
Oranges : 1.2 : Milk, Wholesale : 11.7
Peaches : .3 : Dairy Products : 11.7
Pears : .2 : :
Strawberries : .5 : Eggs : 2.4
Grapes : 1.4 : Broilers : 5.4
Almonds : .5 : Turkeys : 1.5
Fruit and Nuts : 5.8 : Poultry and Eggs : 9.3
: : :
Asparagus : .1 : Livestock and :
Carrots : .3 : Products : 51.6
Celery : .2 : :
Lettuce : .8 : All Farm Products : 100.0
-----------------------------------------------------------------------------
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: All Farm Products
:
: 1910-14=100
:
1991 : 632 633 650 648 659 639 622 621 625 621 620 616 632
1992 : 617 630 638 627 629 635 630 634 629 617 611 613 626
1993 : 618 623 632 662 657 641 640 648 650 642 650 656 643
1994 : 665 663 664 650 643 636 617 618 617 604 608 627 634
1995 : 623 620 628 630 637 637 646 653 662 661 670 685 646
1996 : 686 676 695 686 709 750 754 746 738 714 699 688 712
1997 : 683 666 685 676 686 683 678 684 680 682 681 667 679
1998 : 652 640 649 658 657 649 645 640 629 629 631 624 642
:
: 1990-92=100
:
1991 : 100 100 102 102 104 101 98 98 98 98 98 97 100
1992 : 97 99 100 99 99 100 99 100 99 97 96 96 98
1993 : 97 98 99 104 103 101 101 102 102 101 102 103 101
1994 : 105 104 105 102 101 100 97 97 97 95 96 99 100
1995 : 98 98 99 99 100 100 102 103 104 104 106 108 102
1996 : 108 106 109 108 112 118 119 117 116 112 110 108 112
1997 : 107 105 108 106 108 107 107 108 107 107 107 105 107
1998 : 103 101 102 104 103 102 102 101 99 99 99 98 101
:
: All Crops
:
: 1910-14=100
:
1991 : 484 482 509 515 541 508 475 482 492 483 494 485 496
1992 : 497 512 534 510 498 509 495 497 494 477 471 476 498
1993 : 474 478 478 528 512 490 503 515 517 508 524 537 505
1994 : 545 545 540 520 528 534 506 499 507 490 498 525 520
1995 : 508 504 528 556 574 559 565 567 564 559 571 584 553
1996 : 597 606 638 634 646 691 674 656 621 589 575 558 624
1997 : 569 558 584 572 581 587 565 575 564 566 567 548 570
1998 : 539 536 546 562 554 525 526 508 494 491 500 491 523
:
: 1990-92=100
:
1991 : 98 98 103 104 110 103 96 98 100 98 100 98 101
1992 : 101 104 108 103 101 103 100 101 100 97 95 97 101
1993 : 96 97 97 107 104 99 102 104 105 103 106 109 102
1994 : 111 110 109 106 107 108 103 101 103 99 101 106 105
1995 : 103 102 107 113 116 113 114 115 114 113 116 118 112
1996 : 121 123 129 129 131 140 137 133 126 119 117 113 127
1997 : 115 113 118 116 118 119 115 117 114 115 115 111 116
1998 : 109 109 111 114 112 107 107 103 100 100 101 100 106
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Food Grains
:
: 1910-14=100
:
1991 : 264 269 282 291 293 277 271 286 306 332 349 368 299
1992 : 375 395 388 379 379 365 337 321 337 336 341 346 358
1993 : 349 337 330 325 316 300 301 310 320 336 369 390 332
1994 : 387 402 411 396 382 348 327 345 374 385 382 387 377
1995 : 382 368 360 358 379 407 434 448 472 489 498 511 426
1996 : 501 505 512 534 584 555 504 487 467 445 437 437 497
1997 : 434 426 431 446 442 382 352 388 399 395 392 379 406
1998 : 369 372 376 361 345 306 283 270 279 319 335 322 328
:
: 1990-92=100
:
1991 : 83 85 89 92 92 87 85 90 96 104 110 116 94
1992 : 118 124 122 119 119 115 106 101 106 106 107 109 113
1993 : 110 106 104 102 99 94 95 98 101 106 116 123 105
1994 : 122 126 129 125 120 109 103 109 118 121 120 122 119
1995 : 120 116 113 113 119 128 137 141 148 154 157 161 134
1996 : 158 159 161 168 184 175 159 153 147 140 137 137 157
1997 : 137 134 136 140 139 120 111 122 126 124 123 119 128
1998 : 116 117 118 114 109 96 89 85 88 100 105 101 103
:
: Feed Grains and Hay
:
: 1910-14=100
:
1991 : 355 361 372 379 371 355 346 353 356 357 355 359 360
1992 : 368 373 376 375 385 375 354 341 334 319 313 315 352
1993 : 323 324 337 348 354 345 354 358 351 359 382 410 354
1994 : 417 427 421 416 413 406 368 354 352 331 322 344 381
1995 : 347 355 364 373 387 393 408 410 414 435 446 468 400
1996 : 474 502 520 568 605 593 607 593 525 444 415 411 521
1997 : 421 423 440 452 442 422 401 407 405 402 399 399 418
1998 : 402 405 405 388 385 374 361 326 307 306 308 319 357
:
: 1990-92=100
:
1991 : 99 101 104 106 104 99 97 99 99 100 99 100 101
1992 : 103 104 105 105 108 105 99 95 93 89 87 88 98
1993 : 90 91 94 97 99 97 99 100 98 100 107 115 99
1994 : 117 119 118 116 115 113 103 99 98 92 90 96 106
1995 : 97 99 102 104 108 110 114 115 116 122 125 131 112
1996 : 133 140 146 159 169 166 170 166 147 124 116 115 146
1997 : 118 118 123 127 124 118 112 114 113 112 112 112 117
1998 : 113 113 113 109 108 105 101 91 86 85 86 89 100
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Cotton
:
: 1910-14=100
:
1991 : 549 574 582 587 593 571 560 560 549 532 517 471 554
1992 : 437 421 425 449 450 490 476 445 446 456 445 459 450
1993 : 448 455 476 466 460 453 454 443 434 443 451 478 455
1994 : 530 555 563 571 583 535 496 565 551 560 579 620 559
1995 : 665 678 698 656 644 670 677 610 632 627 634 640 653
1996 : 646 640 649 667 648 650 622 608 605 604 589 586 626
1997 : 574 576 586 571 577 567 571 566 588 587 574 539 573
1998 : 516 528 540 538 537 589 575 560 567 561 550 513 548
:
: 1990-92=100
:
1991 : 107 112 114 115 116 111 109 109 107 104 101 92 108
1992 : 85 82 83 88 88 96 93 87 87 89 87 90 88
1993 : 87 89 93 91 90 88 89 86 85 86 88 93 89
1994 : 103 108 110 111 114 104 97 110 108 109 113 121 109
1995 : 130 132 136 128 126 131 132 119 123 122 124 125 127
1996 : 126 125 127 130 127 127 121 119 118 118 115 114 122
1997 : 112 112 114 112 113 111 111 111 115 115 112 105 112
1998 : 101 103 105 105 105 115 112 109 111 110 107 100 107
:
: Tobacco 2/
:
: 1910-14=100
:
1991 : 1557 1643 1526 1617 1422 1448 1552 1548 1583 1570 1547
1992 : 1552 1670 1517 1374 1361 1439 1587 1583 1591 1587 1526
1993 : 1574 1739 1604 1370 1370 1383 1496 1517 1574 1578 1521
1994 : 1596 1752 1478 1478 1309 1391 1539 1570 1609 1596 1532
1995 : 1630 1709 1491 1326 1526 1535 1591 1574 1600 1604 1559
1996 : 1652 1791 1517 1396 1391 1517 1643 1661 1674 1674 1592
1997 : 1678 1661 1678 1374 1387 1526 1552 1604 1670 1570
1998 : 1670 1665 1574 1474 1417 1413 1561 1622 1657 1665 1572
:
: 1990-92=100
:
1991 : 103 109 101 107 94 96 103 102 105 104 102
1992 : 103 110 100 91 90 95 105 105 105 105 101
1993 : 104 115 106 91 91 91 99 100 104 104 101
1994 : 105 116 98 98 86 92 102 104 106 105 101
1995 : 108 113 99 88 101 101 105 104 106 106 103
1996 : 109 118 100 92 92 100 109 110 111 111 105
1997 : 111 110 111 91 92 101 103 106 110 104
1998 : 110 110 104 97 94 93 103 107 109 110 104
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
2/ Missing data indicates insufficient sales volume to establish a price.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Oil-Bearing Crops
:
: 1910-14=100
:
1991 : 561 556 564 564 554 544 524 551 539 524 511 517 542
1992 : 537 543 552 552 572 578 545 527 534 518 530 539 544
1993 : 546 545 553 560 568 577 641 639 598 582 620 652 590
1994 : 658 658 661 645 663 660 580 547 541 519 531 534 600
1995 : 534 527 539 543 543 556 577 569 568 586 619 653 568
1996 : 659 682 683 725 750 726 744 755 686 649 656 680 700
1997 : 695 719 775 801 817 792 731 700 620 615 655 656 715
1998 : 652 642 626 613 614 609 606 538 510 511 551 556 586
:
: 1990-92=100
:
1991 : 103 102 103 103 101 100 96 101 99 96 93 95 99
1992 : 98 99 101 101 105 106 100 96 98 95 97 98 100
1993 : 100 100 101 102 104 105 117 117 109 106 113 119 108
1994 : 120 120 121 118 121 121 106 100 99 95 97 98 110
1995 : 98 96 98 99 99 102 105 104 104 107 113 119 104
1996 : 120 125 125 132 137 133 136 138 125 119 120 124 128
1997 : 127 131 142 146 149 145 134 128 113 112 120 120 131
1998 : 119 117 114 112 112 111 111 98 93 93 101 102 107
:
: Fruit and Nuts
:
: 1910-14=100
:
1991 : 678 706 749 774 810 933 784 780 862 807 775 725 782
1992 : 734 743 759 723 686 700 645 711 705 667 640 558 689
1993 : 500 501 481 511 564 677 706 786 845 833 741 602 646
1994 : 550 551 583 603 641 678 698 715 733 678 616 534 632
1995 : 515 514 533 569 708 730 773 885 822 790 692 629 680
1996 : 660 666 729 700 798 933 910 912 1006 979 872 717 824
1997 : 647 627 674 617 740 886 886 879 913 838 743 624 756
1998 : 558 602 653 709 773 842 902 931 891 860 800 649 764
:
: 1990-92=100
:
1991 : 97 101 107 111 116 134 112 112 123 116 111 104 112
1992 : 105 106 109 104 98 100 92 102 101 96 92 80 99
1993 : 72 72 69 73 81 97 101 113 121 119 106 86 93
1994 : 79 79 84 86 92 97 100 102 105 97 88 76 90
1995 : 74 74 76 81 101 105 111 127 118 113 99 90 97
1996 : 95 95 104 100 114 134 130 131 144 140 125 103 118
1997 : 93 90 97 88 106 127 127 126 131 120 106 89 108
1998 : 80 86 93 102 111 121 129 133 128 123 115 93 110
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Commercial Vegetables
:
: 1910-14=100
:
1991 : 633 559 762 715 877 732 611 588 599 587 727 588 665
1992 : 648 789 961 706 623 631 679 757 771 836 731 812 745
1993 : 807 841 731 1112 856 677 710 741 757 642 696 851 785
1994 : 775 755 623 586 649 694 654 631 699 784 828 1094 731
1995 : 803 772 989 1161 1037 808 653 680 781 651 658 678 806
1996 : 631 742 986 818 691 774 661 775 679 727 747 643 740
1997 : 753 717 813 767 743 785 761 836 796 985 951 907 818
1998 : 801 749 804 981 841 704 792 744 743 883 752 746 795
:
: 1990-92=100
:
1991 : 95 84 114 107 131 109 91 88 90 88 109 88 100
1992 : 97 118 144 106 93 94 102 113 115 125 109 121 111
1993 : 121 126 109 166 128 101 106 111 113 96 104 127 117
1994 : 116 113 93 88 97 104 98 94 105 117 124 164 109
1995 : 120 116 148 174 155 121 98 102 117 97 98 101 121
1996 : 94 111 147 122 103 116 99 116 102 109 112 96 111
1997 : 113 107 122 115 111 118 114 125 119 147 142 136 122
1998 : 120 112 120 147 126 105 119 111 111 132 113 112 119
:
: Potatoes and Dry Beans
:
: 1910-14=100
:
1991 : 483 481 529 595 665 619 664 460 394 368 367 381 501
1992 : 363 364 404 443 393 408 573 561 454 428 465 472 444
1993 : 477 477 528 601 599 540 621 532 474 469 593 562 539
1994 : 565 580 670 599 591 595 661 567 469 448 460 462 556
1995 : 466 450 484 505 529 612 729 586 497 539 548 547 541
1996 : 564 589 633 668 696 707 700 521 482 461 452 434 576
1997 : 426 431 433 433 477 431 499 544 440 433 457 477 457
1998 : 491 524 554 546 555 537 532 488 447 413 450 461 500
:
: 1990-92=100
:
1991 : 95 95 105 118 131 122 131 91 78 73 73 75 99
1992 : 72 72 80 88 78 81 113 111 90 85 92 93 88
1993 : 94 94 104 119 118 107 123 105 94 93 117 111 107
1994 : 112 115 132 118 117 118 131 112 93 89 91 91 110
1995 : 92 89 96 100 105 121 144 116 98 106 108 108 107
1996 : 111 116 125 132 138 140 138 103 95 91 89 86 114
1997 : 84 85 86 85 94 85 99 107 87 85 90 94 90
1998 : 97 104 109 108 110 106 105 96 88 82 89 91 99
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Other Crops
:
: 1910-14=100
:
1991 : 478 478 478 478 478 478 478 478 478 478 478 478 478
1992 : 502 502 502 502 502 502 502 502 502 502 502 502 502
1993 : 510 510 510 510 510 510 510 510 510 510 510 510 510
1994 : 517 517 517 517 517 517 517 517 517 517 517 517 517
1995 : 525 525 525 525 525 525 525 525 525 525 525 525 525
1996 : 532 532 532 532 532 532 532 532 532 532 532 532 532
1997 : 532 532 532 532 532 532 532 532 532 532 532 532 532
1998 : 532 532 532 532 532 532 532 532 532 532 532 532 532
:
: 1990-92=100
:
1991 : 97 97 97 97 97 97 97 97 97 97 97 97 97
1992 : 102 102 102 102 102 102 102 102 102 102 102 102 102
1993 : 103 103 103 103 103 103 103 103 103 103 103 103 103
1994 : 105 105 105 105 105 105 105 105 105 105 105 105 105
1995 : 106 106 106 106 106 106 106 106 106 106 106 106 106
1996 : 108 108 108 108 108 108 108 108 108 108 108 108 108
1997 : 108 108 108 108 108 108 108 108 108 108 108 108 108
1998 : 108 108 108 108 108 108 108 108 108 108 108 108 108
:
: Food Commodities
:
: 1990-92=100
:
1991 : 99 99 102 102 104 101 98 98 98 97 97 97 99
1992 : 96 99 100 98 98 99 99 101 100 98 98 97 99
1993 : 98 99 100 105 104 101 101 103 103 102 103 102 102
1994 : 102 102 103 100 99 98 96 97 96 94 94 96 98
1995 : 95 95 97 97 99 98 100 101 102 100 100 103 99
1996 : 102 101 105 102 106 113 113 113 113 111 109 106 108
1997 : 105 102 106 104 106 106 106 108 106 106 106 103 105
1998 : 100 98 100 103 102 101 101 102 100 100 100 98 100
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Livestock and Products
:
: 1910-14=100
:
1991 : 775 774 781 770 764 758 761 750 744 749 729 732 757
1992 : 719 737 729 734 748 749 754 760 751 750 744 740 743
1993 : 755 760 778 784 791 785 766 769 766 756 755 746 768
1994 : 754 765 775 768 742 718 709 721 700 687 690 692 727
1995 : 711 721 711 687 675 689 694 708 717 706 722 737 707
1996 : 718 717 719 713 741 765 786 794 809 790 786 789 761
1997 : 753 751 761 761 766 747 763 761 756 741 753 748 755
1998 : 726 720 728 731 734 754 740 756 751 753 743 741 740
:
: 1990-92=100
:
1991 : 101 101 102 100 100 99 99 98 97 98 95 95 99
1992 : 94 96 95 96 97 98 98 99 98 98 97 96 97
1993 : 98 99 101 102 103 102 100 100 100 99 98 97 100
1994 : 98 100 101 100 97 94 92 94 91 89 90 90 95
1995 : 93 94 93 89 88 90 90 92 93 92 94 96 92
1996 : 94 93 94 93 97 100 102 104 105 103 102 103 99
1997 : 98 98 99 99 100 97 99 99 99 97 98 98 98
1998 : 95 94 95 95 96 98 96 99 98 98 97 97 97
:
: Meat Animals
:
: 1910-14=100
:
1991 : 1067 1085 1098 1092 1085 1064 1039 993 971 974 922 911 1025
1992 : 921 976 971 980 992 982 976 987 972 974 955 960 971
1993 : 1009 1030 1056 1054 1058 1037 1005 1014 1002 975 957 936 1011
1994 : 967 990 997 986 933 884 883 913 854 836 839 841 910
1995 : 907 931 902 856 835 859 861 865 866 840 834 854 868
1996 : 832 839 841 820 853 869 907 923 936 920 918 920 882
1997 : 913 918 937 956 982 952 963 952 935 910 899 881 933
1998 : 851 831 834 856 888 873 808 792 745 765 728 674 804
:
: 1990-92=100
:
1991 : 105 107 108 107 107 105 102 98 96 96 91 90 101
1992 : 91 96 96 96 98 97 96 97 96 96 94 94 96
1993 : 99 101 104 104 104 102 99 100 99 96 94 92 100
1994 : 95 97 98 97 92 87 87 90 84 82 83 83 90
1995 : 89 92 89 84 82 85 85 85 85 83 82 84 85
1996 : 82 82 83 81 84 85 89 91 92 91 90 90 87
1997 : 90 90 92 94 97 94 95 94 92 89 88 87 92
1998 : 84 82 82 84 87 86 80 78 73 75 72 66 79
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Indexes of Prices Received by Months and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------
: : : : : : : : : : : : :
Year : Jan: Feb: Mar: Apr: May: Jun: Jul: Aug: Sep: Oct: Nov: Dec: Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------
:
: Dairy Products
:
: 1910-14=100
:
1991 : 719 713 701 694 694 701 725 762 787 830 854 848 752
1992 : 823 793 768 774 787 811 823 830 830 823 805 787 805
1993 : 768 750 750 774 793 799 787 762 787 805 836 830 787
1994 : 836 823 830 823 787 774 750 762 787 799 805 787 797
1995 : 774 768 774 756 756 744 737 762 787 823 860 854 783
1996 : 866 854 848 854 879 910 946 977 1014 1008 934 879 914
1997 : 830 823 836 811 780 750 744 780 805 866 903 910 820
1998 : 903 910 891 860 817 866 873 953 1032 1094 1094 1112 950
:
: 1990-92=100
:
1991 : 90 89 87 87 87 87 90 95 98 103 106 106 94
1992 : 103 99 96 96 98 101 103 103 103 103 100 98 100
1993 : 96 93 93 96 99 100 98 95 98 100 104 103 98
1994 : 104 103 103 103 98 96 93 95 98 100 100 98 99
1995 : 96 96 96 94 94 93 92 95 98 103 107 106 98
1996 : 108 106 106 106 109 113 118 122 126 126 116 109 114
1997 : 103 103 104 101 97 93 93 97 100 108 113 113 102
1998 : 113 113 111 107 102 108 109 119 129 136 136 139 119
:
: Poultry and Eggs
:
: 1910-14=100
:
1991 : 287 277 290 279 273 275 286 286 283 274 268 277 280
1992 : 262 258 258 258 271 270 280 283 277 280 291 281 272
1993 : 278 278 294 298 299 300 295 305 299 299 301 294 295
1994 : 289 294 302 300 310 308 304 300 301 294 290 287 298
1995 : 283 280 282 281 274 284 296 315 324 319 336 328 300
1996 : 329 318 315 315 326 344 343 345 346 341 355 361 337
1997 : 335 325 318 313 314 313 333 330 325 303 314 301 319
1998 : 299 292 305 305 304 326 346 369 361 353 348 336 329
:
: 1990-92=100
:
1991 : 102 98 103 99 97 98 102 102 100 97 95 99 99
1992 : 93 92 92 92 96 96 100 101 98 100 103 100 97
1993 : 99 99 105 106 106 107 105 108 106 106 107 105 105
1994 : 103 104 107 107 110 110 108 107 107 104 103 102 106
1995 : 101 100 100 100 97 101 105 112 115 113 119 117 107
1996 : 117 113 112 112 116 122 122 123 123 121 126 128 120
1997 : 119 116 113 111 112 111 118 117 116 108 112 107 113
1998 : 106 104 108 109 108 116 123 131 128 126 124 119 117
--------------------------------------------------------------------------
1/ Simple average required for parity regulations. Weighted 1990-92
average equals 100.
Marketing Years
Field Crops
Barley: June-May for CA; July-June for all other estimated States.
Canola: June-May, U. S. only.
Dry Edible Beans: September-August for all estimated States.
Corn for Grain: August-July for GA, LA, MS, and TX; September-August for IL,
IN, IA, KS, KY, MO, NC, and OH; October-September for all
other estimated States.
Cotton: August-July for all States.
Cottonseed: August-February for all States.
Flaxseed: July-June for all estimated States.
Hay: April-March for AZ; May-April for AR, CA, GA, KS, KY, MO, NV, NM, OK,
TX, and UT; June-May for all other estimated States.
Mustard Seed: September-August, U. S. only.
Oats: May-April for TX; June-May for CA, July-June for all other estimated
States.
Peanuts: August-February for all States.
Potatoes: The marketing year extends over a 21 month period beginning in
November preceding the specified crop year and extending into July
the following year. November (previous year)-May for winter crop potatoes;
April-August for spring crop potatoes; June-December for summer crop potatoes;
July-July (following year) for fall potatoes.
Rapeseed: June-May, U. S. only.
Rice: July-June for LA and TX; August-July for AR and MS; October-September
for CA.
Safflower: September-August, U. S. only.
Sorghum for Grain: June-May for TX; August-July for AR and OK; September-
August for IL, KS, MO, and SD; October-September for NE.
Soybeans: September-August for all estimated States.
Sunflower: September-August for all estimated States.
Tobacco: July-November for flue-cured, types 11-14; November-April for
fire-cured, types 21-23; November-February for Burley, type 31, and
dark air-cured, types 35-37; March-May following the year of production for
Southern MD, type 32.
Wheat: May-April for AZ, CA, GA, OK, and TX; June-May for AR, IL, IN, KS, and
MO; July-June for all other estimated States.
Fruit
Apples (Fresh): June-May for most South Atlantic, Southeastern, and Central
States, plus CA; July-June for all other States except OR and
WA where most of the crop is marketed August-July.
Marketing Years (Con't)
Oranges: October-March for AZ Navel; January-July for AZ Valencias; October-
June for CA Navel; March-December for CA Valencias; November-March
for FL early and mid-season; March-June for FL Valencias; October-February for
TX early and mid-season; January-April for TX Valencias.
Grapefruit: October-July for AZ; November-July for CA Desert; March-September
for CA Other Areas; October-June for FL; October-May for TX.
Lemons: September-May for AZ; August-July for CA.
Limes: April-March for FL.
Tangelos: November-February for FL.
Tangerines: October-May for AZ; November-June for CA; October-April for FL.
Temples: January-April for FL.
Vegetables
Asparagus: January-October for CA; May-July for MI; April-July for WA.
Carrots: January-December for CA; July-December for MI and WA; December-May
for TX.
Celery: January-June and November-December for CA Southern-Coast and FL;
May-December for CA Central-Coast; July-October for MI and NY.
Onions: April-July for spring; May-September for summer (non-storage); July-
April for summer (storage).
Sweet Corn: April-October for CA; January-July and October-December for FL;
June-October for all other monthly states.
Tomatoes: May-November for CA; January-June and October-December for FL;
April-July and November-January for TX; June-October for all other
monthly states.
Livestock, Livestock Products and Poultry
Cattle: January-December.
Hogs: December-November.
Sheep: January-December.
Broilers: December-November.
Eggs: December-November.
Turkeys: January-December.
Honey: April-March.
Mohair: January-December.
Wool: January-December.
Field Crops: Farm Marketings, Percent of Sales by Crop
and Month, United States, 1996-97 and 1997-98
-------------------------------------------------------------------------------
: Crop Marketing Year
Month :----------------------------------------------------------------------
: 1996-97 : 1997-98 : 1996-97 : 1997-98 : 1996-97 : 1997-98
-------------------------------------------------------------------------------
: Percent
:
: Corn Sorghum Soybeans
:
Sep : 4.0 6.2 3.3 10.1 3.9 6.3
Oct : 11.4 14.1 12.5 15.9 21.0 22.8
Nov : 13.2 11.3 14.5 15.7 10.4 8.9
Dec : 8.0 8.1 12.3 12.1 7.2 8.8
Jan : 15.1 14.8 12.2 14.7 17.8 12.3
Feb : 9.8 6.7 7.9 4.8 8.3 7.2
Mar : 8.0 7.4 5.9 4.9 7.9 6.0
Apr : 6.1 5.2 4.0 2.8 6.1 6.1
May : 4.8 5.3 3.6 3.3 4.4 5.2
Jun : 5.6 7.4 3.9 5.3 3.9 6.3
Jul : 6.7 6.2 7.8 5.6 4.3 5.6
Aug : 7.3 7.3 12.1 4.8 4.8 4.5
:
Year : 100.0 100.0 100.0 100.0 100.0 100.0
:
: Flaxseed Cotton Peanuts
:
Jul : 2.7 2.8
Aug : 4.9 8.9 3.7 2.6
Sep : 17.3 36.9 3.8 4.1 27.6 34.4
Oct : 24.9 21.5 12.7 11.0 57.9 43.1
Nov : 10.8 8.6 19.6 17.1 11.5 15.8
Dec : 8.6 3.5 15.0 16.2 2.1 5.4
Jan : 18.2 4.3 17.5 13.7 .8 1.2
Feb : 1.9 3.1 9.8 11.6 .1 .1
Mar : 4.0 4.3 5.6 9.7
Apr : 2.1 2.4 3.0 4.1
May : 2.4 1.7 3.6 3.8
Jun : 2.2 2.0 3.6 3.7
Jul : 2.1 2.4
:
Year : 100.0 100.0 100.0 100.0 100.0 100.0
:
: Dry Beans Sunflower
:
Sep : 20.3 12.8 2.1 4.3
Oct : 21.4 15.9 21.2 20.9
Nov : 7.9 11.0 11.7 18.1
Dec : 7.5 11.6 9.6 11.3
Jan : 8.0 10.4 10.1 11.1
Feb : 5.2 7.8 8.0 6.9
Mar : 4.5 6.1 7.1 11.4
Apr : 5.4 5.9 6.1 6.9
May : 5.8 4.5 5.6 3.1
Jun : 6.3 4.2 5.0 3.6
Jul : 4.1 4.5 9.5 1.3
Aug : 3.6 5.3 4.0 1.1
:
Year : 100.0 100.0 100.0 100.0
-------------------------------------------------------------------------------
Field Crops: Farm Marketings, Percent of Sales by Crop
and Month, United States, 1996-97 and 1997-98
-------------------------------------------------------------------------------
: Crop Marketing Year
Month :-----------------------------------------------------------------------
: 1996-97 : 1997-98 : 1996-97 : 1997-98 : 1996-97 : 1997-98
-------------------------------------------------------------------------------
: Percent
:
: Oats Wheat Barley
:
Jun : 5.0 5.1 7.5 9.2 4.0 6.5
Jul : 18.3 14.0 13.3 20.4 6.9 6.7
Aug : 33.4 33.2 10.4 12.4 17.5 17.0
Sep : 10.8 10.8 9.3 7.6 21.2 17.2
Oct : 4.2 4.7 6.6 4.9 6.8 9.5
Nov : 2.7 3.0 5.5 4.6 6.5 8.0
Dec : 3.4 3.9 9.2 8.1 7.1 10.0
Jan : 4.2 5.0 10.6 8.7 8.7 7.5
Feb : 4.8 6.3 8.6 5.4 6.7 5.7
Mar : 4.3 5.6 8.5 6.6 6.4 5.3
Apr : 4.7 5.2 7.0 5.9 4.4 3.8
May : 4.2 3.2 3.5 6.2 3.8 2.8
:
Year : 100.0 100.0 100.0 100.0 100.0 100.0
:
: Hay
:
Apr : .3 .5
May : 3.8 4.7
Jun : 10.4 10.5
Jul : 11.2 11.7
Aug : 10.2 10.4
Sep : 9.6 9.7
Oct : 8.2 9.8
Nov : 8.0 8.5
Dec : 8.7 8.1
Jan : 8.4 7.5
Feb : 6.9 5.7
Mar : 6.6 5.9
Apr : 5.8 4.7
May : 1.9 2.3
:
Year : 100.0 100.0
-------------------------------------------------------------------------------
Barley: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State and : : : : : : : : : : : : :
Marketing :Jun :Jul :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar :Apr :May :Jun
Year : : : : : : : : : : : : :
-------------------------------------------------------------------------------
: Percent
:
CA 1996-97 : 36 25 6 3 3 2 2 3 1 2 4 13
1997-98 : 30 10 6 7 1 1 1 1 9 7 27
:
CO 1996-97 : 9 39 15 8 4 16 5 2 1 1
1997-98 : 11 27 33 17 4 1 2 1 1 2 1
:
ID 1996-97 : 7 14 19 6 12 11 10 5 7 3 1 5
1997-98 : 3 17 17 8 10 13 10 7 6 4 3 2
:
MN 1996-97 : 6 14 14 4 6 7 11 12 8 7 5 6
1997-98 : 15 19 19 10 4 9 3 4 2 2 3 10
:
MT 1996-97 : 5 13 16 10 9 13 11 9 5 4 2 3
1997-98 : 5 9 12 13 14 15 9 9 7 4 1 2
:
ND 1996-97 : 6 16 23 5 5 5 8 6 8 5 5 8
1997-98 : 10 20 15 8 6 10 8 5 6 4 2 6
:
OR 1996-97 : 7 12 13 12 9 8 9 8 5 8 8 1
1997-98 : 6 15 27 8 9 3 13 4 1 4 4 6
:
SD 1996-97 : 21 18 7 9 5 8 1 6 7 5 3 10
1997-98 : 8 14 13 7 9 9 9 8 7 5 4 7
:
UT 1996-97 : 16 24 10 11 6 1 6 5 4 3 9 5
1997-98 : 6 21 10 9 7 8 6 5 5 8 8 7
:
WA 1996-97 : 5 19 21 15 9 6 11 3 5 3 2 1
1997-98 : 1 16 27 15 8 8 5 5 4 4 3 4
:
WY 1996-97 : 9 39 44 4 1 1 1 1
1997-98 : 9 45 30 5 2 3 2 2 1 1
-------------------------------------------------------------------------------
1/ Sample survey reported marketings as percent of total used for calculating
marketing year average prices.
Oats: Farm Marketings, Percent of Sales, by Month
and State, 1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State and : : : : : : : : : : : : : :
Marketing :May :Jun :Jul :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar :Apr :May :Jun
Year : : : : : : : : : : : : : :
-------------------------------------------------------------------------------
: Percent
:
IL 1996-97: 14 43 7 7 1 2 10 1 4 4 3 4
1997-98: 38 37 9 9 1 3 1 2
:
IA 1996-97: 26 48 7 4 1 1 1 2 3 2 2 3
1997-98: 26 43 6 2 1 3 3 3 3 4 3 3
:
MI 1996-97: 11 33 10 4 1 2 3 6 5 5 5 15
1997-98: 7 39 7 2 2 2 1 4 11 15 4 6
:
MN 1996-97: 18 30 12 4 4 3 4 4 4 7 6 4
1997-98: 7 44 12 4 1 3 3 3 6 6 3 8
:
MT 1996-97: 8 14 22 3 13 12 2 5 6 13 2
1997-98: 9 28 17 8 3 2 12 12 5 1 3
:
NE 1996-97: 42 27 8 2 3 2 3 4 2 1 2 4
1997-98: 45 22 6 3 8 1 4 3 1 4 2 1
:
ND 1996-97: 10 27 20 6 4 5 6 6 5 3 2 6
1997-98: 6 25 17 7 7 8 6 5 7 6 2 4
:
OH 1996-97: 25 37 7 2 4 1 4 5 5 7 3
1997-98: 5 39 10 6 2 4 4 7 10 5 5 3
:
OR 1996-97: 11 20 8 12 4 16 3 14 6 3 3
1997-98: 18 10 7 7 3 9 38 3 3 2
:
PA 1996-97: 12 27 4 2 2 5 9 11 14 3 5 6
1997-98: 18 26 4 8 3 2 6 4 10 7 8 4
:
SD 1996-97: 19 34 5 4 1 5 1 6 4 6 6 9
1997-98: 13 32 10 4 2 4 8 5 9 6 3 4
:
TX 1996-97: 83 11 6
1997-98: 13 7 9 36 13 5 6 4 3 4
:
WI 1996-97: 12 39 6 5 3 2 6 5 4 8 6 4
1997-98: 7 37 19 6 2 4 4 3 3 6 4 5
--------------------------------------------------------------------------------
1/ Sample survey reported marketings as percent of total used for calculating
marketing year average prices.
All Wheat: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
--------------------------------------------------------------------------------
State and : : : : : : : : : : : : : :
Marketing :May :Jun :Jul :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar:Apr:May:Jun
Year : : : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Percent
AR 1996-97 : 58 23 7 2 3 1 1 2 1 1 1
1997-98 : 60 14 12 4 1 1 2 1 2 1 2
:
CA 1996-97 : 10 32 25 9 4 2 2 2 3 1 5 5
1997-98 : 12 34 24 7 3 5 1 2 3 1 5 3
:
CO 1996-97 : 12 9 7 6 6 11 16 11 11 8 2 1
1997-98 : 9 8 5 3 2 7 29 7 10 8 6 6
:
ID 1996-97 : 1 6 13 7 5 14 14 11 11 8 5 5
1997-98 : 2 9 16 12 6 13 9 7 7 5 7 7
:
IL 1996-97 : 7 53 16 4 1 1 2 4 2 3 5 2
1997-98 : 5 46 17 5 1 1 2 4 4 5 7 3
:
IN 1996-97 : 8 59 16 10 1 1 1 2 1 1
1997-98 : 9 62 18 5 2 1 1 1 1
:
KS 1996-97 : 10 33 7 6 4 5 8 8 6 7 4 2
1997-98 : 7 34 10 4 4 4 7 8 5 6 6 5
:
MI 1996-97 : 27 39 8 3 1 3 7 3 4 4 1
1997-98 : 20 27 7 3 25 3 3 5 2 2 2 1
:
MN 1996-97 : 3 17 14 7 6 10 11 7 9 10 3 3
1997-98 : 7 18 11 3 4 11 6 5 8 6 7 14
:
MO 1996-97 : 11 43 9 4 3 3 3 6 6 7 4 1
1997-98 : 3 56 12 6 2 2 2 6 4 3 2 2
:
MT 1996-97 : 3 5 7 6 8 14 14 11 9 10 6 7
1997-98 : 5 5 8 8 6 13 11 10 12 8 8 6
:
NE 1996-97 : 21 13 7 5 6 10 11 10 7 6 2 2
1997-98 : 21 17 7 3 2 5 10 8 12 5 5 5
:
ND 1996-97 : 4 6 13 8 7 10 12 10 10 9 4 7
1997-98 : 9 11 10 6 7 12 8 5 9 9 7 7
:
OH 1996-97 : 44 12 11 4 2 4 6 6 5 4 1 1
1997-98 : 47 24 4 1 2 2 4 2 2 2 2 8
:
OK 1996-97 : 9 25 10 6 5 5 6 9 8 6 8 3
1997-98 : 1 26 25 10 4 3 3 6 8 5 5 4
:
OR 1996-97 : 5 15 13 12 8 10 9 12 7 5 2 2
1997-98 : 5 15 15 7 7 12 15 6 4 4 5 5
:
SD 1996-97 : 6 25 7 5 3 6 11 10 10 9 4 4
1997-98 : 9 24 9 4 3 7 10 6 7 6 6 9
:
TX 1996-97 : 16 28 21 6 3 7 3 4 5 2 3 2
1997-98 : 3 33 39 6 3 1 1 3 4 2 3 2
:
WA 1996-97 : 3 12 10 11 6 11 13 12 9 7 4 2
1997-98 : 1 14 14 11 8 12 11 5 7 6 5 6
--------------------------------------------------------------------------------
1/ Sample survey reported marketings as percent of total used for calculating
marketing year average prices.
Hay: Farm Marketings, Percent of Sales, by Month and State,
1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State and : : : : : : : : : : : : : :
Marketing :Apr :May :Jun :Jul :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar :Apr :May
Year : : : : : : : : : : : : : :
-------------------------------------------------------------------------------
: Percent
:
AZ 1996-97: 10 15 13 11 10 9 9 6 4 3 4 6
1997-98: 14 16 11 13 8 6 6 7 4 3 3 9
:
CA 1996-97: 12 12 14 15 10 8 5 3 3 4 4 10
1997-98: 13 12 14 13 11 15 7 3 3 2 4 3
:
CO 1996-97: 9 10 10 12 13 10 8 12 5 5 4 2
1997-98: 6 6 14 10 11 10 8 8 7 9 5 6
:
ID 1996-97: 10 9 10 15 8 12 9 6 7 6 4 4
1997-98: 10 9 10 15 8 12 9 6 7 6 4 4
:
IL 1996-97: 10 8 8 6 4 6 9 14 13 13 6 3
1997-98: 16 11 10 7 4 5 7 11 10 9 6 4
:
IA 1996-97: 10 11 9 8 5 7 9 12 9 10 6 4
1997-98: 10 11 9 8 5 7 9 11 9 10 7 4
:
KS 1996-97: 2 6 6 5 5 7 14 20 21 6 5 3
1997-98: 2 6 6 5 5 7 14 20 21 6 5 3
:
KY 1996-97: 5 13 10 9 9 8 6 13 11 9 5 2
1997-98: 5 13 10 9 9 8 7 13 11 8 5 2
:
MI 1996-97: 11 9 6 3 6 4 7 8 14 15 12 5
1997-98: 13 13 9 6 6 12 12 8 6 7 5 3
:
MN 1996-97: 8 11 10 11 7 2 6 8 9 14 5 9
1997-98: 9 8 6 5 6 8 9 10 11 12 11 5
:
MO 1996-97: 2 12 11 10 8 4 8 11 9 11 9 5
1997-98: 4 15 14 6 6 4 8 8 10 13 9 3
:
MT 1996-97: 5 13 10 15 15 11 10 8 6 3 3 1
1997-98: 8 11 11 9 10 11 10 9 7 7 4 3
:
NE 1996-97: 7 4 2 10 12 6 18 11 9 10 6 5
1997-98: 9 10 9 8 10 8 12 10 8 8 6 2
:
NV 1996-97: 2 6 12 13 14 10 9 8 7 7 7 5
1997-98: 3 3 10 12 11 12 11 10 9 8 7 4
-------------------------------------------------------------------------------
-- continued
Hay: Farm Marketings, Percent of Sales, by Month and State,
1996-97 and 1997-98 1/ (continued)
-------------------------------------------------------------------------------
State and : : : : : : : : : : : : : :
Marketing :Apr :May :Jun :Jul :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar :Apr :May
Year : : : : : : : : : : : : : :
-------------------------------------------------------------------------------
: Percent
:
NM 1996-97: 10 17 17 13 11 9 6 4 4 3 3 3
1997-98: 14 16 14 13 12 9 5 4 4 4 3 2
:
NY 1996-97: 9 12 7 7 7 8 9 9 8 11 7 6
1997-98: 17 14 7 4 4 6 8 9 9 10 7 5
:
ND 1996-97: 3 4 6 11 7 17 15 8 5 11 9 4
1997-98: 5 10 9 14 14 11 7 7 5 7 7 4
:
OH 1996-97: 20 12 9 7 7 6 7 7 6 6 7 6
1997-98: 14 11 8 8 6 8 10 9 8 8 6 4
:
OK 1996-97: 6 12 12 15 7 7 6 7 7 9 8 4
1997-98: 7 13 21 9 9 9 6 8 7 5 4 2
:
OR 1996-97: 6 13 11 11 8 9 9 10 8 6 5 4
1997-98: 13 15 13 11 12 7 7 5 6 6 3 2
:
PA 1996-97: 7 12 6 7 5 5 11 13 12 11 6 5
1997-98: 11 11 5 5 6 9 9 10 10 10 8 6
:
SD 1996-97: 3 8 7 7 8 10 11 15 13 10 6 2
1997-98: 11 12 5 11 13 7 6 7 5 10 8 5
:
TX 1996-97: 6 13 11 10 9 7 8 9 8 8 8 3
1997-98: 6 10 11 12 9 10 9 9 9 6 5 4
:
UT 1996-97: 3 10 15 10 12 11 8 7 7 6 5 6
1997-98: 2 10 12 18 13 9 7 10 7 4 4 4
:
WA 1996-97: 17 18 13 12 9 7 5 5 3 5 3 3
1997-98: 11 11 12 12 9 8 7 7 6 6 5 6
:
WI 1996-97: 14 10 10 6 5 7 8 8 8 9 9 6
1997-98: 19 15 16 10 4 2 7 7 5 4 6 5
:
WY 1996-97: 3 6 10 9 11 15 16 16 8 4 1 1
1997-98: 3 9 11 11 10 17 13 9 6 5 4 2
-------------------------------------------------------------------------------
1/ Percents use to calculate marketing year average prices.
Corn: Farm Marketings, Percent of Sales, by Month
and State, 1996-97 and 1997-98 1/
-----------------------------------------------------------------------------
State and : : : : : : : : : : : : : :
Marketing :Aug :Sep :Oct :Nov :Dec :Jan :Feb :Mar:Apr :May:Jun :Jul:Aug:Sep
Year : : : : : : : : : : : : : :
-----------------------------------------------------------------------------
: Percent
:
CO 1996-97 : 16 13 10 15 10 7 6 5 5 5 4 4
1997-98 : 11 10 11 13 6 7 4 4 13 13 4 4
:
GA 1996-97 : 38 27 7 2 3 4 4 4 3 3 2 3
1997-98 : 32 26 10 3 3 5 4 6 2 3 2 4
:
IL 1996-97 : 2 12 10 7 21 12 9 7 4 5 5 6
1997-98 : 3 14 6 5 19 8 9 5 7 8 8 8
:
IN 1996-97 : 5 13 19 7 14 10 8 6 4 4 5 5
1997-98 : 2 16 20 15 12 7 5 4 4 5 5 5
:
IA 1996-97 : 2 8 13 6 14 10 9 7 5 7 10 9
1997-98 : 7 14 10 5 14 7 8 6 6 8 7 8
:
KS 1996-97 : 7 22 13 13 15 9 8 4 3 2 2 2
1997-98 : 7 22 11 14 14 4 5 3 5 5 4 6
:
KY 1996-97 : 21 19 7 4 19 10 6 4 3 2 2 3
1997-98 : 17 19 6 3 17 7 8 7 4 3 3 6
:
MI 1996-97 : 5 22 12 15 9 6 5 3 5 6 6 6
1997-98 : 5 20 19 16 9 7 5 5 4 3 3 4
:
MN 1996-97 : 10 13 7 10 8 7 7 7 7 9 9 6
1997-98 : 14 9 6 8 6 5 4 7 14 8 10 9
:
MO 1996-97 : 16 14 9 10 14 8 7 4 4 5 4 5
1997-98 : 9 16 10 7 17 8 7 5 5 7 4 5
:
NE 1996-97 : 10 14 10 14 9 9 6 5 5 7 7 4
1997-98 : 14 10 8 15 7 8 5 4 6 5 9 9
:
NC 1996-97 : 41 23 7 2 5 4 4 3 2 2 2 5
1997-98 : 41 21 4 6 3 3 2 2 2 3 2 11
:
OH 1996-97 : 1 8 17 13 17 11 9 6 4 5 5 4
1997-98 : 3 10 20 12 14 7 8 6 4 7 4 5
:
PA 1996-97 : 15 26 12 5 6 6 4 5 4 4 4 9
1997-98 : 9 16 12 14 4 4 7 3 5 5 7 14
:
SD 1996-97 : 6 12 5 5 5 5 5 4 11 16 14 12
1997-98 : 19 18 7 11 8 8 8 7 4 3 3 4
:
TX 1996-97 : 9 24 32 6 4 9 3 3 1 1 1 7
1997-98 : 16 17 20 8 7 11 3 4 1 2 3 8
:
WI 1996-97 : 6 20 11 10 7 8 8 6 7 7 6 4
1997-98 : 6 21 11 15 6 8 6 5 7 5 6 4
-----------------------------------------------------------------------------
1/ Sample Survey reported marketings as percent of total used for
calculating marketing year average prices.
Sorghum: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
----------------------------------------------------------------------------
State and : : : : : : : : : : : : : : : :
Marketing :Jun:Jul:Aug:Sep:Oct:Nov:Dec:Jan:Feb:Mar:Apr:May:Jun:Jul:Aug:Sep
Year : : : : : : : : : : : : : : : :
----------------------------------------------------------------------------
: Percent
AR 1996-97 : 30 37 21 1 5 3 1 1 1
1997-98 : 8 44 34 5 3 1 3 1 1
:
IL 1996-97 : 15 56 9 6 5 6 2 1
1997-98 : 7 17 21 7 18 5 3 2 3 4 5 8
:
KS 1996-97 : 2 19 20 14 14 9 7 3 3 3 2 4
1997-98 : 6 18 15 14 18 5 6 4 5 3 3 3
:
MO 1996-97 : 4 25 14 14 12 6 7 5 2 2 4 5
1997-98 : 9 24 18 6 14 4 4 3 3 10 2 3
:
NE 1996-97 : 7 10 13 13 11 9 8 8 9 8 2 2
1997-98 : 16 15 13 18 8 7 3 3 7 2 3 5
:
OK 1996-97 : 1 5 14 20 21 15 8 5 4 2 3 2
1997-98 : 8 8 7 20 20 20 5 5 3 2 1 1
:
TX 1996-97 : 9 20 18 4 5 10 11 11 6 3 2 1
1997-98 : 1 17 34 12 8 12 6 6 2 1 1
----------------------------------------------------------------------------
1/ Sample survey reported marketings as percent of total used for
calculating marketing year average prices.
Flaxseed: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State and : : : : : : : : : : : :
Marketing : Jul :Aug : Sep :Oct : Nov :Dec : Jan :Feb : Mar :Apr : May :Jun
Year : : : : : : : : : : : :
------------------------------------------------------------------------------
ND 1996-97: 3 3 17 25 11 9 19 2 4 2 3 2
1997-98: 3 9 36 22 9 4 4 3 4 2 2 2
:
SD 1996-97: 6 35 28 22 1 2 2 2 2
1997-98: 15 52 12 2 1 15 1 1 1
------------------------------------------------------------------------------
1/ Percents reflect crop marketings reported by surveyed firms.
Soybeans: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
-----------------------------------------------------------------------------
State and : : : : : : : : : : : :
Marketing : Sep: Oct: Nov: Dec: Jan : Feb: Mar : Apr: May : Jun: Jul : Aug
Year : : : : : : : : : : : :
-----------------------------------------------------------------------------
: Percent
:
AR 1996-97 : 2 25 22 14 21 6 4 3 1 1 1
1997-98 : 3 26 26 12 10 6 4 4 3 2 2 2
:
GA 1996-97 : 1 23 39 24 5 2 4 2
1997-98 : 1 8 32 37 8 4 2 3 2 3
:
IL 1996-97 : 4 14 5 6 22 10 11 6 5 4 5 8
1997-98 : 6 16 3 5 18 9 8 7 7 8 7 6
:
IN 1996-97 : 5 25 20 6 14 6 6 5 4 3 3 3
1997-98 : 8 28 4 24 8 5 4 4 3 5 4 3
:
IA 1996-97 : 4 21 4 4 17 9 9 8 5 5 7 7
1997-98 : 6 22 8 4 12 7 7 7 7 7 7 6
:
KS 1996-97 : 2 27 9 10 19 7 9 4 2 3 4 4
1997-98 : 5 19 12 11 12 9 9 8 6 4 3 2
:
KY 1996-97 : 1 6 25 9 29 13 6 5 2 1 1 2
1997-98 : 2 11 18 9 18 12 8 8 5 3 3 3
:
LA 1996-97 : 17 41 16 5 13 3 1 1 3
1997-98 : 24 38 11 5 13 3 2 2 1 1
:
MI 1996-97 : 2 34 15 8 15 6 6 4 2 1 4 3
1997-98 : 1 31 19 8 8 7 5 4 4 5 4 4
:
MN 1996-97 : 6 25 5 6 14 7 7 8 7 5 5 5
1997-98 : 8 19 6 6 8 7 6 5 6 12 10 7
-----------------------------------------------------------------------------
--continued
Soybeans: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
-----------------------------------------------------------------------------
State and : : : : : : : : : : : :
Marketing : Sep: Oct: Nov: Dec: Jan : Feb: Mar : Apr: May : Jun: Jul : Aug
Year : : : : : : : : : : : :
-----------------------------------------------------------------------------
MS 1996-97 : 7 16 13 12 34 7 4 2 1 2 2
1997-98 : 14 27 9 8 17 7 5 2 2 1 6 2
:
MO 1996-97 : 3 20 9 9 20 11 10 5 4 3 2 4
1997-98 : 3 22 13 6 15 8 7 6 6 6 4 4
:
NE 1996-97 : 3 21 6 7 16 9 8 7 6 6 7 4
1997-98 : 7 17 8 7 15 9 6 7 5 6 7 6
:
NC 1996-97 : 1 9 29 21 19 7 7 3 1 1 2
1997-98 : 1 2 33 31 9 4 4 3 5 4 2 2
:
OH 1996-97 : 3 22 15 6 17 9 8 7 4 3 3 3
1997-98 : 6 30 8 6 10 7 6 7 5 7 5 3
:
SD 1996-97 : 2 29 6 11 8 8 5 5 4 7 9 6
1997-98 : 6 38 7 6 8 7 6 8 4 4 4 2
:
TN 1996-97 : 2 16 37 19 12 5 4 2 1 1 1
1997-98 : 10 22 22 11 15 5 5 3 2 2 2 1
:
WI 1996-97 : 2 30 11 6 14 7 7 7 5 4 4 3
1997-98 : 3 31 12 5 12 7 5 6 6 6 5 2
-----------------------------------------------------------------------------
1/ Percents reflect crop marketings reported by surveyed firms.
Sunflower: Farm Marketings, Percent of Sales
by Month and State, 1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State and : : : : : : : : : : : :
Marketing :Sep :Oct :Nov :Dec :Jan :Feb :Mar :Apr :May :Jun :Jul :Aug
Year : : : : : : : : : : : :
-------------------------------------------------------------------------------
KS 1996-97: 3 38 13 7 12 8 6 8 3 2
1997-98: 3 23 22 22 12 7 6 3 2
:
MN 1996-97: 5 12 11 11 12 11 9 12 13 2 1 1
1997-98: 18 11 6 16 6 6 10 11 2 4 5 5
:
ND 1996-97: 2 16 14 9 11 7 8 5 5 8 9 6
1997-98: 3 19 20 12 10 7 13 7 2 4 2 1
:
SD 1996-97: 1 26 9 12 8 7 5 6 4 3 15 4
1997-98: 5 26 13 6 15 7 10 7 5 4 1 1
:
-------------------------------------------------------------------------------
Dry Edible Beans: Farm Marketings, Percent of Sales,
by Month and State, 1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State and : : : : : : : : : : : :
Marketing : Sep : Oct: Nov : Dec: Jan : Feb: Mar : Apr: May : Jun: Jul : Aug
Year : : : : : : : : : : : :
-------------------------------------------------------------------------------
CA 1996-97 : 6 12 12 11 8 8 7 9 10 6 6 5
1997-98 : 6 11 13 9 8 7 7 9 10 7 7 6
:
CO 1996-97 : 27 17 4 6 8 4 4 3 4 9 7 7
1997-98 : 15 23 9 7 8 5 3 5 6 7 6 6
:
ID 1996-97 : 10 15 12 10 10 8 8 7 6 7 4 3
1997-98 : 10 14 12 10 11 8 8 7 6 7 4 3
:
MI 1996-97 : 6 32 8 6 15 6 3 6 3 7 5 3
1997-98 : 5 16 11 16 11 10 6 6 5 5 5 4
:
MN 1996-97 : 34 19 7 3 3 2 3 5 10 8 4 2
1997-98 : 21 19 13 7 7 7 5 3 3 4 4 7
:
NE 1996-97 : 29 18 10 7 7 4 5 4 4 5 2 5
1997-98 : 20 14 9 10 17 5 6 6 3 2 5 3
:
ND 1996-97 : 27 25 6 8 5 4 4 5 6 5 3 2
1997-98 : 17 16 13 12 8 8 6 5 2 3 3 7
:
-------------------------------------------------------------------------------
1/ Percents reflect estimates of actual marketings used for calculating
marketing year average prices.
Upland Cotton: Farm Marketings, Percent of Sales
by Month, State and U.S., 1996-97 and 1997-98 1/
-------------------------------------------------------------------------------
State : : : : : : : : : : : :
and : : : : : : : : : : : :
Market-: Aug : Sep : Oct : Nov : Dec : Jan : Feb : Mar : Apr : May : Jun : Jul
ing : : : : : : : : : : : :
Year : : : : : : : : : : : :
-------------------------------------------------------------------------------
: Percent
:
AL :
1996-97: 0.5 0.4 14.1 12.5 21.5 27.0 3.1 1.1 1.1 16.7 1.0 1.0
1997-98: 3.4 1.9 11.5 20.4 23.8 8.8 12.0 3.6 4.0 3.3 5.3 2.1
:
AZ :
1996-97: 1.9 10.5 9.8 21.5 11.0 24.9 5.7 8.0 4.3 1.7 0.8 2/
1997-98: 2.8 6.3 18.9 15.0 9.6 9.7 8.9 6.5 2.0 1.2 10.2 8.9
:
AR :
1996-97: 1.6 3.2 32.6 27.1 9.2 5.7 7.0 2.6 2.9 2.9 2.5 2.8
1997-98: 4.2 3.1 10.1 18.6 12.7 7.9 16.8 8.6 6.2 5.2 3.7 2.9
:
CA :
1996-97: 2.9 3.0 14.3 14.3 13.0 19.8 10.0 7.4 4.9 4.4 3.2 2.7
1997-98: 0.3 6.2 13.9 19.6 14.8 10.3 7.8 11.2 7.5 3.1 3.5 1.8
:
GA :
1996-97: 0.2 1.8 12.8 21.1 22.0 18.2 6.9 5.8 2.7 2.6 4.4 1.5
1997-98: 1.8 0.6 14.4 18.2 26.1 14.5 8.5 7.4 1.8 3.0 3.0 0.8
:
LA :
1996-97: 2.0 2.5 12.7 17.6 9.8 9.3 9.1 11.7 5.4 6.2 7.6 6.1
1997-98: 3.8 3.5 20.8 19.8 10.0 10.2 10.7 8.3 5.3 3.2 2.4 1.9
:
MS :
1996-97: 4.2 3.4 11.7 18.2 9.4 8.6 12.7 6.7 4.9 5.4 9.4 5.3
1997-98: 5.1 5.2 6.5 13.0 8.8 13.7 15.5 12.0 5.7 5.4 4.7 4.4
:
NC :
1996-97: 0.7 0.4 11.4 26.9 15.5 17.5 9.5 6.3 2.5 3.6 5.0 0.7
1997-98: 0.1 0.2 4.0 19.9 20.3 8.2 12.4 27.6 1.8 1.2 3.9 0.2
:
TN :
1996-97: 0.9 2.3 20.0 28.9 11.1 4.4 5.1 2.4 5.1 7.2 10.2 2.4
1997-98: 3.7 1.5 15.3 22.6 16.8 3.5 10.8 10.6 6.0 3.8 4.5 0.9
:
TX :
1996-97: 8.4 6.0 6.9 18.7 16.1 22.6 13.4 4.0 1.2 1.3 0.9 0.6
1997-98: 2.7 5.2 6.4 14.7 17.5 21.1 13.0 7.8 2.5 4.9 2.3 2.0
:
US :
1996-97: 3.7 3.8 12.7 19.6 15.0 17.5 9.8 5.6 3.0 3.6 3.6 2.1
1997-98: 2.6 4.1 11.0 17.1 16.2 13.7 11.6 9.7 4.1 3.8 3.7 2.4
-------------------------------------------------------------------------------
1/ Percents reflect estimates of actual marketings used for calculating
marketing year averages.
2/ Insufficient sales.
Upland Cotton Monthly Marketings, Calendar Years, 1996-98
and Rice Monthly Marketings, Marketing Years, 1995/96 - 1997/98
-------------------------------------------------------------------------------
: Upland Cotton 1/ :: : Rice 2/
Month :-------------------------------:: Month :-------------------------------
: 1996 : 1997 : 1998 :: : 1995/96 : 1996/97 : 1997/98
-------------------------------------------------------------------------------
: 1,000 Bales :: 1,000 Cwt
: ::
Jan : 2,265 2,810 1,881 :: Aug 10,149 10,684 8,478
Feb : 757 1,574 1,585 :: Sep 11,743 13,705 14,411
Mar : 716 900 1,321 :: Oct 12,343 12,382 12,216
Apr : 559 485 558 :: Nov 12,941 12,067 11,705
May : 343 576 523 :: Dec 13,506 13,181 14,434
Jun : 304 585 504 :: Jan 13,405 16,520 12,593
Jul : 331 331 332 :: Feb 12,235 12,266 11,739
Aug : 593 355 388 :: Mar 14,690 10,303 12,151
Sep : 613 559 423 :: Apr 13,279 11,083 10,434
Oct : 2,042 1,507 923 :: May 11,702 8,381 12,220
Nov : 3,156 2,341 1,643 :: Jun 10,275 7,493 10,927
Dec : 2,411 2,215 1,611 :: Jul 10,782 9,632 8,611
: ::
Year : 14,090 14,238 11,692 :: Year 147,050 137,697 139,919
-------------------------------------------------------------------------------
1/ Marketings August through December 1998 are preliminary. Survey expanded
marketings based on buyer purchases in the major cotton producing States-
AL, AZ, AR, CA, GA, LA, MS, TN and TX.
2/ Purchases from producers as reported by private firms and rice (rough
equivalent) shipped from producers as reported by cooperative mills.
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary
-------------------------------------------------------------------------------
: Barley :
:-----------------------------------------------------: Dry Edible Beans
State : All : Feed : Malting :
:------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 1/: 1997 : 1998 1/: 1997 : 1998
-------------------------------------------------------------------------------
: ---------------- Dollars per Bu ------------- Dollars per Cwt
:
AL :
AK : 3.20 3.60
AZ : 2.90 2.90
CA : 2.75 2.25 2.75 29.40 33.10
CO : 2.98 2.90 2.12 18.70 16.70
DE : 1.95 1.30
ID : 2.82 2.35 2.29 3.15 20.80 17.80
KS : 2.69 2.30 18.60 15.80
KY : 2.06 1.30
MD : 2.05 1.30
MI : 1.90 1.50 18.90 22.50
MN : 1.88 1.60 1.74 2.11 17.50 19.70
MT : 2.83 2.25 2.09 3.12 19.40 16.40
NE : 2.20 1.80 18.80 18.60
NV : 2.85 2.50
NJ : 2.00 1.05
NM : 22.40 22.40
NY : 20.60 25.30
NC : 2.10 1.90
ND : 1.96 1.55 1.76 2.17 16.80 16.90
OK : 2.15 1.70
OR : 2.39 1.50 2.36 2.92 19.50 17.90
PA : 2.01 1.35
SC : 2.05 1.80
SD : 2.23 1.70 1.83 2.41
TX : 2.30 2.05 18.00 19.40
UT : 2.29 1.70 2.29 20.00 18.00
VA : 2.10 1.40
WA : 2.27 1.45 2.23 2.79 21.70 21.50
WI : 1.70 1.15 22.10 26.90
WY : 3.32 2.60 1.99 3.37 19.60 18.80
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 1.95 1/ 1/ 19.80
1997 : 2.38 2.05 2.74 19.30
-------------------------------------------------------------------------------
1/ 1998 prices will be published in "Agricultural Prices", August 31, 1999.
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: : Cotton :
: Corn :-----------------------------------: Cottonseed
State : : Pima : Upland :
:------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Bu ------- Dollars per Lb ------- Dollars per Ton
:
AL : 2.82 2.20 .673 .629 111.00 111.00
AZ : 3.20 2.75 .982 .979 .647 .652 134.00 149.00
AR : 2.51 1.75 .657 .652 106.00 121.00
CA : 3.05 2.55 1.020 1.000 .732 .744 174.00 177.00
CO : 2.59 2.10
DE : 2.95 2.40
FL : 2.90 2.30 .654 .542 120.00 110.00
GA : 2.90 2.40 .677 .674 108.00 104.00
ID : 3.03 2.50
IL : 2.53 2.05
IN : 2.53 2.05
IA : 2.33 1.90
KS : 2.47 1.95 .579 .615 106.00 116.00
KY : 2.62 2.10
LA : 2.70 2.05 .649 .593 110.00 113.00
MD : 2.98 2.35
MI : 2.40 1.90
MN : 2.15 1.75
MS : 2.65 2.05 .649 .634 106.00 116.00
MO : 2.45 1.90 .687 .706 111.00 131.00
MT : 2.40 1.50
NE : 2.32 1.95
NJ : 2.80 2.20
NM : 2.85 2.35 1.030 .926 .577 .696 134.00 149.00
NY : 2.62 2.15
NC : 2.83 2.25 .659 .687 114.00 114.00
ND : 2.12 1.65
OH : 2.48 2.00
OK : 2.66 2.15 .579 .615 106.00 116.00
OR : 303 2.40
PA : 2.92 2.45
SC : 2.79 2.30 .701 .681 108.00 108.00
SD : 2.15 1.60
TN : 2.65 2.05 .653 .636 115.00 131.00
TX : 2.74 2.35 .983 .896 .601 .581 114.00 131.00
UT : 3.05 2.40
VA : 2.69 2.20 .675 .685 102.00 111.00
WA : 3.00 2.65
WV : 2.80 2.10
WI : 2.34 1.90
WY : 2.52 2.00
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 1.95 .985 .642 129.00
1997 : 2.43 1.014 .652 121.00
-------------------------------------------------------------------------------
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Alfalfa : Other : All
State :------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Ton
:
AL : 47.00 53.00 47.00 53.00
AK : 190.00
AZ : 112.00 91.50 88.50 84.00 111.00 91.50
AR : 128.00 127.00 54.00 54.00 59.00 61.00
CA : 119.00 103.00 98.00 80.00 117.00 101.00
CO : 101.00 93.50 106.00 102.00 101.00 94.00
CT : 164.00 157.00 131.00 128.00 139.00 132.00
DE : 163.00 142.00 131.00 127.00 145.00 137.00
FL : 86.00 102.00 86.00 102.00
GA : 59.00 68.00 59.00 68.00
ID : 106.00 85.50 77.00 65.00 105.00 84.00
IL : 107.00 91.00 82.00 68.00 102.00 86.50
IN : 120.00 91.00 95.00 70.00 113.00 86.00
IA : 112.00 87.50 74.00 62.50 109.00 86.00
KS : 88.00 74.50 72.00 64.00 84.00 73.00
KY : 99.00 106.00 66.00 70.00 77.00 81.50
LA : 54.00 57.00 54.00 57.00
ME : 143.00 150.00 113.00 112.00 114.00 113.00
MD : 161.00 148.00 122.00 134.00 142.00 140.00
MA : 167.00 155.00 137.00 136.00 144.00 138.00
MI : 103.00 92.50 90.50 76.00 101.00 89.00
MN : 98.00 68.00 61.00 47.50 88.00 67.50
MS : 42.50 42.00 42.50 42.00
MO : 105.00 102.00 64.00 61.50 71.00 68.50
MT : 80.00 74.50 69.00 64.00 79.00 73.50
NE : 79.50 51.50 58.50 44.00 76.00 51.00
NV : 107.00 108.00 89.00 96.00 105.00 107.00
NH : 167.00 154.00 131.00 141.00 137.00 143.00
NJ : 144.00 143.00 111.00 113.00 120.00 122.00
NM : 127.00 121.00 97.00 98.00 124.00 119.00
NY : 110.00 101.00 80.50 79.50 94.00 89.50
NC : 125.00 115.00 82.00 80.00 84.00 81.50
ND : 65.00 58.00 43.50 38.50 60.00 52.50
OH : 163.00 113.00 87.00 67.00 135.00 96.50
OK : 94.00 99.50 54.50 60.00 78.00 84.00
OR : 123.00 111.00 91.50 89.50 117.00 108.00
PA : 158.00 131.00 123.00 103.00 138.00 115.00
RI : 168.00 167.00 133.00 146.00 146.00 154.00
SC : 85.00 85.00 85.00 85.00
SD : 81.50 58.00 55.50 38.00 77.00 53.50
TN : 108.00 116.00 54.00 51.00 56.00 53.00
TX : 136.00 150.00 61.00 75.50 72.00 91.00
UT : 85.00 79.00 64.00 55.00 84.00 78.00
VT : 155.00 141.00 125.00 117.00 131.00 120.00
VA : 110.00 124.00 78.00 77.50 83.00 82.50
WA : 111.00 96.50 136.00 126.00 115.00 101.00
WV : 109.00 75.00 49.00 48.50 55.00 51.50
WI : 97.50 82.50 66.50 61.50 91.50 78.00
WY : 86.00 78.00 77.00 72.00 85.00 77.50
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 91.00 73.50 87.00
1997 : 107.00 75.70 100.00
-------------------------------------------------------------------------------
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Flaxseed : Hops : Oats : Peanuts
State :------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Bu Dollars per Lb Dollars per Bu Dollars per Lb
:
AL : 1.70 2.05 .293 .277
AK : 2.50 2.60
AR : 2.15 1.45
CA : 1.98 1.40
CO : 2.05 1.70
FL : .280 .247
GA : 1.87 1.50 .303 .266
ID : 1.41 1.52 1.64 1.15
IL : 1.71 1.25
IN : 1.94 1.70
IA : 1.63 1.15
KS : 1.52 1.60
ME : 1.20 .95
MD : 1.75 1.65
MI : 1.86 1.30
MN : 5.85 4.70 1.46 .95
MO : 1.85 1.60
MT : 1.33 1.25
NE : 1.79 1.15
NM : .300 .235
NY : 1.70 1.40
NC : 1.80 1.50 .277 .242
ND : 5.81 5.10 1.32 .85
OH : 1.76 1.35
OK : 2.10 1.80 .293 .309
OR : 1.68 1.78 1.77 1.30
PA : 1.84 1.30
SC : 1.55 1.30 .287 .286
SD : 5.68 4.80 1.56 .95
TX : 2.36 1.40 .243 .232
UT : 1.97 1.35
VA : .301 .249
WA : 1.60 1.60 1.75 1.30
WV : 2.07 1.30
WI : 1.46 .95
WY : 1.86 1.80
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 5.10 1.62 1.10 .257
1997 : 5.81 1.60 1.60 .283
-------------------------------------------------------------------------------
Special Oilseeds: United States, 1992-97 Final, 1998 Preliminary 1/
-------------------------------------------------------------------------------
Year : Canola : Rapeseed : Safflower : Mustard Seed
-------------------------------------------------------------------------------
: Dollars per Cwt
:
1998 : 10.30 10.30 14.20 13.60
1997 : 11.30 13.20 15.40 15.90
1996 : 12.90 13.30 18.10 16.90
1995 : 11.10 12.00 14.60 12.20
1994 : 11.10 10.30 14.60 10.80
1993 : 10.90 10.20 15.20 10.80
1992 : 9.90 10.00 14.10 10.70
-------------------------------------------------------------------------------
1/ Average to December.
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Potatoes : Rice : Rye : Sorghum
State :------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: ------- Dollars per Cwt ------ Dollars per Bu Dollars per Cwt
:
AL : 8.60 12.90 3.95 3.30
AK : 20.00 20.90
AZ : 8.75 9.90
AR : 9.87 8.55 4.59 3.35
CA : 10.90 11.30 7.95 8.15
CO : 4.60 3.85 3.30 1.80 3.91 3.10
DE : 8.25 8.45
FL : 12.10 14.70
GA : 5.00 3.40 4.70 3.60
ID : 4.50 3.90
IL : 5.50 5.15 2.90 2.40 4.25 3.45
IN : 6.15 5.75 2.90 2.30
IA : 5.45 4.35
KS : 3.60 2.20 3.80 3.00
KY : 4.54 3.50
LA : 10.20 8.90 4.40 3.75
ME : 6.40 6.25
MD : 6.85 7.00 2.45 2.30
MA : 7.70 6.75
MI : 6.45 6.25 2.90 2.50
MN : 5.55 5.20 3.10 1.75
MS : 10.40 8.75 4.45 3.55
MO : 5.30 5.15 10.00 8.65 3.93 3.00
MT : 7.05 7.95
NE : 6.15 4.85 3.60 1.80 3.84 3.15
NV : 4.50 4.20
NJ : 6.50 7.00 3.60 3.00
NM : 6.05 6.10 4.45 3.85
NY : 8.75 9.45 2.10 2.00
NC : 6.60 6.15 2.60 2.40 4.60 3.60
ND : 5.65 5.65 3.12 2.20
OH : 8.25 6.95 3.05 2.50
OK : 4.50 3.50 3.94 3.35
OR : 5.20 4.90
PA : 8.20 7.00 3.75 3.50
RI : 7.60 6.80
SC : 3.00 2.50 4.10 3.30
SD : 4.90 4.95 3.60 1.90 3.55 3.00
TN : 4.59 3.40
TX : 10.30 9.35 10.90 9.15 3.90 3.90 4.18 3.90
UT : 4.35 4.75
VA : 10.80 6.75 2.45 2.00
WA : 4.90 4.50
WI : 5.70 4.95 3.60 1.75
WY : 5.05 5.05
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 5.24 8.50 2.49 3.10
1997 : 5.62 9.70 3.75 3.95
-------------------------------------------------------------------------------
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Soybeans : Sugarbeets : Sugarcane
State :------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 1/ : 1997 : 1998 1/
-------------------------------------------------------------------------------
: Dollars per Bu ------------- Dollars per Ton ----------
:
AL : 6.65 5.50
AR : 6.88 5.70
CA : 40.60
CO : 34.10
DE : 7.00 5.70
FL : 7.00 5.40 28.70
GA : 6.68 5.35
HI : 29.20
ID : 40.60
IL : 6.56 5.45
IN : 6.59 5.35
IA : 6.33 5.30
KS : 6.42 5.35
KY : 6.76 5.60
LA : 6.98 5.80 27.10
MD : 6.90 5.65
MI : 6.47 5.25 38.50
MN : 6.20 5.10 38.70
MS : 6.90 6.05
MO : 6.39 5.30
MT : 40.50
NE : 6.28 5.15 35.60
NJ : 6.75 5.40
NM : 31.20
NY : 5.30
NC : 6.68 5.40
ND : 6.10 5.00 37.90
OH : 6.49 5.30 38.40
OK : 6.40 5.00
OR : 39.90
PA : 6.80 5.30
SC : 6.55 5.35
SD : 6.11 4.90
TN : 6.89 5.60
TX : 633 4.80 34.00 25.60
VA : 6.20 5.70
WA : 38.90
WI : 6.38 5.30
WY : 38.50
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 5.35 1/ 1/
1997 : 6.47 38.80 28.10
-------------------------------------------------------------------------------
1/ U.S. prices will be published in "Agricultural Prices", July 31, 1999.
State prices will be published in "Crop Values", February 1999.
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Sunflower :
:-----------------------------------------------------: Sweetpotatoes
State : Non-Oil : Oil : All :
:------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 20.50 15.10
CA : 28.00 25.80
CO : 14.30 14.20 10.90 10.70 12.30 11.80
GA : 15.40 16.50
KS : 14.80 14.10 10.80 9.30 12.30 10.60
LA : 14.40 14.40
MN : 14.00 12.90 11.40 9.95 12.30 11.30
MS : 18.50 17.50
NE : 15.00 13.60 10.30 9.50 12.70 10.80
NJ : 20.40 21.50
NC : 10.80 11.00
ND : 14.40 13.50 11.10 9.40 11.80 10.50
SC : 15.40 12.50
SD : 11.80 9.20 10.90 9.25 10.90 9.25
TX : 14.00 15.00 13.00 13.00 13.70 14.00 16.20 16.40
VA : 11.60 12.30
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 13.20 9.35 10.20 15.30
1997 : 14.30 11.00 11.60 15.80
-------------------------------------------------------------------------------
Prices Received: Wheat by Class, Marketing Year Average, United States,
1997 Revised and 1998 Preliminary
-------------------------------------------------------------------------------
: Class
Year :----------------------------------------------------------------------
: All Hard Red : Soft Red Winter : White
-------------------------------------------------------------------------------
: Dollars per Bushel
:
1998 : 1/ 1/ 1/
1997 : 3.33 3.21 3.35
-------------------------------------------------------------------------------
1/ 1998 prices will be published in "Agricultural Prices", August 31, 1999.
Tobacco: Marketing Year Average Price, by Class, Type,
State, and United States, 1997-98 1/
------------------------------------------------------------------------------
: : :
Class and State : Type : 1997 : 1998
: : :
------------------------------------------------------------------------------
: : Dollars per Pound
Flue-cured: : :
Old Belts : :
NC : 11 : 1.710 1.780
VA : 11 : 1.727 1.792
US : 11 : 1.716 1.784
Eastern NC Belt : :
NC : 12 : 1.720 1.773
NC Border & SC Belt : :
NC : 13 : 1.720 1.716
SC : 13 : 1.735 1.711
US : 13 : 1.728 1.713
GA-FL Belt : :
FL : 14 : 1.721 1.697
GA : 14 : 1.712 1.707
US : 14 : 1.714 1.705
Total Flue-cured : 11-14 : 1.720 1.756
: :
Fire-cured: : :
VA Belt : :
VA : 21 : 2.125 1.936
Eastern District : :
KY : 22 : 2.268 2.259
TN : 22 : 2.260 2.251
US : 22 : 2.263 2.254
Western District : :
KY : 23 : 2.242 2.159
TN : 23 : 2.226 2.159
US : 23 : 2.240 2.159
KY-TN Fire-cured : 22-23 : 2.256 2.225
Total Fire-cured : 21-23 : 2.250 2.208
: :
Air-cured: : :
Light Air-cured: : :
Burley : :
IN : 31 : 1.870 1.897
KY : 31 : 1.886 1.903
MO : 31 : 1.895 1.905
NC : 31 : 1.860 1.899
OH : 31 : 1.869 1.904
TN : 31 : 1.886 1.907
VA : 31 : 1.903 1.892
WV : 31 : 1.878 1.915
US : 31 : 1.885 1.903
Southern MD Belt : :
MD : 32 : 1.720 1.630
PA : 32 : 1.300 .800
US : 32 : 1.576 1.291
Total Light Air-cured : 31-32 : 1.877 1.887
: :
Dark Air-cured: : :
One-Sucker Belt : :
KY : 35 : 2.011 1.952
TN : 35 : 2.003 1.913
US : 35 : 2.010 1.946
Green River Belt : :
KY : 36 : 2.034 1.974
KY-TN Dark Air-cured : 35-36 : 2.017 1.955
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Tobacco: Marketing Year Average Price, by Class, Type,
State, and United States, 1997-98 1/ (continued)
------------------------------------------------------------------------------
: : :
Class and State : Type : 1997 : 1998
: : :
------------------------------------------------------------------------------
: : Dollars per Pound
: :
VA Sun-cured Belt : :
VA : 37 : 1.908 1.709
Total Dark Air-cured : 35-37 : 2.016 1.951
: :
All Cures Other Than Cigar : 11-37 : 1.793 1.823
: :
: :
Cigar Filler: : :
PA Seedleaf : :
PA : 41 : 1.600 1.300
: :
Cigar Binder: : :
CT Valley Broadleaf : :
CT : 51 : 6.000 5.400
MA : 51 : 9.500 5.670
US : 51 : 7.273 5.499
WI Binder, Southern : :
WI : 54 : 1.500 1.500
WI Binder, Northern : :
WI : 55 : 1.520 1.490
Total WI Binder : 54-55 : 1.505 1.497
Total Binder : 51-55 : 3.754 3.524
: :
Cigar Wrapper: : :
CT Valley Shade-grown : :
CT 2/ : 61 :
MA 2/ : 61 :
US 2/ : 61 :
: :
Total Cigar Types 2/ : 41-55 : 2.599 2.260
: :
US All Tobacco 2/ : 11-55 : 1.802 1.828
------------------------------------------------------------------------------
1/ 1998 revised.
2/ CT and MA Type 61 price not published to avoid disclosure; not included in
Total Cigar Types or US All Tobacco.
Tobacco: Marketing Year Average Price,
by State, 1997-98 1/
------------------------------------------------------------------------------
State : 1997 : 1998 : State : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Pound : : Dollars per Pound
: : :
CT 2/ : 6.000 5.400 : NC : 1.720 1.771
FL : 1.721 1.697 : OH : 1.869 1.904
GA : 1.712 1.707 : PA : 1.490 1.101
IN : 1.870 1.897 : SC : 1.735 1.711
KY : 1.903 1.917 : TN : 1.952 1.963
MD : 1.720 1.630 : VA : 1.765 1.816
MA 2/ : 9.500 5.670 : WV : 1.878 1.915
MO : 1.895 1.905 : WI : 1.505 1.497
------------------------------------------------------------------------------
1/ 1998 revised.
2/ CT and MA Type 61 not published to avoid disclosure.
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Wheat
:------------------------------------------------------------------------
State : Winter : Durum : Other Spring : All
:------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Bu
:
AL : 3.20 2.60 3.20 2.60
AZ : 4.05 2.60 4.70 4.70 4.70 3.85
AR : 3.49 2.80 3.49 2.80
CA : 3.71 3.00 4.28 5.20 3.82 3.05
CO : 3.17 2.60 3.16 2.40 3.17 2.60
DE : 3.07 2.40 3.07 2.40
FL : 3.40 2.50 3.40 2.50
GA : 3.19 2.60 3.19 2.60
ID : 3.12 2.10 3.12 2.25 3.12 2.25
IL : 3.14 2.45 3.14 2.45
IN : 3.18 2.40 3.18 2.40
IA : 3.16 2.75 3.16 2.75
KS : 3.16 2.55 3.16 2.55
KY : 3.24 2.20 3.24 2.20
LA : 3.50 2.75 3.50 2.75
MD : 3.15 2.45 3.15 2.45
MI : 3.26 2.35 3.26 2.35
MN : 3.22 2.40 5.30 3.10 3.53 3.20 3.52 3.20
MS : 3.17 2.25 3.17 2.25
MO : 3.09 2.40 3.09 2.40
MT : 3.40 2.85 5.18 4.00 3.58 3.40 3.62 3.35
NE : 3.20 2.60 3.20 2.60
NV : 3.25 2.05 3.25 2.15 3.25 2.10
NJ : 3.20 2.45 3.20 2.45
NM : 3.25 2.65 3.25 2.65
NY : 3.35 2.15 3.35 2.15
NC : 3.20 2.50 3.20 2.50
ND : 3.17 2.75 4.91 3.20 3.48 3.15 3.82 3.20
OH : 3.16 2.30 3.16 2.30
OK : 3.21 2.60 3.21 2.60
OR : 3.53 2.60 3.61 2.65 3.55 2.60
PA : 3.37 2.50 3.37 2.50
SC : 3.20 2.50 3.20 2.50
SD : 3.10 2.50 4.28 3.10 3.58 3.05 3.41 2.85
TN : 3.30 2.65 3.30 2.65
TX : 3.25 2.70 3.25 2.70
UT : 3.29 2.75 3.51 2.45 3.32 2.70
VA : 3.05 2.40 3.05 2.40
WA : 3.36 2.50 3.61 2.90 3.39 2.60
WV : 3.25 2.30 3.25 2.30
WI : 3.00 2.10 3.00 2.10 3.00 2.10
WY : 3.10 260 3.12 2.80 3.10 2.70
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 2.50 3.40 3.05 2.70
1997 : 3.23 4.92 3.53 3.38
-------------------------------------------------------------------------------
Crops: Marketing Year Average Prices Received, by States
and United States, 1997 Revised and 1998 Preliminary, (continued)
-------------------------------------------------------------------------------
: Apples : Peaches : :
: for : for : Spearmint : Peppermint
State : Fresh Use : Fresh Use : :
:------------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Lb
:
AL : .302 .456
AZ : .553 .400
CA : .332 .293 .138 .198
CO : .191 .134
CT : .360 .395 .700 .700
ID : .247 .128 12.40 11.20 11.20 10.00
IL : .219 .228 .406 .433
IN : .278 .316 .545 .318 12.00 12.00 13.60 12.70
KY : .270 .284 .299 .375
LA : .453 .710
ME : .240 .270
MD : .254 .246
MA : .320 .395 .700 .800
MI : .150 .130 1/ .315 11.00 11.20
MO : .230 .223 .350 .396
NH : .270 .350
NJ : .203 .200
NM : .339 .210
NY : .176 .158
NC : .227 .170
OH : .265 .269 .400 .416
OK : .224 .412
OR : .316 .210 13.00 12.00 15.30 13.70
PA : .227 .223
SC : .205 .293 .216 .280
TN : .380 .450
TX : .350 .520
UT : .183 .170 .270 .270
VT : .220 .288
VA : .204 .189 .280 .300
WA : .213 .151 11.60 10.50 11.00 10.00
WV : .187 .159
WI : .329 .316 14.00 13.00 14.00 10.00
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : .171 .294 10.90 11.60
1997 : .221 .244 11.90 12.90
-------------------------------------------------------------------------------
1/ Combined with Other States in 1997.
Noncitrus Fruits and Nuts: Marketing Year Average Prices,
by State, 1996-1998, and United States, 1993-98
-----------------------------------------------------------------------------
: All Pecans : All Pears
State :-------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998
-----------------------------------------------------------------------------
: ----- Dollars per Pound ------ ----- Dollars per Ton ----
:
AL : .530 .648 .870
AZ : .620 1.250 1.590
AR : .900 .671 1.030
CA : .830 1.320 1.660 289.00 273.00 264.00
CO : 436.00 295.00 449.00
CT : 725.00 700.00 775.00
FL : .576 .733 .804
GA : .624 .832 1.220
KS : .980 .670 .880
LA : .463 .550 .675
MI : 260.00 250.00 271.00
MS : .675 .753 .800
NM : .740 .940 1.490
NY : 383.00 384.00 375.00
NC : .580 .830 .920
OK : .638 .568 .734
OR : 457.00 278.00 338.00
PA : 505.00 552.00 351.00
SC : .652 .748 1.180
TX : .725 .649 1.150
UT : 483.00 586.00 307.00
WA : 419.00 272.00 277.00
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 1.210 291.00
1997 : .774 276.00
1996 : .641 376.00
1995 : 1.010 272.00
1994 : 1.040 223.00
1993 : .586 245.00
------------------------------------------------------------------------------
: Avocados : Hazelnuts
State :--------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Ton
:
CA : 1,560.00 1,710.00 1,630.00
FL : 528.00 584.00 716.00
HI : 1,070.00 1,060.00 1,040.00
OR : 859.00 899.00 964.00
WA : 940.00 940.00 960.00
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 1,480.00 964.00
1997 : 1,560.00 899.00
1996 : 1,430.00 860.00
1995 : 1,300.00 913.00
1994 : 1,380.00 835.00
1993 : 1,780.00 633.00
------------------------------------------------------------------------------
Noncitrus Fruits and Nuts: Marketing Year Average Prices,
California and Hawaii, 1993-98 1/
------------------------------------------------------------------------------
: : : : Grape Types
Year : Almonds : Bananas : Dates :------------------------------------
: : : : Raisin : Wine : Table
------------------------------------------------------------------------------
: Dollars per Pound ------------- Dollars per Ton -------------
:
1998 : 1.40 .350 1,130.00 274.00 581.00 497.00
1997 : 1.56 .380 1,100.00 262.00 598.00 448.00
1996 : 2.08 .400 1,090.00 281.00 536.00 650.00
1995 : 2.48 .400 780.00 234.00 424.00 523.00
1994 : 1.34 .370 750.00 229.00 378.00 515.00
1993 : 1.94 .380 790.00 255.00 361.00 574.00
------------------------------------------------------------------------------
: : Kiwi- : : : Macadamia : :
Year : Figs : fruit : Nectarines : Olives : Nuts : Papayas : Coffee
------------------------------------------------------------------------------
: --------- Dollars per Ton ------------ --- Dollars per Pound ---
:
1998 : 248.00 744.00 472.00 459.00 .650 .316 3.00
1997 : 265.00 518.00 375.00 642.00 .750 .489 3.00
1996 : 283.00 470.00 474.00 617.00 .780 .408 3.25
1995 : 314.00 459.00 534.00 646.00 .740 .364 3.00
1994 : 419.00 491.00 282.00 464.00 .690 .223 2.80
1993 : 401.00 370.00 500.00 467.00 .680 .215 2.25
------------------------------------------------------------------------------
Year : Pineapples : Plums : Prunes (Dried) : Walnuts : Pistachios : Taro
------------------------------------------------------------------------------
: ------------- Dollars per Ton -------------- Dollars per Pound
:
1998 : 279.00 529.00 836.00 1,010.00 1.030 .530
1997 : 283.00 312.00 798.00 1,430.00 1.130 .510
1996 : 276.00 420.00 839.00 1,580.00 1.160 .490
1995 : 253.00 950.00 1,040.00 1,400.00 1.090 .480
1994 : 216.00 321.00 1,090.00 1,030.00 .921 .460
1993 : 216.00 508.00 1,120.00 1,390.00 1.070 .460
------------------------------------------------------------------------------
1/ Prices for Bananas, Coffee, Papayas, Pineapples, Macadamia Nuts and Taro
are HI prices. Prices for Nectarines, Olives, Plums, Walnuts, Pistachios,
Almonds, Pomegranates, Prunes(Dried), Dates, Grapes, Figs and Kiwifruit
are CA prices.
Noncitrus Fruits and Nuts: Marketing Year Average Prices,
by State, 1996-1998, and United States, 1993-98
-----------------------------------------------------------------------------
: All Sweet Cherries : All Tart Cherries
State :---------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998
-----------------------------------------------------------------------------
: ------ Dollars per Ton ------- ------ Dollars per Pound -----
:
CA : 1,850.00 1,290.00 1,560.00
CO : .473 .560 .448
ID : 1,250.00 1,290.00 1,070.00
MI : 709.00 740.00 562.00 .160 .156 .140
MT : 1,420.00 954.00 1,080.00
NY : 1,420.00 1,720.00 2,070.00 .144 .173 .180
OR : 1,090.00 1,130.00 862.00 .206 .210 .127
PA : 2,240.00 2,380.00 2,320.00 .227 .258 .190
UT : 1,130.00 920.00 687.00 .127 .160 .160
WA : 1,780.00 1,430.00 1,330.00 .163 .100 .120
WI : .178 .174 .102
-----------------------------------------------------------------------------
Year : United States
-----------------------------------------------------------------------------
1998 : 1,090.00 .143
1997 : 1,250.00 .159
1996 : 1,470.00 .161
1995 : 1,260.00 .059
1994 : 1,040.00 .163
1993 : 1,190.00 .121
-----------------------------------------------------------------------------
: All Grapes : Cranberries
State :---------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998 1/
-----------------------------------------------------------------------------
: ----- Dollars per Ton ----- ------ Dollars per Barrel ------
:
AZ : 803.00 588.00 751.00
AR : 629.00 586.00 497.00
CA : 438.00 434.00 447.00
GA : 1,050.00 933.00 1,110.00
MA : 70.90 66.20
MI : 228.00 252.00 249.00
MO : 480.00 479.00 531.00
NJ : 61.80 56.60
NY : 257.00 284.00 305.00
NC : 757.00 968.00 1,030.00
OH : 244.00 286.00 314.00
OR : 1,020.00 1,120.00 1,180.00 60.50 55.70
PA : 237.00 257.00 267.00
SC : 1,090.00 1,220.00 1,520.00
WA : 401.00 390.00 482.00 61.00 55.70
WI : 63.80 65.00
-----------------------------------------------------------------------------
Year : United States
-----------------------------------------------------------------------------
1998 : 445.00 1/
1997 : 428.00 63.70
1996 : 429.00 65.90
1995 : 346.00 53.40
1994 : 321.00 49.30
1993 : 333.00 50.20
-----------------------------------------------------------------------------
1/ Prices for 1998 will be published in "Cranberries", August 17, 1999.
Noncitrus Fruits: Marketing Year Average Prices,
by State 1997-98 and United States, 1993-98
------------------------------------------------------------------------------
: Apricots : Prunes and Plums
States :----------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Ton
:
CA : 403.00 308.00 311.00
ID : 596.00 517.00 553.00
MI : 335.00 348.00 300.00
OR : 354.00 238.00 274.00
UT : 859.00 492.00 728.00
WA : 1,420.00 751.00 637.00 448.00 184.00 219.00
------------------------------------------------------------------------------
Year : United States : 4 State Total
------------------------------------------------------------------------------
1998 : 327.00 311.00
1997 : 332.00 273.00
1996 : 444.00 442.00
1995 : 456.00 313.00
1994 : 349.00 168.00
1993 : 398.00 183.00
------------------------------------------------------------------------------
: All Blueberries : All Boysenberries : All Red Raspberries
State :----------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998 : 1996 : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Pound
:
AL : .885 .906 1.260
AR : 1.480 .998 1.000
CA 1/ : .937 .667 .792 1.710 1.390 1.920
FL : 2.160 2.520 3.120
GA : .803 .718 .770
IN : .879 .854 .880
MI : .865 .695 .618
NJ : .971 .999 .788
NY : 1.020 1.070 1.030
NC : 1.010 1.170 .913
OR : .750 .733 .502 1.040 .549 .450 .850 .551 .453
WA : .689 .892 .625 .744 .471 .376
:
US : .907 .831 .725 1.010 .579 .525 .772 .489 .391
------------------------------------------------------------------------------
1/ CA prices in the All Red Raspberries columns are for all CA raspberries,
regardless of color, and are not in the U.S. average price for All Red
Raspberries.
Noncitrus Fruits: Marketing Year Average Prices, Oregon, 1996-98
------------------------------------------------------------------------------
: All Blackberries : All Loganberries : All Black Raspberries
State :----------------------------------------------------------------------
: 1996 : 1997 : 1998 : 1996 : 1997 : 1998 : 1996 : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Pound
:
OR : .886 .403 .448 .988 1.190 .864 1.670 1.900 2.100
------------------------------------------------------------------------------
Oranges: Marketing Year Average Prices Received,
Crop Years 1995-96 and 1996-97
---------------------------------------------------------------------------
: 1995-96 : 1996-97
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.: F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. :On-Tree: Packed : P.H.D. :On-Tree
---------------------------------------------------------------------------
: Dollars per box
AZ :
Navel & Misc. : 6.72 4.74 8.88 6.90
Fresh : 14.70 8.68 6.70 16.50 10.48 8.50
Processing : -0.48 -2.46 -0.20 -2.18
Valencias : 4.12 2.03 5.28 3.20
Fresh : 11.50 5.60 3.52 11.20 5.30 3.22
Processing : -0.48 -2.56 1.20 -0.88
All : 5.22 3.18 6.72 4.68
Fresh : 12.90 6.94 4.90 13.10 7.18 5.14
Processing : -0.48 -2.52 -0.13 -2.13
:
CA :
Navel & Misc. : 7.35 5.37 9.35 7.37
Fresh : 15.80 9.78 7.80 16.80 10.78 8.80
Processing : -0.48 -2.46 0.36 -1.62
Valencias : 10.51 8.43 8.77 6.69
Fresh : 19.60 13.70 11.62 17.20 11.30 9.22
Processing : -0.48 -2.56 2.61 0.53
All : 8.44 6.43 9.13 7.11
Fresh : 17.10 11.15 9.13 16.90 10.95 8.94
Processing : -0.48 -2.49 1.62 -0.42
:
CA-AZ 1/ :
Navel & Misc. : 15.80 9.76 7.78 16.80 10.78 8.80
Valencias : 19.20 13.34 11.26 17.00 11.10 9.02
:
FL :
Early/Mids. : 5.67 3.62 5.08 3.18
Fresh : 14.00 7.00 4.95 13.40 6.40 4.50
Processing : 5.59 3.54 5.01 3.11
Valencias : 7.67 5.57 6.01 4.07
Fresh : 15.50 8.50 6.45 13.60 6.60 4.70
Processing : 7.63 5.53 5.99 4.04
All : 6.47 4.40 5.46 3.54
Fresh : 14.50 7.51 5.46 13.50 6.47 4.57
Processing : 6.42 4.35 5.41 3.49
:
TX :
Early/Mids. : 7.62 6.48 5.16 3.88
Fresh : 16.20 8.60 7.45 15.00 6.20 4.90
Processing : 2.96 1.86 3.13 1.88
Valencias : 8.95 7.80 7.12 5.83
Fresh : 17.00 9.40 8.25 16.60 7.80 6.50
Processing : 3.10 2.00 4.37 3.12
All : 7.78 6.64 5.33 4.04
Fresh : 16.30 8.70 7.55 15.20 6.36 5.06
Processing : 2.97 1.87 3.19 1.94
:
US :
Early/Mids. & :
Navels : 6.03 4.00 5.93 4.02
Fresh : 15.40 9.16 7.19 16.10 9.83 7.88
Processing : 5.21 3.16 4.84 2.94
Valencias : 8.11 6.02 6.50 4.53
Fresh : 18.50 12.36 10.29 16.30 10.22 8.17
Processing : 7.24 5.14 5.78 3.82
All : 6.85 4.79 6.16 4.22
Fresh : 16.50 10.27 8.27 16.20 9.96 7.98
Processing : 6.03 3.96 5.23 3.31
------------------------------------------------------------------------------
1/ Fresh only.
Oranges: Marketing Year Average Prices Received,
Crop Year 1997-98
---------------------------------------------------------------------------
: 1997-98
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. : On-Tree
---------------------------------------------------------------------------
: Dollars per box
AZ :
Navel & Misc. : 5.46 3.48
Fresh : 14.20 8.18 6.20
Processing : -0.10 -2.08
Valencias : 5.28 3.20
Fresh : 11.20 5.30 3.22
Processing : 1.89 -0.19
All : 5.35 3.30
Fresh : 12.00 6.07 4.01
Processing : -0.05 -2.03
:
CA :
Navel & Misc. : 8.84 6.86
Fresh : 16.60 10.58 8.60
Processing : 0.36 -1.62
Valencias : 9.33 7.25
Fresh : 17.00 11.10 9.02
Processing : 2.23 0.15
All : 9.04 7.02
Fresh : 16.80 10.79 8.77
Processing : 1.19 -0.83
:
CA-AZ 1/ :
Navel & Misc. : 16.60 10.56 8.58
Valencias : 16.80 10.95 8.87
:
FL :
Early/Mids. : 4.24 2.48
Fresh : 12.70 5.60 3.70
Processing : 4.16 2.41
Valencias : 6.99 5.14
Fresh : 13.20 6.10 4.20
Processing : 7.02 5.17
All : 5.41 3.61
Fresh : 12.90 5.76 3.86
Processing : 5.39 3.60
:
TX :
Early/Mids. : 3.67 2.38
Fresh : 12.90 4.10 2.80
Processing : 2.49 1.24
Valencias : 5.51 4.22
Fresh : 14.50 5.70 4.40
Processing : 4.69 3.44
All : 3.88 2.59
Fresh : 13.10 4.30 3.00
Processing : 2.67 1.42
:
US :
Early/Mids. & :
Navels : 5.18 3.38
Fresh : 15.70 9.44 7.50
Processing : 3.98 2.22
Valencias : 7.43 5.53
Fresh : 16.30 10.20 8.15
Processing : 6.79 4.93
All : 6.13 4.29
Fresh : 16.00 9.73 7.75
Processing : 5.19 3.39
------------------------------------------------------------------------------
1/ Fresh only.
Grapefruit: Marketing Year Average Prices Received,
Crop Years 1995-96 and 1996-97
---------------------------------------------------------------------------
: 1995-96 : 1996-97
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.: F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. :On-Tree: Packed : P.H.D. :On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
AZ : 3.70 1.76 2.99 1.05
Fresh : 11.50 6.06 4.12 11.50 6.06 4.12
Processing : -0.28 -2.22 -0.42 -2.36
:
CA : 6.38 4.44 5.97 4.03
Fresh : 14.20 8.76 6.82 13.90 8.46 6.52
Processing : -0.43 -2.37 -0.41 -2.35
:
CA-AZ :
Fresh : 13.90 8.46 6.52 13.70 8.28 6.34
:
FL :
Seedless-Clrd : 3.83 1.77 4.07 1.91
Fresh : 12.30 4.81 2.96 12.70 5.12 3.26
Processing : 2.33 -0.06 2.74 0.20
Seedless-Whte : 4.31 2.14 3.38 1.18
Fresh : 16.20 7.80 5.88 15.60 7.16 5.23
Processing : 3.13 0.88 2.18 -0.10
Seedless-All : 4.05 1.94 3.78 1.60
Fresh : 13.30 5.58 3.71 13.40 5.62 3.74
Processing : 2.82 0.51 2.42 0.03
Other : 3.43 1.73 1.93 0.13
Fresh 1/ :
Processing : 3.43 1.73 1.93 0.13
All : 4.03 1.93 3.75 1.58
Fresh : 13.30 5.58 3.71 13.40 5.62 3.74
Processing : 2.84 0.56 2.41 0.03
:
TX : 4.67 3.69 4.17 3.03
Fresh : 13.70 6.22 5.22 14.00 5.30 4.15
Processing : 1.61 0.66 1.50 0.40
:
US : 4.31 2.30 3.98 1.91
Fresh : 13.40 6.13 4.33 13.50 6.00 4.20
Processing : 2.59 0.38 2.21 -0.09
------------------------------------------------------------------------------
1/ Fresh sales insignificant and included in processed.
Grapefruit: Marketing Year Average Prices Received,
Crop Year 1997-98
---------------------------------------------------------------------------
: 1997-98
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. : On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
AZ : 4.70 2.76
Fresh : 13.20 7.76 5.82
Processing : -0.26 -2.20
:
CA : 6.64 4.70
Fresh : 15.70 10.26 8.32
Processing : -0.26 -2.20
:
CA-AZ :
Fresh : 15.50 10.07 8.13
:
FL :
Seedless-Clrd : 3.10 0.86
Fresh : 12.40 4.71 2.85
Processing : 1.25 -1.42
Seedless-Whte : 2.84 0.52
Fresh : 15.90 7.31 5.38
Processing : 1.23 -1.23
Seedless-All : 3.00 0.73
Fresh : 13.20 5.30 3.43
Processing : 1.24 -1.33
Other : 1.50 -0.30
Fresh 1/ :
Processing : 1.50 -0.30
All : 2.98 0.72
Fresh : 13.20 5.30 3.43
Processing : 1.25 -1.30
:
TX : 4.70 3.57
Fresh : 14.60 5.90 4.75
Processing : 1.50 0.40
:
US : 3.55 1.41
Fresh : 13.70 6.18 4.38
Processing : 1.13 -1.31
------------------------------------------------------------------------------
1/ Fresh sales insignificant and included in processed.
Lemons, Limes, Tangelos, Tangerines, and Temples: Marketing Year
Average Prices Received, Crop Years 1995-96 and 1996-97
---------------------------------------------------------------------------
: 1995-96 : 1996-97
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.: F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. :On-Tree: Packed : P.H.D. :On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
Lemons :
AZ : 8.38 4.74 10.88 7.24
Fresh : 22.30 13.86 10.22 25.10 16.66 13.02
Processing : 1.88 -1.76 3.02 -0.62
CA : 10.41 6.77 12.13 8.49
Fresh : 26.90 18.46 14.82 29.30 20.86 17.22
Processing : 1.88 -1.76 3.02 -0.62
US : 10.01 6.37 12.00 8.36
Fresh : 26.00 17.52 13.88 28.80 20.38 16.74
Processing : 1.88 -1.76 3.02 -0.62
:
:
Limes :
FL : 13.05 8.05 11.93 6.93
Fresh : 26.10 15.60 10.60 25.00 14.50 9.50
Processing : 2.83 -2.17 1.81 -3.19
:
:
Tangelos :
FL : 6.16 3.63 4.75 2.19
Fresh : 15.20 7.80 5.35 13.90 6.50 4.05
Processing : 5.00 2.40 4.13 1.53
:
:
Tangerines :
AZ : 10.80 8.72 15.21 13.13
Fresh : 20.10 14.20 12.12 22.80 16.90 14.82
Processing : -0.32 -2.40 -0.28 -2.36
:
CA : 10.84 8.76 15.11 13.03
Fresh : 21.70 15.80 13.72 24.50 18.60 16.52
Processing : -0.32 -2.40 -0.28 -2.36
:
FL : 15.91 12.59 11.35 7.99
Fresh : 28.90 20.35 17.15 24.50 15.95 12.75
Processing : 5.61 2.01 4.56 0.96
:
US : 13.94 11.10 12.42 9.42
Fresh : 25.90 18.38 15.62 24.40 16.78 13.97
Processing : 3.38 0.35 3.87 0.49
:
:
Temples :
FL : 6.52 4.44 5.23 3.22
Fresh : 14.60 7.60 5.55 15.70 8.70 7.00
Processing : 6.01 3.91 4.18 2.08
------------------------------------------------------------------------------
Lemons, Limes, Tangelos, Tangerines, and Temples: Marketing Year
Average Prices Received, Crop Year 1997-98
---------------------------------------------------------------------------
: 1997-98
State, Variety, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. : On-Tree
---------------------------------------------------------------------------
: Dollars per box
Lemons :
AZ : 9.16 5.52
Fresh : 23.30 14.86 11.22
Processing : 2.20 -1.44
CA : 9.97 6.33
Fresh : 27.20 18.76 15.12
Processing : 2.18 -1.46
US : 9.88 6.24
Fresh : 26.70 18.29 14.65
Processing : 2.18 -1.46
:
:
Limes :
FL : 10.02 5.02
Fresh : 23.00 12.50 7.50
Processing : 2.59 -2.41
:
:
Tangelos :
FL : 4.03 1.49
Fresh : 13.80 6.30 3.90
Processing : 2.96 0.36
:
:
Tangerines :
AZ : 12.53 10.45
Fresh : 21.50 15.60 13.52
Processing : 0.00 -2.08
:
CA : 11.58 9.50
Fresh : 22.70 16.80 14.72
Processing : 0.02 -2.06
:
FL : 11.75 8.41
Fresh : 24.30 15.70 12.50
Processing : 4.10 0.50
:
US : 11.75 8.81
Fresh : 23.70 15.97 13.14
Processing : 2.96 -0.21
:
:
Temples :
FL : 4.89 2.84
Fresh : 13.60 6.50 4.60
Processing : 4.35 2.25
------------------------------------------------------------------------------
K-Early Citrus: Marketing Year Average Prices Received,
Crop Years 1995-96 and 1996-97
---------------------------------------------------------------------------
: 1995-96 : 1996-97
State and :-------------------------------------------------------
Utilization : F.O.B. : Equiv. : Equiv.: F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. :On-Tree: Packed : P.H.D. :On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
K-Early Citrus :
FL : 4.82 2.28 3.95 1.40
Fresh : 15.10 7.70 5.25 13.70 6.30 3.85
Processing : 3.00 0.40 2.50 -0.10
------------------------------------------------------------------------------
Florida Grapefruit: Marketing Year Average Prices Received,
Crop Years 1995-96 and 1996-97
---------------------------------------------------------------------------
: 1995-96 : 1996-97
Variety, Area, :-------------------------------------------------------
and Utilization : F.O.B. : Equiv.: Equiv. : F.O.B. : Equiv.: Equiv.
: Packed : P.H.D :On-Tree : Packed : P.H.D.: On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
White Seedless :
Interior : 3.36 1.47 2.60 0.65
Fresh : 12.30 5.35 3.55 13.50 6.60 4.80
Processing : 3.12 1.22 2.18 0.22
:
Indian River : 4.95 2.59 3.86 1.52
Fresh : 17.00 8.30 6.35 16.00 7.30 5.35
Processing : 3.13 0.55 2.19 -0.34
:
Colored Seedless :
Interior : 3.99 2.05 4.34 2.30
Fresh : 11.70 5.25 3.50 12.30 5.80 4.05
Processing : 2.33 0.14 2.70 0.34
:
Indian River : 3.78 1.65 3.92 1.72
Fresh : 12.60 4.65 2.75 12.80 4.80 2.90
Processing : 2.34 -0.16 2.75 0.13
------------------------------------------------------------------------------
K-Early Citrus: Marketing Year Average Prices Received,
Crop Year 1997-98
---------------------------------------------------------------------------
: 1997-98
State and :-------------------------------------------------------
Utilization : F.O.B. : Equiv. : Equiv.
: Packed : P.H.D. : On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
K-Early Citrus :
FL : 1.00 -145
Fresh : 8.00 0.50 -1.90
Processing : 2.50 -0.10
------------------------------------------------------------------------------
Florida Grapefruit: Marketing Year Average Prices Received,
Crop Year 1997-98
---------------------------------------------------------------------------
: 1997-98
Variety, Area, :-------------------------------------------------------
and : F.O.B. : Equiv. : Equiv.
Utilization : Packed : P.H.D : On-Tree
---------------------------------------------------------------------------
: Dollars per box
:
White Seedless :
Interior : 1.65 -0.25
Fresh : 12.90 5.80 4.00
Processing : 1.22 -0.69
:
Indian River : 3.47 0.93
Fresh : 16.40 7.60 5.65
Processing : 1.23 -1.62
:
Colored Seedless :
Interior : 3.18 1.11
Fresh : 12.00 5.40 3.65
Processing : 1.25 -1.11
:
Indian River : 3.09 0.78
Fresh : 12.60 4.50 2.60
Processing : 1.25 -1.60
------------------------------------------------------------------------------
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
Asparagus :
MI : 69.00 67.00 71.00 79.00 80.00 65.00
NJ : 101.00 98.00 112.00 107.00 107.00 84.20
WA : 102.00 98.00 109.00 114.00 108.00 101.00
Oth Sts 1/ : 94.80 101.00 116.00 85.50 109.00 139.00
US : 95.70 100.00 113.00 92.90 108.00 126.00
:
Broccoli :
AZ : 31.30 21.10 38.30 25.70 35.70 35.80
CA 2/ : 26.20 28.10 28.50
Oth Sts 3/ : 32.50 23.80 37.70 27.20 28.40 30.40
US : 26.60 27.50 29.30 27.10 29.10 30.80
:
Carrots :
AZ : 11.30 11.70 17.60 12.70 13.30 12.50
CA : 11.10 12.70 16.60 13.60 13.00 11.50
CO : 8.60 10.00 13.50 7.10 10.00 10.60
FL : 16.70 12.70 20.90 14.90 13.60 16.20
MI : 12.30 15.10 16.80 11.80 12.50 13.10
MN : 10.00 14.90 16.60 12.50 8.60 56.00
NY : 16.00 16.00 14.00 15.00 16.00 16.00
TX : 14.60 11.50 19.80 15.30 17.30 20.50
WA : 13.60 17.40 16.80 15.00 14.00 14.10
Oth Sts 4/ : 22.90 21.70 20.40 13.90 13.50 16.00
US : 11.70 12.90 16.70 13.40 12.90 12.30
:
Cauliflower :
AZ : 32.50 26.00 36.70 33.00 33.20 45.80
Oth Sts 5/ : 30.70 29.10 34.30 33.70 30.90 34.60
US : 30.90 28.70 34.60 33.60 31.20 36.20
:
Celery 6/ :
CA : 14.70 11.80 16.50 10.60 14.80 12.10
MI : 12.40 13.20 13.60 11.10 13.30 12.70
NY 7/ : 36.90
OH 8/ : 12.10 11.40 13.30 12.20 24.00
TX : 20.60 9.50 13.80 7.30 12.70 13.90
US : 14.80 11.80 16.30 10.50 14.70 12.20
----------------------------------------------------------------------------
1/ CA, IL, IN, MD, MN and OR.
2/ Combined with other states after 1995.
3/ 1991-95:OR and TX; 1996-98:CA and TX.
4/ 1991-94:NJ, OH and WI; 1995-98:NJ, OH and OR.
5/ 1991-94; MI, NY, OR and TX. 1995-98; CA, MI, NY, OR and TX.
6/ Includes processing.
7/ Estimates discontinued beginning 1994.
8/ Estimates discontinued beginning 1998.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
Sweet Corn :
AL : 12.00 15.00 15.70 13.30 17.00 16.00
CA : 17.80 18.30 18.70 17.60 17.20 15.80
CO : 10.50 10.80 8.60 9.20 8.70 11.00
CT : 27.50 25.00 28.00 27.00 24.00 27.00
FL : 20.60 19.60 22.30 17.90 21.30 18.30
GA : 14.90 16.50 12.50 11.10 10.70 12.90
IL : 14.40 14.00 15.30 14.80 14.60 17.60
IN : 18.30 18.80 18.60 20.20 21.70 21.10
ME : 26.90 29.90 29.00 30.00 33.00 33.00
MA : 25.00 27.00 27.00 28.00 26.00 30.00
MI : 16.20 15.00 15.70 17.00 17.80 17.20
NH : 31.00 32.00 33.00 32.00 36.00 38.00
NJ : 19.00 16.90 16.60 21.90 20.10 19.40
NY : 11.90 12.70 18.90 14.80 14.90 18.10
NC : 17.80 15.30 14.70 13.50 13.50 13.40
OH : 16.30 14.50 18.50 17.10 17.40 18.60
OR : 22.10 16.80 16.80 13.00 14.00 11.00
PA : 19.70 17.80 19.50 20.50 28.30 29.50
RI : 21.00 29.00 27.00 26.00 27.00 33.00
TX : 18.00 10.80 16.00 10.00 14.80 19.50
VT : 25.50 26.00 25.00 28.00 26.00 28.00
VA : 13.00 23.50 17.70 16.80 17.80 34.00
WA : 11.90 10.80 12.00 15.00 11.10 13.20
WI 1/ : 13.50 12.00 13.70 13.40 15.40
US : 17.80 17.20 18.30 16.90 17.70 17.60
:
Honeydew- :
Melons :
AZ : 21.60 18.70 24.10 17.20 18.50 15.20
CA : 16.70 16.10 18.70 16.50 18.50 19.30
TX : 21.50 16.40 24.60 19.30 22.60 38.10
US : 18.20 16.40 20.60 17.00 18.90 20.30
:
Lettuce :
AZ :
Yuma : 14.40 9.20 20.70 13.10 11.60 16.20
Other : 12.80 15.20 29.00 13.60 18.00 23.60
CA : 16.50 14.60 25.00 15.40 19.40 14.70
CO : 10.80 8.90 7.70 7.00 14.60 10.80
FL 2/ : 19.30 10.10
NJ : 20.10 26.60 24.30 22.60 27.10 32.20
NM : 13.50 18.90 14.90 12.40 22.40 9.35
NY : 15.70 15.90 15.50 13.00 15.00 20.00
TX 3/ : 10.00
WA : 13.80 12.00 16.80 10.00 15.10 14.30
US 4/ : 16.00 13.30 23.50 14.70 17.60 15.20
----------------------------------------------------------------------------
1/ Estimates began with the 1994 crop.
2/ Estimates discontinued after the 1994 crop.
3/ Estimates discontinued after the 1993 crop.
4/ Excludes Hawaii.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
:
Onions :
AZ :
Spring : 16.40 7.70 7.90 8.60 1260 15.30
CA :
Spring : 18.00 8.00 14.00 9.80 14.30 14.10
Summer 1/ : 8.00 6.30 7.20 7.70 7.84 9.20
CO : 21.70 13.20 11.20 13.60 12.50 16.20
GA :
Spring : 29.70 20.70 28.10 30.50 25.60 30.90
ID, E-OR : 19.60 13.10 8.20 10.20 12.60 14.40
MI : 14.40 8.60 9.20 10.80 8.90 11.00
MN : 10.50 5.70 9.10 8.00 8.13 8.00
NM :
Non-Strg : 10.80 9.70 12.90 13.70 14.40 13.00
NV : 27.00 14.00 13.00 14.50 14.50 14.00
NY : 21.40 13.00 13.80 9.80 12.70 16.30
OH : 14.40 10.40 10.40 8.00 9.00 9.30
OR- Malheur : 19.60 13.10 8.40 10.10 12.60 13.00
OR- West : 22.00 12.20 11.00 9.10 15.60 13.40
TX :
Spring : 26.20 10.70 19.20 9.70 16.90 21.70
Non-Strg : 19.00 17.30 13.30 12.90 14.00 23.40
UT : 17.70 9.10 6.40 8.00 8.84 11.00
WA :
Storage : 21.00 13.10 7.80 9.14 12.10 11.50
Non-Strg : 19.50 17.70 15.40 21.20 17.40 26.00
WI : 13.90 5.30 7.90 10.50 6.00 7.60
:
US :
All : 14.30 9.80 9.90 10.50 12.60 13.80
Spring : 22.40 11.30 18.60 13.20 18.40 20.00
Summer 2/ : 12.80 9.50 8.20 9.95 11.40 12.60
Storage 3/: 15.50 10.50 8.90 9.39 12.30 13.30
Non-Strg : 14.20 12.00 13.10 14.10 14.50 15.90
----------------------------------------------------------------------------
1/ Summer crop primarily processing.
2/ Includes CA storage onions.
3/ Excludes CA storage onions.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
:
Strawberries :
AR : 55.00 65.00 70.00 75.00 85.00 65.00
CA : 46.80 59.10 57.40 52.50 61.40 55.80
FL :
Winter : 74.70 60.30 70.60 72.20 82.60 100.00
LA : 49.00 47.00 57.00 61.00 60.00 70.00
MI : 74.40 70.00 71.00 78.00 80.00 74.60
NJ : 85.50 54.20 60.30 68.80 83.30 44.20
NY : 136.00 112.00 107.00 120.00 101.00 115.00
NC : 60.70 60.10 64.10 67.00 70.00 75.00
OH : 74.00 80.00 84.00 89.00 93.00 100.00
OR : 65.00 65.00 60.40 75.30 86.00 51.00
PA : 108.00 95.00 90.00 97.00 77.30 109.00
WA : 78.00 77.00 69.00 85.00 96.00 50.30
WI : 80.00 86.00 94.00 98.00 102.00 108.00
US : 54.00 60.20 60.40 5650 65.60 60.90
:
Tomatoes :
AL : 27.80 19.20 25.10 22.00 24.00 31.00
AR : 23.00 31.00 42.00 38.00 34.00 34.50
CA : 26.30 24.80 18.70 24.80 26.50 32.80
FL : 35.40 27.40 27.60 30.90 35.50 36.70
GA : 26.00 27.00 31.00 24.30 25.70 31.50
IN : 37.80 38.00 40.90 46.20 43.80 52.00
LA : 37.00 40.00 37.00 40.00 50.00 45.00
MD : 30.00 32.30 41.00 35.00 28.00 32.00
MA : 60.00 60.00 75.00 85.00 80.00 100.00
MI : 32.30 31.40 30.40 24.20 24.20 38.50
NJ : 32.30 44.20 33.00 33.80 36.70 39.20
NY : 36.00 36.90 24.60 22.10 29.10 29.00
NC : 20.90 22.80 19.90 27.00 24.50 27.00
OH : 35.80 30.50 28.40 26.60 46.00 38.70
PA : 21.50 20.00 18.50 19.50 25.00 26.00
SC : 35.00 34.00 33.00 33.00 35.10 27.00
TN : 27.00 27.00 21.00 24.00 27.00 38.00
TX : 26.00 21.60 28.00 18.00 34.00 37.80
VA : 33.50 31.10 31.00 24.70 33.80 35.00
US 1/ : 31.50 27.40 25.50 28.10 31.70 35.00
----------------------------------------------------------------------------
1/ Excludes Hawaii.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
:
Snap Beans :
CA : 49.90 57.20 50.20 47.80 52.00 62.90
FL : 46.70 46.70 37.40 52.10 49.90 59.00
GA : 25.00 28.00 28.00 32.00 30.00 28.00
MD : 33.00 32.00 36.50 27.00 30.00 40.00
MI : 29.00 23.80 27.10 38.20 29.80 61.00
NJ : 27.70 34.00 35.00 32.80 33.60 37.00
NY : 28.70 28.10 38.50 49.30 54.80 50.60
NC : 26.00 29.00 29.00 30.00 25.00 30.00
OH : 34.90 27.30 37.00 28.50 31.00 29.30
SC : 38.00 38.50 42.60 45.00 36.00 46.00
TN : 24.30 28.60 29.20 29.10 26.50 31.40
VA : 23.80 26.20 26.80 20.50 18.40 21.00
:
Total : 37.40 37.70 36.50 41.90 40.50 48.20
:
HI : 90.50 102.00 100.00 100.00 105.00 81.00
:
US : 37.40 37.70 36.50 42.00 40.60 48.20
:
Cabbage :
CA : 13.70 13.40 15.50 12.60 14.90 16.10
CO : 8.90 7.80 6.20 8.50 7.20 8.20
FL : 14.90 10.50 9.00 11.20 14.50 13.00
GA : 9.80 9.00 12.00 10.60 8.00 8.30
IL : 8.80 9.10 6.70 8.70 9.00 8.25
MD : 20.00 13.20 20.00 24.00 14.00 13.00
MI : 9.60 8.80 12.00 9.00 7.80 13.30
NJ : 14.00 11.30 11.80 15.30 12.40 14.20
NY 1/ : 8.90 8.50 8.90 8.10 9.70 11.90
L I : 10.70
UPST : 8.75
NC : 9.00 9.50 8.50 9.00 8.50 9.50
OH : 12.30 9.10 10.50 12.00 11.00 12.20
PA : 11.80 10.50 11.50 10.50 13.00 14.00
TX : 13.80 7.40 15.00 10.00 11.70 20.40
VA : 6.50 7.60 9.20 9.00 8.00 8.00
WI : 5.60 3.90 7.40 4.80 6.90 6.85
:
Total : 11.40 9.30 11.50 10.10 11.00 13.10
:
HI : 19.00 21.00 21.50 18.00 21.00 18.00
:
US : 11.40 9.30 11.50 10.20 11.10 13.10
:
Cantaloups :
AZ : 17.10 17.80 20.10 20.80 19.20 14.90
CA : 15.30 15.90 17.30 17.90 17.70 18.00
CO : 9.70 12.80 12.30 10.80 15.00 13.40
GA : 8.30 7.50 14.00 11.90 11.70 16.80
IN : 13.60 11.60 12.20 14.60 16.00 16.80
MD : 22.00 25.00 27.00 31.00 21.00 20.00
MI : 17.00 15.60 16.30 17.00 19.80 19.00
OH : 13.10 12.20 12.50 14.80 17.00 18.20
PA : 17.80 19.20 17.50 16.50 16.50 17.00
TX : 17.40 22.20 23.20 18.70 20.00 31.90
US : 15.60 16.50 18.20 18.20 18.00 18.50
----------------------------------------------------------------------------
1/ Estimates by production area discontinued beginning 1994.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
--------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
--------------------------------------------------------------------------
: Dollars per Cwt
:
Watermelons :
AL : 5.50 4.80 7.30 4.00 6.10 7.20
AZ : 7.30 5.60 11.40 7.20 7.80 8.00
AR : 4.90 4.70 8.00 6.00 5.00 6.50
CA : 8.00 9.90 14.30 10.50 10.90 12.30
DE : 6.00 4.40 8.40 5.20 5.20 8.50
FL : 8.00 6.80 7.60 7.00 7.30 8.35
GA : 450 5.00 6.60 4.00 5.50 5.00
IN : 4.60 4.50 5.70 4.60 5.90 7.10
LA : 5.20 5.30 6.60 5.10 7.00 6.20
MD : 7.00 5.60 10.00 9.00 8.00 8.00
MS : 5.00 5.50 7.70 4.70 6.10 6.26
MO : 4.00 3.90 6.00 3.20 4.90 5.30
NC : 5.10 5.00 6.10 4.50 5.50 5.70
OK : 5.90 5.00 7.00 5.90 6.50 7.20
SC : 5.00 4.80 5.00 4.00 6.50 6.00
TX : 8.40 7.70 10.10 5.50 7.90 5.46
:
Total : 6.90 6.80 8.90 6.30 7.60 7.66
:
HI : 16.00 16.00 16.00 16.50 18.00 21.00
:
US : 6.90 6.80 8.90 6.30 7.60 7.71
:
Cucumbers :
CA : 27.10 24.90 25.90 28.20 24.70 29.80
FL : 19.80 14.00 12.40 19.30 20.00 19.10
GA : 13.00 18.00 15.00 13.60 12.20 13.90
MD : 16.00 15.20 21.50 25.00 21.00 17.00
MI : 13.00 11.20 18.00 15.20 14.10 17.30
NJ : 16.90 17.50 17.80 15.90 16.80 19.30
NY : 12.10 14.70 15.10 17.30 21.40 19.30
NC : 11.50 11.00 12.50 13.00 10.00 13.50
SC : 21.00 22.60 24.20 23.00 25.00 28.00
TX : 12.00 15.00 10.90 13.50 14.50 23.80
VA : 11.20 11.90 13.90 12.50 11.50 22.00
:
Total : 18.00 15.90 16.40 18.90 17.60 19.40
:
HI : 46.00 45.50 47.00 43.00 40.00 41.00
:
US : 18.10 16.00 16.50 19.00 17.70 19.50
:
Bell Peppers :
CA : 27.50 25.90 27.10 22.70 24.60 27.20
FL : 36.90 34.30 37.50 36.40 42.60 43.60
KY 1/ : 14.50 15.00
LA : 23.50 23.00 30.00 24.00 25.00 23.00
MI : 22.40 20.80 22.70 18.40 20.90 24.00
NJ : 25.70 27.90 28.80 25.30 26.40 29.70
NC : 20.00 20.50 22.50 21.00 25.00 24.00
OH : 2390 23.60 30.60 23.20 30.50 26.90
TX : 23.20 46.20 45.30 32.30 34.60 36.00
VA : 24.50 25.20 26.70 18.00 28.00 38.00
:
Total : 30.30 29.50 31.40 28.00 32.10 33.80
:
HI 2/ : 57.00 53.00 53.00
:
US : 30.30 29.70 31.40 28.00 32.10 33.80
--------------------------------------------------------------------------
1/ Estimates discontinued beginning 1995.
2/ Estimates discontinued beginning 1996.
Vegetables for Fresh Market: Marketing Year Average Prices,
by State and United States, 1993-1998
----------------------------------------------------------------------------
Commodity : : : : : :
and : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
State : : : : : :
----------------------------------------------------------------------------
: Dollars per Cwt
:
Leaf Lettuce :
AZ : 44.10 23.00 49.10 36.00 31.70 21.00
CA : 27.70 28.10 31.90 25.10 28.30 30.80
FL : 27.90 20.80 44.70 29.60 29.50 46.00
OH : 24.40 19.90 24.20 24.70 25.50 26.10
US : 29.50 27.40 34.60 26.80 28.80 29.10
:
Romaine Lettuce :
AZ : 25.50 12.40 28.10 19.50 19.50 21.00
CA : 18.60 21.40 24.40 18.60 19.20 22.00
FL : 22.40 23.70 26.60 19.10 20.10 40.00
OH : 23.70 19.70 23.50 24.70 26.50 24.40
US : 19.80 20.10 25.20 18.90 19.40 22.10
:
Spinach :
CA : 31.00 30.80 34.50 30.90 31.20 36.10
CO : 29.10 30.00 25.00 28.60 32.00 40.00
MD : 42.00 22.00 37.40 15.00 41.00 35.00
NJ : 27.10 25.30 30.50 28.20 25.60 36.90
TX : 24.00 24.60 25.40 24.40 35.40 39.40
VA 1/ : 24.50 26.20 26.30
US : 30.30 29.40 32.20 29.30 31.30 36.50
:
Escarole/Endive :
FL : 26.80 30.20 29.50 19.00 25.00 35.00
NJ : 22.70 22.00 24.00 24.10 22.30 28.40
OH : 22.80 22.00 25.10 25.40 23.00 23.70
US : 24.90 26.20 27.50 21.90 23.80 31.30
:
Eggplant :
FL : 25.00 28.90 27.30 28.00 26.00 29.40
NJ : 20.20 22.00 18.50 23.60 17.60 25.30
US : 23.50 26.80 25.60 26.90 23.90 28.10
:
Lima Beans :
GA : 34.00 29.00 32.00 31.00 33.00 32.00
:
Artichokes :
CA : 50.80 56.40 75.70 73.50 79.50 69.10
:
Brussels Sprouts :
CA : 30.90 24.60 25.70 29.40 41.40 43.50
:
Garlic :
CA : 31.80 40.10 31.40 32.10 47.10 34.80
----------------------------------------------------------------------------
1/ Estimate discontinued beginning 1996.
Cattle: Marketing Year Average Prices Received
by States and United States, 1997-98
-------------------------------------------------------------------------------
: Cows 1/ : Steers & Heifers : All Beef 2/
State :---------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 34.60 33.70 67.20 65.20 57.60 56.00
AK : 55.00 57.00 76.00 78.00 62.00 64.00
AZ : 36.50 32.10 65.20 61.70 62.10 60.80
AR : 33.70 31.90 70.10 65.40 53.90 53.00
CA : 33.10 32.90 63.10 61.50 48.80 47.80
CO : 37.80 34.80 67.10 63.00 65.20 61.30
CT : 35.00 35.00 50.00 50.00 50.00 50.00
DE : 36.40 38.10 61.40 60.50 58.90 58.30
FL : 34.10 33.40 67.50 65.50 42.20 39.00
GA : 33.30 33.10 66.20 63.10 44.50 43.30
HI : 28.80 27.20 47.10 47.50 37.70 37.30
ID : 32.60 31.90 64.90 62.70 56.80 55.10
IL : 36.60 33.60 65.10 60.60 64.50 60.10
IN : 37.90 34.30 64.50 59.30 55.80 51.30
IA : 37.40 35.20 66.70 61.90 62.00 59.80
KS : 36.20 33.00 66.30 63.10 65.50 62.30
KY : 34.80 34.80 66.90 66.60 59.20 59.00
LA : 34.50 33.80 69.20 65.50 45.60 44.10
ME : 40.00 40.00 55.00 55.00 55.00 55.00
MD : 36.40 38.10 61.40 60.50 58.90 58.30
MA : 35.00 35.00 50.00 50.00 50.00 50.00
MI : 35.80 34.40 60.60 55.40 50.80 47.70
MN : 34.40 34.50 64.00 61.30 61.10 57.30
MS : 34.50 33.60 66.50 60.80 48.00 46.00
MO : 35.00 33.80 73.90 70.70 64.40 62.30
MT : 36.60 34.40 7700 73.10 64.50 62.00
NE : 36.60 34.20 67.60 62.70 66.70 61.80
NV : 37.40 35.40 63.70 64.00 57.10 57.00
NH : 30.00 30.00 55.00 50.00 50.00 45.00
NJ : 34.00 34.00 50.00 51.00 38.00 38.00
NM : 40.00 37.00 72.70 71.90 59.50 58.00
NY : 32.80 32.30 50.30 48.70 34.50 33.80
NC : 35.50 34.00 68.20 68.20 50.70 50.10
ND : 34.90 35.50 70.50 70.00 60.10 61.40
OH : 33.40 32.90 63.60 61.10 60.50 58.40
OK : 35.90 33.10 73.60 71.50 68.00 65.30
OR : 37.40 35.90 69.20 67.70 59.60 58.10
PA : 34.00 34.50 63.60 59.60 56.00 53.10
RI : 30.00 40.00 55.00 55.00 50.00 55.00
SC : 36.10 29.20 59.50 59.30 54.00 52.40
SD : 33.00 34.10 71.60 65.10 64.70 61.80
TN : 33.70 32.90 69.00 67.70 55.40 53.30
TX : 34.10 32.10 67.70 63.70 65.00 61.10
UT : 37.00 34.00 68.00 65.00 65.00 63.00
VT : 35.00 35.00 50.00 45.00 50.00 45.00
VA : 31.00 31.00 65.50 63.00 59.20 57.00
WA : 34.70 33.40 69.80 66.40 65.90 62.80
WV : 29.40 29.10 64.40 62.20 48.20 46.90
WI : 36.10 34.40 62.90 58.20 47.40 44.40
WY : 36.20 34.80 76.50 71.80 70.70 64.60
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 33.70 62.80 59.60
1997 : 34.80 66.80 63.10
-------------------------------------------------------------------------------
See footnote at end of table. continued
Cattle: Marketing Year Average Prices Received
by States and United States, 1997-98 (continued)
-------------------------------------------------------------------------------
: Calves : Milk Cows 3/
State :---------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Cwt Dollars per Head
:
AL : 79.10 75.10 1090 1110
AK : 79.00 79.00 1200 1340
AZ : 83.40 82.00 1220 1240
AR : 78.80 77.80 1010 1010
CA : 68.10 70.90 1240 1270
CO : 86.20 84.10 1180 1210
CT : 40.00 40.00 1070 1150
DE : 63.50 71.50 1150 1150
FL : 81.20 78.60 1180 1200
GA : 78.40 73.00 1150 1150
HI : 43.00 49.00 1190 1120
ID : 76.40 77.40 1140 1160
IL : 102.00 99.80 1110 1130
IN : 75.30 70.90 1050 1070
IA : 76.00 75.60 1070 1100
KS : 86.40 86.60 1130 1100
KY : 72.20 74.90 1030 1030
LA : 76.70 77.40 1050 1050
ME : 30.00 40.00 900 1070
MD : 63.50 71.50 1140 1140
MA : 35.00 35.00 1070 1210
MI : 54.00 51.70 1090 1130
MN : 64.00 68.80 1020 1050
MS : 72.50 69.00 1040 1040
MO : 81.80 79.50 940 980
MT : 84.70 78.60 1090 1150
NE : 86.00 83.80 1170 1140
NV : 73.00 77.70 1200 1250
NH : 35.00 40.00 1070 1220
NJ : 54.00 57.00 1250 1300
NM : 67.30 80.00 1180 1190
NY : 48.20 51.90 1000 1010
NC : 72.80 72.40 1130 1140
ND : 75.50 77.90 960 1020
OH : 65.30 65.80 1080 1080
OK : 84.00 81.90 1040 1050
OR : 72.50 76.00 1150 1160
PA : 70.30 79.50 1110 1110
RI : 35.00 35.00 1000 1200
SC : 76.50 74.60 1160 1170
SD : 83.70 85.10 1020 1100
TN : 75.30 77.70 1050 1060
TX : 86.30 84.00 1110 1130
UT : 80.00 81.00 1120 1110
VT : 25.00 30.00 1080 1080
VA : 70.30 73.30 1190 1160
WA : 81.30 79.10 1190 1190
WV : 67.40 65.90 1050 1080
WI : 98.00 98.00 1060 1070
WY : 88.90 84.90 1050 1080
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 78.80 1120
1997 : 78.90 1100
-------------------------------------------------------------------------------
1/ Beef Cows and cull Dairy Cows sold for slaughter. 2/ "Cows" and "Steers
and Heifers" combined. 3/ Calendar year average.
Hogs: Marketing Year Average Prices Received
by States and United States, 1997-98
-----------------------------------------------------------------------------
: Barrows & Gilts : Sows : All
State :-------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-----------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 50.00 31.60 42.80 25.00 48.70 30.40
AK : 64.00 68.70 37.00 40.50 57.30 64.00
AZ : 50.50 29.20 42.50 22.50 49.90 29.10
AR : 50.00 32.00 41.00 25.00 48.00 30.00
CA : 54.70 34.00 35.10 25.30 54.70 34.00
CO : 56.20 37.20 47.20 26.30 55.60 36.40
CT : 48.00 40.00 37.00 18.00 47.00 38.00
DE : 46.10 33.00 40.60 24.10 45.70 32.10
FL : 46.40 31.20 40.50 23.20 45.20 28.00
GA : 49.20 33.40 43.20 25.20 48.60 32.40
HI : 83.80 85.20 40.20 44.80 80.30 83.10
ID : 53.00 37.50 43.00 27.00 52.00 37.00
IL : 51.80 33.30 43.50 23.60 51.10 32.50
IN : 52.20 33.50 44.90 24.20 51.50 32.60
IA : 55.10 36.50 47.30 26.30 54.90 36.30
KS : 51.70 33.30 45.70 25.70 50.90 32.40
KY : 53.00 35.70 43.30 24.70 52.60 35.20
LA : 50.00 31.90 38.70 20.70 47.00 29.10
ME : 48.00 40.00 37.00 18.00 47.00 38.00
MD : 46.10 33.00 40.60 24.10 45.70 32.10
MA : 48.00 40.00 37.00 18.00 47.00 38.00
MI : 54.50 35.60 42.00 22.30 53.10 33.90
MN : 54.70 35.90 45.40 26.20 54.30 35.50
MS : 52.50 33.75 45.70 26.35 52.40 33.70
MO : 51.30 32.60 44.60 25.60 50.90 32.00
MT : 57.00 41.30 40.00 29.30 55.30 40.10
NE : 55.50 37.30 46.70 25.10 55.40 37.10
NV : 55.50 30.60 30.60 23.00 53.10 29.80
NH : 48.00 40.00 37.00 18.00 47.00 38.00
NJ : 42.00 34.00 35.30 23.00 40.00 31.00
NM : 49.10 27.80 38.30 22.00 48.70 22.60
NY : 46.40 33.00 36.60 19.80 45.40 31.70
NC : 53.20 34.10 45.90 26.40 53.10 34.00
ND : 48.20 31.60 42.00 21.80 46.30 28.10
OH : 53.80 35.50 42.90 2610 53.20 35.10
OK : 50.60 33.50 42.50 24.00 50.00 32.00
OR : 57.20 38.00 43.50 27.70 56.90 37.80
PA : 52.00 33.70 42.20 22.90 50.50 32.00
RI : 48.00 40.00 37.00 18.00 47.00 38.00
SC : 49.70 33.10 44.30 26.00 49.40 32.60
SD : 55.30 36.80 43.50 24.90 53.90 35.30
TN : 50.20 33.90 43.30 24.60 49.60 33.00
TX : 48.80 31.90 39.60 23.40 47.40 30.70
UT : 59.00 40.30 40.30 29.00 58.80 40.20
VT : 48.00 40.00 37.00 18.00 47.00 38.00
VA : 51.80 34.80 40.80 23.10 51.60 34.60
WA : 52.10 37.60 34.10 19.60 50.90 36.60
WV : 50.40 36.60 40.20 24.60 47.50 34.00
WI : 51.70 33.20 41.50 21.80 50.40 31.80
WY : 52.40 33.10 44.20 24.40 50.60 31.10
:
US : 53.50 35.00 44.20 24.70 52.90 34.40
-----------------------------------------------------------------------------
Sheep: Marketing Year Average Prices Received
by States and United States, 1997-98
-------------------------------------------------------------------------------
: Lambs : Sheep
State :---------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 85.00 70.00 37.00 32.00
AK : 95.00 82.00 60.00 55.00
AZ : 92.00 75.00 45.00 36.00
CA : 91.60 75.00 33.80 30.50
CO : 89.80 72.20 36.10 30.00
CT : 115.00 120.00 40.00 37.00
ID : 86.40 65.90 33.10 30.50
IL : 85.00 66.00 32.20 28.50
IN : 85.20 69.60 36.20 32.10
IA : 87.00 69.30 35.60 27.80
KS : 86.90 72.00 32.60 29.30
KY : 85.00 70.00 32.00 29.00
LA : 88.00 70.60 41.50 35.20
ME : 120.00 110.00 45.00 45.00
MD : 94.40 79.10 42.10 36.00
MA : 120.00 115.00 40.00 38.00
MI : 84.00 69.00 35.00 32.00
MN : 90.80 71.40 33.80 27.20
MO : 84.00 69.00 35.90 30.00
MT : 97.80 73.60 37.40 29.20
NE : 90.90 74.80 35.10 31.10
NV : 84.20 69.00 29.40 25.00
NH : 115.00 105.00 40.00 37.00
NJ : 100.00 90.00 49.00 41.00
NM : 92.00 74.50 45.90 36.00
NY : 100.00 86.70 40.20 37.30
NC : 93.00 78.60 36.20 30.00
ND : 90.70 69.10 32.20 24.70
OH : 90.10 73.20 34.70 31.90
OK : 90.00 70.00 38.00 28.00
OR : 84.30 66.20 31.20 30.10
PA : 91.50 83.60 38.90 34.90
SD : 93.20 73.20 37.70 30.10
TN : 91.00 76.00 38.00 33.00
TX : 90.50 73.30 44.70 37.10
UT : 87.20 67.80 32.70 27.00
VT : 105.00 105.00 40.00 30.00
VA : 91.00 72.20 31.20 30.40
WA : 84.00 66.10 31.40 30.00
WV : 79.90 71.80 26.10 25.50
WI : 87.20 69.10 35.10 32.20
WY : 94.30 71.80 38.70 28.70
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 72.30 30.60
1997 : 90.30 37.90
--------------------------------------------------------------------------------
Wool and Mohair: Prices Received, Marketing Year Average,
by States, 1997-98 1/
-------------------------------------------------------------------------------
: Wool : Mohair
State :-------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Pound
:
AL : .48 .38
AK : 1.00 .90
AZ : .58 .47 1.70 1.25
CA : .79 .61
CO : .89 .53
CT : .55 .55
ID : .74 .66
IL : .43 .25
IN : .34 .26
IA : .42 .26
KS : .58 .42
KY : .41 .32
LA : .58 .33
ME : .50 .55
MD : .68 .50
MA : .60 .40
MI : .44 .31
MN : .43 .34
MO : .45 .33
MT : 1.01 .78
NE : .52 .41
NV : .90 .58
NH : .65 .70
NJ : .55 .50
NM : 1.07 .89 1.90 1.30
NY : .54 .45
NC : .59 .49
ND : .76 .55
OH : .43 .32
OK : .58 .39 2.00 1.75
OR : .61 .48
PA : .53 .47
SD : .90 .59
TN : .50 .45
TX : 1.06 .63 2.28 2.59
UT : .75 .62
VT : .65 .50
VA : .58 .44
WA : .65 .55
WV : .61 .51
WI : .53 .39
WY : .98 .77
:
Oth 2/ : .55 .45
:
US : .84 .60 2.25 2.48
-------------------------------------------------------------------------------
1/ Average local market for wool and mohair sold.
2/ Includes AR, DE, FL, GA, MS, RI and SC.
Poultry: Marketing Year Average Prices Received by States
and United States, 1997-98 1/
------------------------------------------------------------------------------
: Broilers 2/ : Other Chickens : Turkeys 3/
State :---------------------:-------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
------------------------------------------------------------------------------
: Dollars per Pound
:
AL : .380 .400 .170 .175
AR : .375 .380 .090 .096 .41 .40
CA : .390 .023 .034 .42 .41
CO : .030 .030
CT : .025 .017 1.07 1.00
DE : .375 .390 .102 .129 4/ 4/
FL : .385 .400 .002 .058
GA : .385 .405 .160 .169 .45
HI : .520 .525 .149 .151
ID : .030 .036
IL : .059 .027 .41 .39
IN : .020 .020 .41 .39
IA : .031 .024 .43
KS : .050 .020 .41
KY : .370 .395 .050 .113
LA : .072 .069
ME : .020 .017
MD : .375 .390 .056 .062 4/ 4/
MA : .020 .017 1.28 1.25
MI : .365 .365 .040 .027
MN : .375 .390 .031 .026 .39 .35
MS : .370 .395 .144 .174
MO : .375 .380 .090 .096 .40 .40
MT : .020 .020
NE : .375 .390 .031 .024
NH : .025 .017 1.35 1.40
NJ : .040 .036 .85 .80
NM : .005 .005
NY : .390 .410 .026 .021 .42 .40
NC : .375 .395 .110 .070 .39 .37
ND : .031 .026 .39 .35
OH : .365 .390 .013 .024 .35 .33
OK : .375 .380 .090 .096
OR : .385 .020 .010
PA : .375 .385 .075 .073 .41 .38
RI : .025 .016
SC : .385 .395 .111 .111 .39 .38
SD : .030 .020 .40 .35
TN : .380 .395 .120 .133
TX : .370 .390 .036 .039
UT : .030 .030
VT : .025 .016 1.18 1.04
VA : .365 .385 .110 .070 .39 .39
WA : .385 .020 .020
WV : .365 .400 .110 .130 .39 .39
WI : .375 .365 .059 .051
WY : .050 .050
:
Oth Sts 5/ : .385 .393 .020 .035 .41 .39
:
US : .377 .393 .077 .080 .399 .380
------------------------------------------------------------------------------
1/ 1997 revised. 2/ Equivalent liveweight returns to producers. Derived
from ready-to-cook (RTC) prices using the following formula: (RTC price
minus processing cost)*(dressing percentage) = equivalent liveweight price.
3/ IN,IA,MN and PA are actual liveweight prices. All other State prices are
equivalent liveweight returns to producers. (See footnote 2 for formula.)
4/ DE and MD combined price was $0.43 for 1997 and 1998. 5/ Combined to
avoid disclosure of individual operations. Broilers-1997: IA,IL,IN and ME.
Broilers-1998: CA,IA,IN,LA,ME,OR and WA. Other Chickens 1997 and
1998: AK and NV. Turkeys-1997: MI,NE,OK,OR,TX,UT and WI; Turkeys-1998:
CO,GA,IA,KS,MI,NE,OK,OR,TX,UT and WI.
Eggs: Marketing Year Average Prices Received
by States and United States, 1/
----------------------------------------------------------------------------
: Market Eggs 2/ : All Eggs 3/
State :-------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998
----------------------------------------------------------------------------
: Dollars per Dozen
:
AL : .559 .490 1.060 1.030
AR : .600 .462 1.030 .978
CA : .611 .549 .621 .561
CO : .650 .600 .720 .671
CT : .579 .566 .598 .589
DE : .660 .593 1.150 1.380
FL : .561 .491 .594 .535
GA : .592 .525 .885 .880
HI : .906 .871 .906 .871
ID : .560 .545 .707 .696
IL : .568 .507 .622 .618
IN : 626 .574 .637 .588
IA : .496 .420 .526 .452
KS : .534 .452 .566 .468
KY : .549 .540 .744 .725
LA : .636 .538 .908 .848
ME : .686 .617 .694 .630
MD : .653 .597 .732 .697
MA : .610 .637 .610 .642
MI : .560 .500 .560 .500
MN : .530 .450 .559 .480
MS : .658 .600 1.130 1.210
MO : .503 .420 .592 .530
MT : .570 .550 .570 .550
NE : .520 .430 .520 .430
NH : .639 .640 .825 .750
NJ : .623 .570 .623 .570
NM : .593 .550 .593 .550
NY : .653 .610 .666 .620
NC : .540 .470 .875 .890
ND : .530 .450 .530 .450
OH : .608 .560 .614 .570
OK : .607 .460 .873 .780
OR : .620 .560 .644 .590
PA : .618 .580 .653 .610
RI : .589 .639 .589 .639
SC : .593 .509 .768 .696
SD : .500 .430 .500 .430
TN : .597 .571 .931 .926
TX : .595 531 .768 .715
UT : .576 .520 .576 .520
VT : .665 .563 .608 .628
VA : .645 .577 .951 .933
WA : .624 .589 .653 .594
WV : .643 .575 1.210 1.250
WI : .524 .476 .564 .514
WY : .630 .570 .630 .570
:
Oth Sts 4/ : .610 .545 .610 .545
:
US : .587 .524 .703 .655
----------------------------------------------------------------------------
1/ 1997 Revised
2/ Market (table) eggs.
3/ Average of all eggs including hatching-type eggs.
4/ Combined to avoid disclosure of individual operations.
Milk: Annual Average Prices Received by States, 1997-98,
and United States, 1993-98
-------------------------------------------------------------------------------
: Sold to Plants :
:-----------------------------------------------------: Retailed
State : Eligible for : Manufacturing : All : by
: Fluid Market 1/ : Grade : Milk : Farmers
:-----------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Dollars per Cwt Dollars per Quart
:
AL : 14.80 16.50 14.80 16.50
AK : 20.30 20.30 20.30 20.30 .75 .90
AZ : 13.00 14.60 13.00 14.60
AR : 14.50 15.60 14.50 15.60
CA : 12.62 15.02 12.61 14.99 12.62 15.01 .85 1.10
CO : 13.00 15.00 13.00 15.00 .82 .90
CT : 14.60 16.00 14.60 16.00 .75 .80
DE : 13.80 15.70 13.80 15.70
FL : 16.50 18.20 16.50 18.20
GA : 14.70 16.60 14.70 16.60
HI : 24.71 26.36 24.71 26.36
ID : 12.30 14.50 12.00 14.50 12.30 14.50
IL : 13.70 15.10 12.70 14.80 13.60 15.10
IN : 13.10 14.90 11.10 13.00 13.00 14.80
IA : 13.50 15.40 12.30 14.10 13.40 15.40
KS : 12.80 14.70 11.80 13.80 12.80 14.70
KY : 13.80 15.50 11.20 13.20 13.70 15.50
LA : 14.30 16.20 14.30 16.20
ME : 14.50 15.80 14.50 15.80 .57 .57
MD : 13.80 15.70 13.80 15.70
MA : 14.70 16.40 14.70 16.40 .75 .70
MI : 13.60 15.30 11.10 13.70 13.60 15.30 .65 .65
MN : 13.31 15.65 11.95 14.24 13.19 15.55
MS : 14.40 16.20 14.40 16.20
MO : 13.70 15.70 12.00 14.10 13.70 15.60
MT : 13.20 15.00 13.20 15.00
NE : 13.30 15.20 12.20 14.40 13.20 15.10
NV : 11.90 13.80 11.90 13.80
NH : 14.60 16.30 14.60 16.30
NJ : 13.80 15.60 13.80 15.60
NM : 12.90 14.80 12.90 14.80 .79 .88
NY : 13.40 15.40 13.40 15.40 .63 .69
NC : 15.10 17.00 11.20 13.50 15.10 16.90
ND : 13.00 15.00 11.50 13.10 12.40 14.30
OH : 13.40 15.40 11.50 13.10 13.30 15.20
OK : 13.80 15.60 13.80 15.60
OR : 13.20 15.50 12.80 14.90 13.20 15.50 .60 .60
PA : 14.00 15.80 11.90 14.30 14.00 15.80 .58 .58
RI : 14.50 16.30 14.50 16.30
SC : 14.50 16.40 14.50 16.40 .78 .87
SD : 13.60 16.00 12.80 14.90 13.20 15.50
TN : 14.10 15.90 11.50 13.30 14.10 15.90
TX : 13.70 15.70 13.70 15.70
UT : 12.40 14.60 11.70 14.00 12.30 14.60 .67 .68
VT : 14.30 16.00 14.30 16.00 .70 .69
VA : 14.00 16.20 10.70 14.50 14.00 16.20
WA : 13.20 15.40 13.20 15.40 .64 .64
WV : 13.50 15.40 13.50 15.40
WI : 13.39 15.55 12.48 14.72 13.33 15.50
WY : 12.50 13.60 11.10 13.90 12.20 13.70
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 15.44 14.33 15.41 .814
1997 : 13.40 12.17 13.36 .733
1996 : 14.79 13.43 14.75 .785
1995 : 12.80 11.79 12.78 .647
1994 : 13.02 11.85 13.01 .617
1993 : 12.88 11.80 12.84 .585
-------------------------------------------------------------------------------
1/ Includes surplus fluid grade milk diverted to manufacturing.
Milk: Annual Average Fat Test by States, 1997-98,
and United States, 1993-98
-------------------------------------------------------------------------------
: Eligible for : Manufacturing : All
State : Fluid Market 1/ : Grade : Milk
:-----------------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
-------------------------------------------------------------------------------
: Percent
:
AL : 3.59 3.66 3.59 3.66
AK : 3.37 3.36 3.37 3.36
AZ : 3.56 3.57 3.56 3.57
AR : 3.53 3.60 3.53 3.60
CA : 3.64 3.66 4.04 4.01 3.64 3.67
CO : 3.60 3.62 3.60 3.62
CT : 3.64 3.62 3.64 3.62
DE : 3.67 3.69 3.67 3.69
FL : 3.58 3.58 3.58 3.58
GA : 3.58 3.61 3.58 3.61
HI : 3.42 3.43 3.42 3.43
ID : 3.53 3.56 3.74 3.71 3.54 3.57
IL : 3.70 3.69 3.78 3.69 3.71 3.69
IN : 3.69 3.66 3.71 3.70 3.69 3.67
IA : 3.72 3.72 3.74 3.76 3.72 3.73
KS : 3.65 3.64 3.68 3.69 3.65 3.64
KY : 3.60 3.61 3.69 3.73 3.60 3.62
LA : 3.47 3.46 3.47 3.46
ME : 3.64 3.62 3.64 3.62
MD : 3.67 3.69 3.67 3.69
MA : 3.70 3.69 3.70 3.69
MI : 3.65 3.63 3.67 3.66 3.65 3.63
MN : 3.73 3.69 3.73 3.70 3.73 3.70
MS : 3.55 3.60 3.55 3.60
MO : 3.63 3.64 3.76 3.73 3.64 3.64
MT : 3.54 3.57 3.54 3.57
NE : 3.69 3.69 3.73 3.71 3.69 3.69
NV : 3.59 3.59 3.59 3.59
NH : 3.77 3.73 3.77 3.73
NJ : 3.62 3.53 3.62 3.53
NM : 3.50 3.51 3.50 3.51
NY : 3.67 3.66 3.67 3.66
NC : 3.64 3.67 3.87 3.92 3.64 3.67
ND : 3.67 3.66 3.65 3.69 3.66 3.67
OH : 3.69 3.69 3.75 3.75 3.69 3.69
OK : 3.58 3.55 3.58 3.55
OR : 3.64 3.64 4.25 4.22 3.65 3.65
PA : 3.62 3.70 3.71 3.76 3.62 3.70
RI : 3.50 3.70 3.50 3.70
SC : 3.66 3.66 3.66 3.66
SD : 3.71 3.72 3.69 3.65 3.70 3.69
TN : 3.57 3.64 3.72 3.74 3.57 3.64
TX : 3.58 3.57 3.58 3.57
UT : 3.60 3.62 3.62 3.69 3.60 3.63
VT : 3.72 3.70 3.72 3.70
VA : 3.56 3.63 3.58 4.00 3.56 3.64
WA : 3.64 3.66 3.64 3.66
WV : 3.67 3.69 3.67 3.69
WI : 3.77 3.72 3.83 3.80 3.77 3.73
WY : 3.61 3.61 3.70 3.65 3.63 3.62
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 3.65 3.75 3.66
1997 : 3.65 3.77 3.66
1996 : 3.69 3.78 3.69
1995 : 3.65 3.75 3.66
1994 : 3.65 3.76 3.66
1993 : 3.66 3.76 3.66
-------------------------------------------------------------------------------
1/ Includes surplus fluid grade milk diverted to manufacturing.
Honey: Marketing Year Average Prices Received,
by States and United States, 1992-98 1/
--------------------------------------------------------------------------------
State : 1992 : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
:
AL : .59 .59 .52 .69 .87 .81 .72
AZ : .55 .52 .51 .65 .85 .72 .64
AR : .52 .50 .51 .71 .85 .70 .59
CA : .52 .50 .51 .63 .84 .70 .62
CO : .59 .58 .56 .73 .85 .82 .70
FL : .53 .50 .47 .64 .86 .73 .64
GA : .66 .61 .57 .71 .88 .79 .69
HI : .54 .52 .48 .56 .81 .86 .75
ID : .52 .52 .52 .69 .88 .72 .65
IL : .88 .96 1.04 1.13 1.35 1.27 1.19
IN : .72 .70 .71 .72 1.03 1.13 .85
IA : .57 .56 .65 .77 .95 .86 .70
KS : .59 .56 .72 .89 .94 .81 .87
KY : .74 .84 .98 1.02 1.28 1.48 1.40
LA : .51 .52 .46 .63 .83 .70 .59
ME : .77 68 .60 .97 1.06 .70 .69
MD : .99 1.47 1.08 1.03 1.21 1.59 1.10
MI : .59 .57 .55 .78 1.01 .77 .66
MN : .54 .53 .52 .70 .90 .74 .65
MS : .51 .49 .48 .68 .87 .73 .58
MO : .65 .59 .53 .73 .92 .78 .76
MT : .55 .54 .52 .72 .88 .74 .64
NE : .53 .53 .56 .73 .92 .77 .86
NV : .85 .95 1.08 .90 1.05 1.14 1.65
NJ : .91 .87 .63 .77 .82 1.04 .76
NM : .61 .68 .47 .83 .91 .87 .76
NY : .61 .63 .63 .71 .89 .85 .70
NC : .79 .90 .95 .84 1.04 1.19 1.38
ND : .53 .52 .48 .67 .90 .74 .63
OH : .60 .66 .64 .74 .96 .85 .83
OK : .74 .81 .93 .93 1.09 1.37 1.24
OR : .58 .56 .52 .78 .93 .79 .90
PA : .71 .64 .60 .73 1.02 1.00 .80
SC 2/ : .78 .60 .82 1.26 1.16
SD : .53 .52 .52 .71 .90 .74 .64
TN : .74 .93 .98 1.17 1.54 1.47 1.32
TX : .52 .51 .50 .67 .85 .75 .62
UT : .58 .55 .53 .65 .85 .75 .65
VT : .75 .67 .87 .86 1.01 .83 1.07
VA : .71 .81 .65 .67 1.48 1.45 1.33
WA : .58 .61 .54 .57 .90 .76 .64
WV : .85 1.11 1.18 1.18 1.59 1.11 1.14
WI : .58 .59 .60 .70 .90 .90 .72
WY : .54 .53 .58 .73 .90 .75 .68
:
Oth Sts 2/: .99 1.23 1.15 1.57 1.63 1.45 1.21
:
US 3/ : .550 .539 .528 .685 .888 .752 .655
--------------------------------------------------------------------------------
1/ Prices based on retail sales by producers and sales to private processors
and cooperatives. 2/ CT, DE, MA, NH, RI and SC not published separately
to avoid disclosure of individual operations. SC included in Other States
beginning in 1997. 3/ U.S. prices weighted by survey expanded state sales.
Prices Received: Corn, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Aug : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CO : 2.60 2.68 2.65 2.57 2.55 2.65 2.57
GA : 2.81 2.78 2.93 3.12 3.16 3.16 3.21
IL : 2.65 2.68 2.64 2.61 2.65 2.68 2.67
IN : 2.60 2.60 2.62 2.60 2.61 2.66 2.62
IA : 2.41 2.44 2.44 2.45 2.45 2.44 2.47
KS : 2.60 2.59 2.62 2.54 2.47 2.51 2.54
KY : 2.67 2.55 2.67 2.68 2.74 2.76 2.74
MI : 2.68 2.66 2.71 2.50 2.44 2.48 2.45
MN : 2.29 2.27 2.35 2.35 2.32 2.35 2.36
MO : 2.50 2.44 2.48 2.49 2.46 2.54 2.55
NE : 2.43 2.42 2.49 2.52 2.44 2.47 2.48
NC : 2.95 2.85 2.91 2.89 3.08 3.07 3.06
OH : 2.68 270 2.59 2.53 2.56 2.59 2.57
PA : 3.07 3.17 3.20 3.12 3.07 3.13 3.04
SD : 2.22 2.19 2.22 2.22 2.20 2.22 2.26
TN : 2.64 2.74 2.91 3.02 2.76 2.91
TX : 2.79 2.68 2.79 2.80 2.80 2.78 2.85
WI : 2.44 2.41 2.50 2.38 2.37 2.50 2.45
:
US : 2.50 2.52 2.54 2.51 2.52 2.56 2.55
:
: 1996-97
:
CO : 4.49 4.00 2.94 2.91 2.70 2.66 2.67
GA : 3.72 3.74 3.29 3.25 3.39 3.34 3.35
IL : 4.51 3.50 2.94 2.73 2.78 2.77 2.72
IN : 4.55 3.43 2.80 2.69 2.64 2.77 2.73
IA : 4.46 3.95 2.84 2.61 2.52 2.59 2.55
KS : 4.46 3.52 3.00 2.76 2.71 2.63 2.69
KY : 4.08 3.36 2.94 2.78 2.79 3.00 2.85
MI : 4.37 4.24 2.66 2.56 2.59 2.64 2.66
MN : 3.95 3.56 2.68 2.54 2.44 2.44 2.41
MO : 4.39 3.40 2.76 2.59 2.55 2.67 2.65
NE : 4.55 3.73 2.92 2.68 2.61 2.66 2.62
NC : 4.03 3.65 3.41 3.17 3.18 3.18 3.31
OH : 4.85 3.70 2.73 2.67 2.62 2.73 2.78
PA : 5.35 4.30 2.94 2.81 2.87 3.08 3.13
SD : 4.40 3.69 2.55 2.30 2.36 2.30 2.36
TN :
TX : 4.00 3.47 3.05 2.92 2.82 2.84 2.85
WI : 4.19 4.14 2.92 2.69 2.61 2.56 2.58
:
US : 4.30 3.56 2.88 2.66 2.63 2.69 2.65
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Corn, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug : Sep
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CO : 2.61 2.42 2.41 2.81 2.77 2.05 1.87
GA : 3.19 2.98 3.02 2.96 2.81 2.35 2.39
IL : 2.65 2.49 2.40 2.39 2.30 2.01 1.88
IN : 2.61 2.46 2.36 2.29 2.17 1.91 1.96
IA : 2.47 2.37 2.28 2.20 2.08 1.81 1.72
KS : 2.52 2.38 2.41 2.34 2.21 1.81 1.84
KY : 2.75 2.58 2.51 2.48 2.34 2.02 1.94
MI : 2.47 2.32 2.25 2.14 2.18 1.98 1.81
MN : 2.36 2.29 2.28 2.18 2.02 1.68 1.57
MO : 2.58 2.42 2.42 2.34 2.22 1.94 1.67
NE : 2.50 2.40 2.32 2.22 2.11 1.83 1.72
NC : 3.04 2.95 2.67 2.69 2.57 2.36 2.22
OH : 2.56 2.40 2.34 2.27 2.20 1.95 1.90
PA : 3.00 2.91 2.82 2.75 2.71 2.54 2.41
SD : 2.25 2.20 2.10 2.05 1.91 1.56 1.46
TN : 2.99 2.79 2.83 2.84 2.63 2.24 1.96
TX : 2.85 2.94 2.62 2.52 2.41 2.40 2.37
WI : 2.52 2.35 2.29 2.24 2.19 1.92 1.75
:
US : 2.55 2.41 2.34 2.28 2.19 1.89 1.83
:
: 1996-97
:
CO : 2.83 2.78 2.75 2.59 2.61 2.60 2.68
GA : 3.45 3.43 3.31 3.30 2.99 2.81 2.78
IL : 2.87 2.90 2.80 2.64 2.49 2.65 2.68
IN : 2.86 2.96 2.86 2.73 2.59 2.60 2.60
IA : 2.72 2.72 2.61 2.47 2.34 2.41 2.44
KS : 2.84 2.79 2.71 2.63 2.50 2.60 2.59
KY : 2.93 3.04 2.94 2.78 2.61 2.67 2.55
MI : 2.91 2.90 2.86 2.64 2.63 2.68 2.66
MN : 2.59 2.59 2.52 2.48 2.29 2.29 2.27
MO : 2.82 2.82 2.73 2.61 2.48 2.50 2.44
NE : 2.74 2.75 2.63 2.53 2.42 2.43 2.42
NC : 3.34 3.35 3.34 3.11 3.04 2.95 2.85
OH : 2.94 2.94 2.83 2.76 2.65 2.68 2.70
PA : 3.23 3.21 3.16 3.15 3.03 3.07 3.17
SD : 2.51 2.50 2.41 2.33 2.20 2.22 2.19
TN : 2.64
TX : 3.01 3.02 2.86 3.07 3.06 2.79 2.68
WI : 2.72 2.76 2.71 2.55 2.39 2.44 2.41
:
US : 2.79 2.80 2.69 2.56 2.42 2.50 2.52
------------------------------------------------------------------------------
1/ August - July for GA, LA, MS and TX; September - August for IL, IN, IA,
KS, KY, MO, NC, OH and TN; October - September for all other estimated
States; September - August for US.
2/ Second year.
Prices Received: Sorghum, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Jun : Jul : Aug : Sep : Oct : Nov : Dec : Jan 2/
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
AR : 4.46 4.46 4.60 4.53 4.66 4.45 4.75 4.75
IL : 4.24 3.97 4.35 4.21 4.21 4.29 4.25 4.51
KS : 4.13 3.84 3.89 3.74 3.94 3.87 3.81 3.91
MO : 4.62 4.25 4.22 4.02 3.77 3.84 3.96 4.17
NE : 4.07 4.01 4.03 3.82 4.02 4.00 3.88 3.95
OK : 4.29 4.16 3.92 3.75 3.95 3.84 3.95 4.12
TX : 4.05 3.94 4.14 4.15 4.37 4.25 4.34 4.39
:
US : 4.10 3.95 4.09 4.00 4.06 4.01 3.94 4.02
:
: 1996-97
:
AR : 4/ 4/ 5.86 5.33 4.75 4.60 4.06 4.52
IL : 4/ 4/ 4/ 3/ 4.22 4.00 3.91 4.05
KS : 7.50 7.29 6.32 5.22 4.27 3.99 3.81 3.87
MO : 7.66 7.46 7.26 5.81 4.19 3.77 3.79 4.34
NE : 7.47 7.49 7.19 6.53 4.76 4.27 4.06 4.15
OK : 7.96 7.81 6.36 5.27 4.35 4.49 3.90 3.86
TX : 6.92 6.55 6.23 5.76 4.64 4.30 4.13 4.26
:
US : 6.85 6.61 6.21 5.57 4.38 4.10 3.93 4.03
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Sorghum, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Feb : Mar : Apr : May : Jun : Jul : Aug : Sep
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
AR : 4.86 4.46 4.05 4.02 3.30 3.22
IL : 4.45 4.36 4.22 4.01 3.88 3/ 3/ 3/
KS : 3.87 3.95 3.73 3.64 3.55 3.30 2.82 2.71
MO : 4.15 4.20 3.89 3.91 4.16 3.57 3.21 2.69
NE : 4.08 3.95 3.73 3.62 3.65 3.44 2.97 2.77
OK : 4.10 4.16 3.74 3.58 3.80 3.81 3.57 3.39
TX : 4.48 4.38 4.18 4.28 4.02 3.68 3.56
:
US : 4.05 4.02 3.77 3.69 3.96 3.81 3.32 2.91
:
: 1996-97
:
AR : 5.15 4.81 4.95 3/ 4.60 4.53
IL : 4.45 4.70 4.39 3/ 4.21
KS : 4.04 4.44 4.46 4.25 4.13 3.84 3.89 3.74
MO : 4.28 4.57 4.58 4.62 4.62 4.25 4.22 4.02
NE : 4.31 4.13 4.12 4.06 4.07 4.01 4.03 3.82
OK : 4.07 4.53 4.52 4.34 4.29 4.16 3.92 3.75
TX : 4.29 4.66 4.66 4.45 4.05 3.94 4.14 4.15
:
US : 4.17 4.37 4.34 4.18 4.10 3.95 4.09 4.00
------------------------------------------------------------------------------
1/ June - May for TX; August - July for AR and OK; September - August for
IL, KS and MO; October - September for NE; September - August for US.
2/ Second year.
3/ Price not published to avoid disclosure.
4/ Insufficient sales to establish a price.
Prices Received: Soybeans, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 6.91 6.92 7.10 6.95 7.00 6.77
GA : 3/ 6.78 6.88 6.72 6.39 6.48
IL : 6.86 6.58 6.98 6.93 6.86 6.74
IN : 6.54 6.62 6.88 6.68 6.80 6.73
IA : 6.66 6.35 6.85 6.67 6.53 6.43
KS : 6.67 6.39 6.74 6.65 6.66 6.48
KY : 7.02 6.83 7.15 6.94 6.89 6.78
LA : 7.15 6.96 6.99 7.10 6.97 6.79
MI : 6.89 6.62 6.79 6.58 6.54 6.36
MN : 6.48 6.27 6.61 6.68 6.39 6.40
MS : 7.20 6.97 6.95 7.01 7.01 6.74
MO : 6.66 6.35 6.74 6.58 6.57 6.48
NE : 6.64 6.35 6.72 6.60 6.46 6.40
NC : 6.90 6.86 6.83 6.72 6.70 6.67
OH : 6.74 6.47 6.85 6.69 6.72 6.66
SD : 6.11 6.10 6.43 6.31 6.21 6.26
TN : 7.27 6.87 7.12 6.90 6.91 6.71
WI : 6.69 6.50 6.59 6.71 6.49 6.51
:
US : 6.72 6.49 6.86 6.72 6.69 6.57
:
: 1996-97
:
AR : 7.52 7.20 7.25 7.20 7.33 7.65
GA : 7.27 6.78 6.72 6.78 6.97 7.60
IL : 7.97 7.04 6.94 7.07 7.23 7.48
IN : 8.02 6.94 6.90 6.98 7.31 7.34
IA : 7.84 6.89 6.80 6.80 6.99 7.27
KS : 7.65 6.79 6.65 6.76 6.97 7.33
KY : 7.96 7.06 7.06 7.23 7.34 7.63
LA : 7.69 7.48 7.11 7.07 7.48 7.71
MI : 7.58 6.83 6.80 6.88 7.13 7.44
MN : 7.55 684 6.69 6.64 6.86 7.17
MS : 7.64 7.29 7.13 7.21 7.19 7.48
MO : 7.84 6.88 6.67 6.79 7.05 7.39
NE : 7.53 6.82 6.78 6.78 6.96 7.24
NC : 7.50 6.83 6.85 6.54 7.11 7.49
OH : 8.05 7.00 6.87 7.00 7.23 7.52
SD : 7.43 6.63 6.49 6.67 6.84 7.13
TN : 7.98 7.22 7.01 7.12 7.29 7.63
WI : 7.86 6.85 6.79 6.81 6.97 7.33
:
US : 7.79 6.94 6.90 6.91 7.13 7.38
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Soybeans, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 6.58 6.46 6.52 6.39 6.52 5.52
GA : 3/ 3/ 3/ 3/ 3/ 3/
IL : 6.52 6.39 6.37 6.31 6.32 5.54
IN : 6.57 6.37 6.41 6.42 6.38 5.74
IA : 6.36 6.22 6.17 6.09 6.00 5.35
KS : 6.27 6.30 6.29 5.99 5.97 5.23
KY : 6.57 6.41 6.38 6.30 6.28 5.66
LA : 6.61 6.44 6.43 3/ 6.43 5.96
MI : 6.40 6.12 6.14 5.93 6.06 5.50
MN : 6.21 6.14 6.16 5.98 5.95 5.26
MS : 6.59 6.33 6.31 6.38 6.76 5.65
MO : 6.37 6.21 6.24 6.10 6.06 5.40
NE : 6.23 6.09 6.10 5.99 5.94 5.18
NC : 6.64 6.43 6.36 6.37 5.92 5.63
OH : 6.39 6.29 6.34 6.25 6.30 5.60
SD : 6.09 6.09 6.01 5.92 5.74 4.68
TN : 6.67 6.40 6.37 6.24 6.16 5.60
WI : 6.20 5.70 6.21 6.10 6.09 5.66
:
US : 6.40 6.26 6.26 6.16 6.14 5.43
:
: 1996-97
:
AR : 8.10 8.44 8.51 8.40 7.38 7.46
GA : 8.21 8.41 3/ 3/ 3/ 3/
IL : 8.12 8.36 8.61 8.27 7.62 7.52
IN : 7.94 8.38 8.60 8.22 7.71 7.18
IA : 7.88 8.17 8.39 8.10 7.46 7.08
KS : 8.04 8.24 8.27 8.36 7.67 7.17
KY : 7.96 8.36 8.72 8.35 7.78 7.55
LA : 8.26 3/ 3/ 3/ 7.87 7.14
MI : 8.06 8.26 8.62 8.33 7.35 7.51
MN : 7.79 8.08 8.23 8.22 7.44 7.02
MS : 8.17 8.51 8.45 7.25 7.25
MO : 7.98 8.29 8.51 8.32 7.61 7.29
NE : 7.71 7.84 7.85 7.70 7.42 6.90
NC : 8.31 8.50 8.68 7.79 6.94
OH : 8.08 8.41 8.64 8.38 7.73 7.45
SD : 7.80 8.06 8.13 8.05 7.34 6.93
TN : 8.23 8.38 8.55 8.43 7.41
WI : 7.88 8.14 8.42 8.23 7.53 7.08
:
US : 7.97 8.23 8.40 8.16 7.52 7.25
------------------------------------------------------------------------------
1/ September - August for all estimated States.
2/ Second year.
3/ Price not published to avoid disclosure of individual operations.
Prices Received: Flaxseed, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
ND : 6.08 5.55 5.73 5.78 5.71 5.72
SD 3/:
:
US : 6.08 5.54 5.73 5.78 5.71 5.72
:
: 1996-97
:
ND : 6.19 6.20 5.87 6.51 6.38 6.77
SD : 6.17 6.12 6.27 6.30 6.70
:
US : 6.19 6.17 5.91 6.50 6.38 6.77
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Flaxseed, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
ND : 5.83 6.27 6.26 6.23 6.33 6.17
SD 3/:
:
US : 5.82 6.27 6.26 6.23 6.33 6.17
:
: 1996-97
:
ND : 6.43 6.76 6.67 6.43 6.47 5.99
SD :
:
US : 6.43 6.74 6.66 6.43 6.45 5.99
------------------------------------------------------------------------------
1/ July - June for all estimated States.
2/ Second year.
3/ Not published to avoid disclosure of individual firms.
Prices Received: All Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 13.20 11.70 11.40 11.20 11.20 12.00
ND : 11.40 10.90 11.20 11.10 11.50 12.10
SD : 10.10 9.80 10.30 10.40 10.50 11.00
:
US : 11.20 10.60 11.10 11.10 11.10 11.80
:
: 1996-97
:
KS 3/:
MN : 9.68 12.90 13.20 14.10 14.00 13.60
ND : 13.30 12.30 12.10 12.00 12.20 12.60
SD : 11.60 10.60 10.50 10.30 10.20 10.80
:
US : 12.10 11.70 11.80 11.50 12.00 12.10
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: All Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 12.30 13.10 13.40 13.30 14.10 12.80
ND : 12.10 12.70 13.60 14.60 16.50 14.70
SD : 11.70 12.70 13.90 14.10 14.00 15.00
:
US : 12.10 12.70 13.80 14.40 15.80 14.40
:
: 1996-97
:
KS 3/:
MN : 12.70 13.60 12.70 13.00 12.10 10.70
ND : 12.60 12.90 12.10 12.00 11.50 10.90
SD : 11.10 11.00 11.30 10.90 10.10 10.10
:
US : 12.20 12.40 12.10 11.90 10.80 10.70
------------------------------------------------------------------------------
1/ September - August for all estimated States.
2/ Second year.
3/ Not published to avoid disclosure of individual firms.
Prices Received: Oil Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 9.78 9.94 10.30 10.50 10.70 10.90
ND : 10.40 10.10 10.70 10.40 10.80 11.30
SD : 9.75 9.74 10.20 10.40 10.50 11.00
:
US : 10.10 10.00 10.60 10.40 10.70 11.20
:
: 1996-97
:
KS 3/:
MN : 9.47 10.70 12.50 10.90 10.30 11.30
ND : 12.40 10.80 10.70 10.70 10.90 10.90
SD : 11.50 10.40 10.50 10.30 10.20 10.80
:
US : 11.20 10.70 10.80 10.50 10.80 11.00
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Oil Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 11.60 12.40 13.30 13.30 13.80 12.80
ND : 11.70 12.50 13.40 13.80 14.00 13.80
SD : 11.70 12.70 13.90 14.10 14.00 15.00
:
US : 11.70 12.50 13.60 13.90 14.00 13.90
:
: 1996-97
:
KS 3/:
MN : 10.90 11.00 11.30 11.20 10.30 9.26
ND : 11.20 11.30 11.50 11.20 10.50 9.94
SD : 11.10 11.10 11.40 11.00 10.70 10.10
:
US : 11.10 11.30 11.50 11.10 10.50 9.97
------------------------------------------------------------------------------
1/ September - August for all estimated States.
2/ Second year.
3/ Not published to avoid disclosure of individual firms.
Prices Received: Non-Oil Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 14.00 13.80 13.70 13.50 13.40 13.90
ND : 14.00 14.10 13.80 13.80 14.20 14.10
SD 3/:
:
US : 13.80 14.00 14.00 13.80 14.10 14.00
:
: 1996-97
:
KS 3/:
MN : 15.20 15.00 15.60 15.40 14.80 15.00
ND : 15.30 15.80 15.40 15.50 15.80 15.30
SD : 11.60 11.00 10.70 10.10 10.50 10.80
:
US : 14.20 13.80 15.10 14.60 14.70 14.70
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Non-Oil Sunflower, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
KS 3/:
MN : 14.10 14.90 13.90 13.20 16.00 14.80
ND : 14.20 14.40 14.70 16.60 19.00 16.30
SD 3/:
:
US : 14.20 14.50 15.10 16.50 18.50 16.20
:
: 1996-97
:
KS 3/:
MN : 15.20 15.10 14.50 15.20 14.30 14.20
ND : 15.30 15.60 15.20 14.70 14.30 14.10
SD : 10.80 10.90 10.00 9.25
:
US : 15.20 14.40 13.90 14.60 10.90 13.80
------------------------------------------------------------------------------
1/ September - August for all estimated States.
2/ Second year.
3/ Not published to avoid disclosure of individual firms.
Prices Received: All Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Apr : May : Jun : Jul : Aug : Sep : Oct
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 140.00 127.00 106.00 103.00 96.00 88.00 98.00
CA : 128.00 128.00 122.00 115.00 111.00 113.00 110.00
CO : 115.00 125.00 120.00 100.00 100.00 101.00 100.00
ID : 113.00 107.00 111.00 97.00 106.00 107.00 114.00
IL : 125.00 120.00 111.00 95.00 96.00 100.00 101.00
IA : 112.00 117.00 116.00 117.00 108.00 110.00 109.00
KS : 85.00 92.00 89.00 85.00 77.00 83.00 87.00
KY : 80.00 86.00 71.00 70.00 78.00 77.00 75.00
MI : 115.00 118.00 108.00 83.00 98.00 103.00 103.00
MN : 95.00 108.00 96.00 94.00 91.00 93.00 91.00
MO : 70.00 72.00 71.00 68.00 67.00 72.00 72.00
MT : 113.00 99.00 84.00 78.00 82.00 84.00 84.00
NE : 70.00 71.00 76.00 76.00 77.00 77.00 79.00
NV : 111.00 116.00 102.00 103.00 106.00 101.00 99.00
NM : 140.00 131.00 126.00 127.00 118.00 116.00 121.00
NY : 90.00 87.00 84.00 83.00 79.00 86.00 101.00
ND : 65.00 64.00 64.00 65.00 66.00 61.00 60.00
OH : 163.00 169.00 156.00 135.00 143.00 137.00 146.00
OK : 84.00 84.00 79.00 72.00 74.00 85.00 88.00
OR : 121.00 115.00 103.00 114.00 120.00 118.00 123.00
PA : 132.00 129.00 129.00 118.00 128.00 132.00 137.00
SD : 85.00 93.00 96.00 87.00 74.00 83.00 86.00
TX : 78.00 91.00 87.00 76.00 73.00 69.00 67.00
UT : 83.00 88.00 85.00 88.00 83.00 84.00 85.00
WA : 118.00 118.00 110.00 116.00 115.00 118.00 112.00
WI : 105.00 103.00 96.00 90.00 81.00 80.00 85.00
WY : 94.00 94.00 85.00 81.00 83.00 87.00 87.00
:
US : 117.00 117.00 105.00 98.80 99.00 100.00 100.00
:
: 1996-97
:
AZ : 100.00 92.00 85.00 80.00 80.00 83.00 97.00
AR 3/: 74.00 63.00 61.00
CA : 105.00 102.00 103.00 98.00 100.00 104.00 110.00
CO : 84.00 88.00 86.00 85.00 93.00 95.00 98.00
ID : 82.00 78.00 86.00 90.00 91.00 91.00 92.00
IL : 86.00 83.00 94.00 89.00 94.00 97.00 99.00
IN 3/: 99.00 103.00 99.00
IA : 87.00 90.00 102.00 94.00 93.00 95.00 98.00
KS : 78.00 78.00 78.00 71.00 69.00 71.00 86.00
KY : 77.00 92.00 78.00 85.00 99.00 91.00 77.00
MI : 69.00 79.00 80.00 74.00 77.00 87.00 91.00
MN : 79.00 75.00 73.00 66.00 60.00 68.00 72.00
MO : 67.00 86.00 70.00 71.00 64.00 63.00 69.00
MT : 67.00 63.00 64.00 65.00 67.00 73.00 72.00
NE : 59.00 61.00 62.00 64.00 64.00 63.00 62.00
NV : 94.00 94.00 96.00 98.00 97.00 97.00 92.00
NM : 126.00 125.00 129.00 123.00 130.00 123.00 124.00
NY : 92.00 87.00 85.00 76.00 80.00 72.00 97.00
ND : 46.00 43.00 44.00 46.00 46.00 47.00 48.00
OH : 90.00 90.00 101.00 109.00 117.00 125.00 121.00
OK : 84.00 89.00 95.00 96.00 90.00 92.00 88.00
OR : 103.00 102.00 91.00 98.00 99.00 100.00 100.00
PA : 105.00 110.00 114.00 101.00 110.00 112.00 117.00
SD : 60.00 67.00 68.00 65.00 68.00 72.00 75.00
TX : 77.00 120.00 116.00 110.00 110.00 114.00 89.00
UT : 57.00 59.00 57.00 72.00 72.00 68.00 67.00
WA : 105.00 115.00 115.00 118.00 113.00 112.00 113.00
WI : 71.00 53.00 68.00 58.00 59.00 65.00 64.00
WY : 63.00 62.00 64.00 68.00 70.00 72.00 73.00
:
US : 88.50 94.40 94.00 92.20 92.60 92.00 91.60
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: All Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Nov : Dec : Jan 2/ : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 97.00 105.00 110.00 107.00 105.00 115.00 107.00
CA : 123.00 118.00 118.00 120.00 113.00 129.00 116.00
CO : 101.00 101.00 105.00 100.00 102.00 97.00 91.00
ID : 111.00 105.00 105.00 102.00 99.00 89.00 80.00
IL : 104.00 107.00 105.00 101.00 100.00 101.00 95.00
IA : 110.00 112.00 110.00 105.00 104.00 101.00 99.00
KS : 83.00 85.00 87.00 81.00 76.00 74.00 71.00
KY : 81.00 75.00 76.00 83.00 84.00 88.00 93.00
MI : 109.00 104.00 108.00 102.00 98.00 99.00 101.00
MN : 89.00 90.00 89.00 89.00 82.00 79.00 75.00
MO : 72.00 72.00 72.00 72.00 72.00 72.00 73.00
MT : 80.00 81.00 77.00 73.00 70.00 70.00 70.00
NE : 74.00 80.00 78.00 75.00 73.00 71.00 67.00
NV : 104.00 109.00 106.00 107.00 109.00 104.00 105.00
NM : 123.00 123.00 121.00 128.00 129.00 127.00 118.00
NY : 102.00 95.00 101.00 108.00 102.00 109.00 91.00
ND : 60.00 59.00 59.00 57.00 54.00 51.00 54.00
OH : 143.00 140.00 130.00 113.00 121.00 114.00 110.00
OK : 71.00 79.00 68.00 86.00 81.00 78.00 83.00
OR : 121.00 121.00 116.00 118.00 123.00 114.00 112.00
PA : 140.00 143.00 148.00 151.00 143.00 148.00 131.00
SD : 80.00 74.00 72.00 70.00 60.00 58.00 56.00
TX : 69.00 67.00 66.00 66.00 66.00 65.00 96.00
UT : 86.00 85.00 83.00 79.00 80.00 78.00 77.00
WA : 120.00 117.00 122.00 115.00 112.00 112.00 110.00
WI : 85.00 97.00 97.00 100.00 104.00 104.00 94.00
WY : 87.00 87.00 87.00 86.00 84.00 76.00 77.00
:
US : 100.00 95.20 94.70 96.10 95.30 98.00 102.00
:
: 1996-97
:
AZ : 107.00 99.00 116.00 124.00 124.00 140.00 127.00
AR 3/:
CA : 110.00 117.00 124.00 132.00 126.00 128.00 128.00
CO : 98.00 98.00 106.00 109.00 111.00 115.00 125.00
ID : 100.00 94.00 92.00 108.00 116.00 113.00 107.00
IL : 105.00 107.00 118.00 115.00 121.00 125.00 120.00
IN 3/:
IA : 102.00 109.00 118.00 116.00 115.00 112.00 117.00
KS : 87.00 86.00 89.00 81.00 82.00 85.00 92.00
KY : 82.00 76.00 76.00 83.00 81.00 80.00 86.00
MI : 105.00 116.00 132.00 118.00 123.00 115.00 118.00
MN : 86.00 84.00 90.00 87.00 93.00 95.00 108.00
MO : 68.00 70.00 74.00 72.00 69.00 70.00 72.00
MT : 75.00 84.00 105.00 115.00 113.00 113.00 99.00
NE : 63.00 66.00 69.00 71.00 71.00 70.00 71.00
NV : 95.00 101.00 101.00 115.00 110.00 111.00 116.00
NM : 128.00 133.00 140.00 146.00 145.00 140.00 131.00
NY : 92.00 91.00 93.00 88.00 94.00 90.00 87.00
ND : 46.00 48.00 54.00 64.00 60.00 65.00 64.00
OH : 144.00 159.00 159.00 159.00 150.00 163.00 169.00
OK : 93.00 96.00 105.00 98.00 94.00 84.00 84.00
OR : 103.00 103.00 106.00 112.00 115.00 121.00 115.00
PA : 121.00 132.00 135.00 141.00 131.00 132.00 129.00
SD : 69.00 75.00 80.00 88.00 90.00 85.00 93.00
TX : 82.00 83.00 85.00 87.00 80.00 78.00 91.00
UT : 72.00 77.00 82.00 82.00 83.00 83.00 88.00
WA : 113.00 118.00 120.00 119.00 117.00 118.00 118.00
WI : 67.00 92.00 127.00 98.00 110.00 105.00 103.00
WY : 73.00 77.00 82.00 89.00 94.00 94.00 94.00
:
US : 92.00 90.80 97.90 102.00 102.00 117.00 117.00
------------------------------------------------------------------------------
1/ April - March for AZ; May - April for AR, CA, GA, KS, KY, MO, NV, NM, OK,
TX and UT; June - May for all other estimated States; April - May for US.
2/ Second year.
3/ Estimates discontinued.
Prices Received: Alfalfa Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Apr : May : Jun : Jul : Aug : Sep : Oct
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 141.00 127.00 106.00 104.00 96.00 90.00 99.00
CA : 132.00 131.00 125.00 117.00 113.00 113.00 111.00
CO : 115.00 125.00 120.00 100.00 100.00 100.00 100.00
ID : 115.00 108.00 112.00 100.00 109.00 109.00 116.00
IL : 130.00 125.00 116.00 100.00 101.00 105.00 106.00
IA : 117.00 119.00 117.00 120.00 110.00 112.00 113.00
KS : 91.00 95.00 90.00 89.00 85.00 90.00 89.00
KY : 98.00 95.00 91.00 91.00 95.00 100.00 110.00
MI : 120.00 125.00 110.00 85.00 100.00 105.00 105.00
MN : 109.00 115.00 110.00 104.00 103.00 102.00 97.00
MO : 104.00 105.00 104.00 102.00 100.00 105.00 106.00
MT : 114.00 101.00 84.00 79.00 82.00 84.00 85.00
NE : 74.00 74.00 78.00 78.00 79.00 79.00 81.00
NV : 116.00 119.00 105.00 105.00 108.00 102.00 100.00
NM : 141.00 134.00 129.00 130.00 121.00 119.00 124.00
NY : 92.00 90.00 113.00 95.00 97.00 102.00 110.00
ND : 72.00 69.00 66.00 70.00 72.00 69.00 65.00
OH : 200.00 210.00 190.00 165.00 170.00 165.00 180.00
OK : 100.00 100.00 102.00 88.00 85.00 102.00 102.00
OR : 123.00 120.00 115.00 120.00 125.00 125.00 130.00
PA : 139.00 144.00 148.00 134.00 143.00 157.00 156.00
SD : 98.00 97.00 97.00 90.00 75.00 85.00 90.00
TX : 145.00 150.00 135.00 130.00 130.00 128.00 131.00
UT : 83.00 88.00 85.00 89.00 84.00 84.00 85.00
WA : 110.00 112.00 110.00 114.00 113.00 116.00 108.00
WI : 110.00 109.00 104.00 95.00 85.00 85.00 90.00
WY : 95.00 95.00 85.00 81.00 84.00 87.00 87.00
:
US : 123.00 125.30 114.00 107.00 105.00 106.00 106.00
:
: 1996-97
:
AZ : 101.00 92.00 85.00 82.00 81.00 84.00 98.00
AR 3/: 125.00 130.00 134.00
CA : 108.00 104.00 104.00 100.00 101.00 106.00 111.00
CO : 85.00 89.00 87.00 85.00 94.00 96.00 99.00
ID : 83.00 78.00 86.00 92.00 93.00 92.00 93.00
IL : 90.00 87.00 96.00 94.00 100.00 100.00 105.00
IN 3/: 107.00 110.00 110.00
IA : 91.00 92.00 103.00 96.00 95.00 97.00 101.00
KS : 81.00 80.00 80.00 78.00 78.00 79.00 89.00
KY : 107.00 104.00 98.00 107.00 118.00 117.00 114.00
MI : 70.00 80.00 80.00 75.00 80.00 90.00 100.00
MN : 84.00 84.00 85.00 83.00 83.00 85.00 82.00
MO : 100.00 101.00 102.00 98.00 98.00 97.00 100.00
MT : 68.00 65.00 64.00 66.00 68.00 74.00 73.00
NE : 62.00 63.00 63.00 67.00 68.00 67.00 64.00
NV : 95.00 93.00 103.00 100.00 97.00 99.00 96.00
NM : 129.00 126.00 129.00 123.00 130.00 123.00 124.00
NY : 99.00 92.00 95.00 89.00 96.00 86.00 110.00
ND : 49.00 49.00 45.00 48.00 49.00 53.00 51.00
OH : 115.00 125.00 130.00 130.00 135.00 145.00 150.00
OK : 100.00 107.00 114.00 116.00 110.00 110.00 107.00
OR : 105.00 106.00 104.00 105.00 105.00 106.00 105.00
PA : 116.00 126.00 125.00 113.00 117.00 121.00 128.00
SD : 65.00 69.00 69.00 68.00 71.00 79.00 81.00
TX : 152.00 150.00 145.00 137.00 139.00 140.00 123.00
UT : 57.00 59.00 57.00 73.00 74.00 68.00 67.00
WA : 98.00 108.00 112.00 111.00 106.00 108.00 109.00
WI : 73.00 54.00 69.00 60.00 60.00 66.00 65.00
WY : 65.00 63.00 64.00 68.00 72.00 74.00 74.00
:
US : 93.20 97.90 98.50 96.50 97.90 96.60 95.80
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Alfalfa Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Nov : Dec : Jan 2/ : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 100.00 106.00 110.00 108.00 105.00 115.00 109.00
CA : 125.00 119.00 120.00 121.00 115.00 130.00 116.00
CO : 100.00 100.00 105.00 100.00 102.00 97.00 90.00
ID : 114.00 106.00 107.00 103.00 100.00 90.00 80.00
IL : 109.00 112.00 110.00 106.00 105.00 106.00 100.00
IA : 114.00 114.00 111.00 107.00 107.00 105.00 10100
KS : 85.00 88.00 90.00 89.00 87.00 78.00 73.00
KY : 108.00 104.00 103.00 107.00 107.00 110.00 110.00
MI : 110.00 105.00 110.00 105.00 100.00 100.00 105.00
MN : 100.00 95.00 100.00 105.00 94.00 89.00 83.00
MO : 105.00 106.00 106.00 107.00 107.00 105.00 107.00
MT : 81.00 82.00 78.00 74.00 71.00 71.00 71.00
NE : 82.00 83.00 81.00 80.00 77.00 74.00 68.00
NV : 106.00 111.00 107.00 109.00 111.00 105.00 106.00
NM : 126.00 126.00 124.00 131.00 132.00 131.00 120.00
NY : 112.00 104.00 111.00 113.00 128.00 142.00 92.00
ND : 64.00 65.00 62.00 60.00 61.00 57.00 57.00
OH : 175.00 170.00 160.00 135.00 145.00 135.00 130.00
OK : 85.00 93.00 84.00 100.00 96.00 87.00 94.00
OR : 125.00 125.00 120.00 120.00 125.00 115.00 115.00
PA : 157.00 166.00 168.00 171.00 167.00 166.00 156.00
SD : 85.00 80.00 75.00 75.00 65.00 65.00 59.00
TX : 139.00 139.00 150.00 150.00 160.00 153.00 149.00
UT : 86.00 85.00 84.00 80.00 81.00 78.00 77.00
WA : 114.00 110.00 114.00 109.00 100.00 108.00 101.00
WI : 90.00 105.00 105.00 106.00 110.00 109.00 100.00
WY : 88.00 87.00 87.00 86.00 85.00 78.00 78.00
:
US : 107.00 102.00 102.00 105.00 102.00 105.00 107.00
:
: 1996-97
:
AZ : 109.00 100.00 119.00 126.00 125.00 141.00 127.00
AR 3/:
CA : 112.00 118.00 126.00 133.00 127.00 132.00 131.00
CO : 99.00 99.00 107.00 111.00 111.00 115.00 125.00
ID : 101.00 94.00 93.00 109.00 117.00 115.00 108.00
IL : 110.00 112.00 125.00 125.00 130.00 130.00 125.00
IN 3/:
IA : 104.00 111.00 119.00 119.00 118.00 117.00 119.00
KS : 90.00 90.00 93.00 93.00 89.00 91.00 95.00
KY : 112.00 106.00 104.00 108.00 104.00 98.00 95.00
MI : 110.00 120.00 135.00 120.00 125.00 120.00 125.00
MN : 93.00 91.00 98.00 101.00 103.00 109.00 115.00
MO : 101.00 102.00 105.00 103.00 105.00 104.00 105.00
MT : 76.00 85.00 106.00 117.00 114.00 114.00 101.00
NE : 66.00 69.00 71.00 73.00 75.00 74.00 74.00
NV : 97.00 104.00 104.00 117.00 114.00 116.00 119.00
NM : 129.00 134.00 141.00 147.00 146.00 141.00 134.00
NY : 110.00 103.00 108.00 99.00 106.00 92.00 90.00
ND : 49.00 51.00 56.00 67.00 68.00 72.00 69.00
OH : 180.00 190.00 200.00 190.00 185.00 200.00 210.00
OK : 115.00 120.00 125.00 124.00 121.00 100.00 100.00
OR : 107.00 107.00 110.00 115.00 118.00 123.00 120.00
PA : 129.00 140.00 142.00 152.00 140.00 139.00 144.00
SD : 76.00 84.00 88.00 96.00 99.00 98.00 97.00
TX : 122.00 141.00 153.00 154.00 150.00 145.00 150.00
UT : 73.00 78.00 83.00 83.00 84.00 83.00 88.00
WA : 107.00 113.00 112.00 116.00 110.00 110.00 112.00
WI : 68.00 95.00 132.00 101.00 115.00 110.00 109.00
WY : 74.00 78.00 83.00 90.00 95.00 95.00 95.00
:
US : 97.00 97.00 104.00 113.00 116.00 123.00 125.30
------------------------------------------------------------------------------
1/ April - March for AZ; May - April for AR, CA, GA, KS, KY, MO, NV, NM, OK,
TX and UT; June - May for all other estimated States; April - May for US.
2/ Second year.
3/ Estimates discontinued.
Prices Received: Other Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Apr : May : Jun : Jul : Aug : Sep : Oct
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 74.00 132.00 98.00 95.00 94.00 80.00 67.00
CA 83.00 83.00 85.00 82.00
MO : 100.00 101.00 102.00 98.00 98.00 97.00 100.00
MT : 68.00 65.00 64.00 66.00 68.00 74.00 73.00
NE : 62.00 63.00 63.00 67.00 68.00 67.00 64.00
NV : 95.00 93.00 103.00 100.00 97.00 99.00 96.00
NM : 129.00 126.00 129.00 123.00 130.00 123.00 124.00
NY : 99.00 92.00 95.00 89.00 96.00 86.00 110.00
ND : 49.00 49.00 45.00 48.00 49.00 53.00 51.00
OH : 115.00 125.00 130.00 130.00 135.00 145.00 150.00
OK : 100.00 107.00 114.00 116.00 110.00 110.00 107.00
OR : 105.00 106.00 104.00 105.00 105.00 106.00 105.00
PA : 116.00 126.00 125.00 113.00 117.00 121.00 128.00
SD : 65.00 69.00 69.00 68.00 71.00 79.00 81.00
TX : 152.00 150.00 145.00 137.00 139.00 140.00 123.00
UT : 57.00 59.00 57.00 73.00 74.00 68.00 67.00
WA : 98.00 108.00 112.00 111.00 106.00 108.00 109.00
WI : 73.00 54.00 69.00 60.00 60.00 66.00 65.00
WY : 65.00 63.00 64.00 68.00 72.00 74.00 74.00
:
US : 93.20 97.90 98.50 96.50 97.90 96.60 95.80
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Alfalfa Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Nov : Dec : Jan 2/ : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 100.00 106.00 110.00 108.00 105.00 115.00 109.00
CA : 125.00 119.00 120.00 121.00 115.00 130.00 116.00
CO : 100.00 100.00 105.00 100.00 102.00 97.00 90.00
ID : 114.00 106.00 107.00 103.00 100.00 90.00 80.00
IL : 109.00 112.00 110.00 106.00 105.00 106.00 100.00
IA : 114.00 114.00 111.00 107.00 107.00 105.00 10100
KS : 85.00 88.00 90.00 89.00 87.00 78.00 73.00
KY : 108.00 104.00 103.00 107.00 107.00 110.00 110.00
MI : 110.00 105.00 110.00 105.00 100.00 100.00 105.00
MN : 100.00 95.00 100.00 105.00 94.00 89.00 83.00
MO : 105.00 106.00 106.00 107.00 107.00 105.00 107.00
MT : 81.00 82.00 78.00 74.00 71.00 71.00 71.00
NE : 82.00 83.00 81.00 80.00 77.00 74.00 68.00
NV : 106.00 111.00 107.00 109.00 111.00 105.00 106.00
NM : 126.00 126.00 124.00 131.00 132.00 131.00 120.00
NY : 112.00 104.00 111.00 113.00 128.00 142.00 92.00
ND : 64.00 65.00 62.00 60.00 61.00 57.00 57.00
OH : 175.00 170.00 160.00 135.00 145.00 135.00 130.00
OK : 85.00 93.00 84.00 100.00 96.00 87.00 94.00
OR : 125.00 125.00 120.00 120.00 125.00 115.00 115.00
PA : 157.00 166.00 168.00 171.00 167.00 166.00 156.00
SD : 85.00 80.00 75.00 75.00 65.00 65.00 59.00
TX : 139.00 139.00 150.00 150.00 160.00 153.00 149.00
UT : 86.00 85.00 84.00 80.00 81.00 78.00 77.00
WA : 114.00 110.00 114.00 109.00 100.00 108.00 101.00
WI : 90.00 105.00 105.00 106.00 110.00 109.00 100.00
WY : 88.00 87.00 87.00 86.00 85.00 78.00 78.00
:
US : 107.00 102.00 102.00 105.00 102.00 105.00 107.00
:
: 1996-97
:
AZ : 109.00 100.00 119.00 126.00 125.00 141.00 127.00
AR 3/:
CA : 112.00 118.00 126.00 133.00 127.00 132.00 131.00
CO : 99.00 99.00 107.00 111.00 111.00 115.00 125.00
ID : 101.00 94.00 93.00 109.00 117.00 115.00 108.00
IL : 110.00 112.00 125.00 125.00 130.00 130.00 125.00
IN 3/:
IA : 104.00 111.00 119.00 119.00 118.00 117.00 119.00
KS : 90.00 90.00 93.00 93.00 89.00 91.00 95.00
KY : 112.00 106.00 104.00 108.00 104.00 98.00 95.00
MI : 110.00 120.00 135.00 120.00 125.00 120.00 125.00
MN : 93.00 91.00 98.00 101.00 103.00 109.00 115.00
MO : 101.00 102.00 105.00 103.00 105.00 104.00 105.00
MT : 76.00 85.00 106.00 117.00 114.00 114.00 101.00
NE : 66.00 69.00 71.00 73.00 75.00 74.00 74.00
NV : 97.00 104.00 104.00 117.00 114.00 116.00 119.00
NM : 129.00 134.00 141.00 147.00 146.00 141.00 134.00
NY : 110.00 103.00 108.00 99.00 106.00 92.00 90.00
ND : 49.00 51.00 56.00 67.00 68.00 72.00 69.00
OH : 180.00 190.00 200.00 190.00 185.00 200.00 210.00
OK : 115.00 120.00 125.00 124.00 121.00 100.00 100.00
OR : 107.00 107.00 110.00 115.00 118.00 123.00 120.00
PA : 129.00 140.00 142.00 152.00 140.00 139.00 144.00
SD : 76.00 84.00 88.00 96.00 99.00 98.00 97.00
TX : 122.00 141.00 153.00 154.00 150.00 145.00 150.00
UT : 73.00 78.00 83.00 83.00 84.00 83.00 88.00
WA : 107.00 113.00 112.00 116.00 110.00 110.00 112.00
WI : 68.00 95.00 132.00 101.00 115.00 110.00 109.00
WY : 74.00 78.00 83.00 90.00 95.00 95.00 95.00
:
US : 97.00 97.00 104.00 113.00 116.00 123.00 125.30
------------------------------------------------------------------------------
1/ April - March for AZ; May - April for AR, CA, GA, KS, KY, MO, NV, NM, OK,
TX and UT; June - May for all other estimated States; April - May for US.
2/ Second year.
3/ Estimates discontinued.
Prices Received: Other Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Apr : May : Jun : Jul : Aug : Sep : Oct
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 74.00 132.00 98.00 95.00 94.00 80.00 67.00
CA : 92.00 91.00 93.00 100.00 98.00 108.00 95.00
CO : 110.00 115.00 110.00 105.00 105.00 105.00 105.00
ID : 76.00 74.00 77.00 73.00 80.00 81.00 80.00
IL : 96.00 92.00 90.00 76.00 78.00 82.00 80.00
IA : 74.00 77.00 73.00 80.00 77.00 77.00 76.00
KS : 71.00 68.00 74.00 76.00 66.00 70.00 74.00
KY : 66.00 63.00 59.00 59.00 62.00 65.00 72.00
MI : 100.00 110.00 95.00 70.00 85.00 90.00 90.00
MN : 70.00 67.00 63.00 69.00 73.00 73.00 68.00
MO : 64.00 65.00 64.00 61.00 60.00 65.00 65.00
MT : 95.00 89.00 71.00 71.00 73.00 72.00 71.00
NE : 50.00 53.00 53.00 54.00 55.00 56.00 61.00
NV : 90.00 86.00 78.00 85.00 85.00 90.00 87.00
NM : 103.00 103.00 100.00 103.00 90.00 88.00 95.00
NY : 89.00 85.00 71.00 75.00 60.00 79.00 88.00
ND : 47.00 44.00 43.00 48.00 48.00 46.00 44.00
OH : 100.00 110.00 95.00 80.00 95.00 80.00 100.00
OK : 59.00 59.00 45.00 48.00 57.00 59.00 68.00
OR : 85.00 80.00 90.00 92.00 95.00 90.00 90.00
PA : 107.00 111.00 115.00 103.00 113.00 120.00 120.00
SD : 64.00 67.00 67.00 57.00 55.00 60.00 65.00
TX : 72.00 71.00 70.00 60.00 59.00 56.00 58.00
UT : 55.00 55.00 55.00 60.00 60.00 60.00 70.00
WA : 142.00 137.00 126.00 128.00 127.00 136.00 139.00
WI : 70.00 65.00 62.00 70.00 65.00 60.00 65.00
WY : 85.00 85.00 78.00 74.00 77.00 80.00 80.00
:
US : 82.30 83.40 76.00 73.20 75.40 74.80 76.20
:
: 1996-97
:
AZ : 63.00 96.00 93.00 53.00 47.00 62.00 69.00
AR 3/: 68.00 56.00 53.00
CA : 71.00 77.00 83.00 78.00 82.00 71.00 81.00
CO : 74.00 75.00 76.00 75.00 81.00 87.00 85.00
ID : 60.00 63.00 67.00 71.00 66.00 74.00 76.00
IL : 63.00 63.00 73.00 70.00 73.00 78.00 80.00
IN 3/: 84.00 91.00 79.00
IA : 65.00 72.00 76.00 67.00 66.00 66.00 74.00
KS : 59.00 58.00 58.00 57.00 57.00 58.00 69.00
KY : 66.00 64.00 66.00 73.00 80.00 77.00 74.00
MI : 65.00 75.00 75.00 70.00 65.00 70.00 80.00
MN : 53.00 53.00 58.00 54.00 51.00 51.00 62.00
MO : 60.00 62.00 62.00 62.00 60.00 61.00 60.00
MT : 57.00 56.00 55.00 55.00 58.00 59.00 58.00
NE : 44.00 43.00 43.00 48.00 49.00 51.00 47.00
NV : 85.00 98.00 55.00 75.00 92.00 79.00 64.00
NM : 94.00 97.00 99.00 97.00 102.00 94.00 91.00
NY : 80.00 70.00 69.00 68.00 69.00 55.00 75.00
ND : 32.00 36.00 32.00 35.00 36.00 34.00 35.00
OH : 60.00 60.00 60.00 75.00 80.00 90.00 90.00
OK : 60.00 61.00 67.00 57.00 60.00 66.00 60.00
OR : 76.00 76.00 76.00 74.00 74.00 74.00 74.00
PA : 93.00 101.00 99.00 91.00 95.00 99.00 101.00
SD : 48.00 55.00 51.00 58.00 47.00 47.00 48.00
TX : 71.00 75.00 95.00 95.00 91.00 94.00 76.00
UT : 40.00 40.00 40.00 45.00 45.00 43.00 45.00
WA : 124.00 132.00 140.00 143.00 144.00 146.00 140.00
WI : 60.00 45.00 60.00 40.00 50.00 55.00 56.00
WY : 60.00 58.00 60.00 63.00 64.00 67.00 67.00
:
US : 71.10 76.80 76.40 78.20 74.10 73.60 73.10
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Other Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Nov : Dec : Jan 2/ : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 68.00 80.00 102.00 91.00 86.00 61.00
CA : 98.00 108.00 103.00 107.00 87.00 104.00 106.00
CO : 110.00 110.00 110.00 105.00 106.00 105.00 98.00
ID : 70.00 75.00 80.00 90.00 80.00 65.00 55.00
IL : 84.00 87.00 86.00 81.00 80.00 80.00 76.00
IA : 75.00 74.00 75.00 71.00 69.00 73.00 67.00
KS : 72.00 74.00 72.00 76.00 66.00 64.00 65.00
KY : 71.00 68.00 67.00 70.00 70.00 72.00 73.00
MI : 100.00 95.00 100.00 90.00 90.00 95.00 85.00
MN : 63.00 68.00 64.00 52.00 55.00 41.00 57.00
MO : 65.00 65.00 65.00 65.00 65.00 65.00 66.00
MT : 71.00 70.00 66.00 66.00 63.00 60.00 61.00
NE : 62.00 62.00 63.00 56.00 57.00 56.00 54.00
NV : 85.00 95.00 95.00 90.00 95.00 91.00 93.00
NM : 95.00 97.00 92.00 96.00 102.00 96.00 98.00
NY : 88.00 85.00 92.00 106.00 76.00 76.00 89.00
ND : 42.00 42.00 41.00 40.00 41.00 37.00 38.00
OH : 95.00 90.00 90.00 80.00 80.00 70.00 75.00
OK : 51.00 59.00 45.00 66.00 58.00 65.00 66.00
OR : 95.00 95.00 90.00 95.00 94.00 94.00 95.00
PA : 125.00 129.00 131.00 133.00 131.00 129.00 117.00
SD : 65.00 60.00 60.00 55.00 45.00 45.00 41.00
TX : 63.00 62.00 62.00 60.00 60.00 57.00 60.00
UT : 72.00 70.00 70.00 68.00 67.00 60.00 60.00
WA : 151.00 146.00 138.00 137.00 144.00 123.00 137.00
WI : 65.00 65.00 65.00 70.00 80.00 81.00 70.00
WY : 80.00 80.00 80.00 80.00 79.00 71.00 71.00
:
US : 75.80 76.10 76.40 76.80 76.30 72.20 78.60
:
: 1996-97
:
AZ : 87.00 75.00 60.00 60.00 50.00 74.00 132.00
AR 3/:
CA : 92.00 91.00 93.00 100.00 98.00 108.00 95.00
CO : 110.00 115.00 110.00 105.00 105.00 105.00 105.00
ID : 76.00 74.00 77.00 73.00 80.00 81.00 80.00
IL : 96.00 92.00 90.00 76.00 78.00 82.00 80.00
IA : 74.00 77.00 73.00 80.00 77.00 77.00 76.00
KS : 71.00 68.00 74.00 76.00 66.00 70.00 74.00
KY : 66.00 63.00 59.00 59.00 62.00 65.00 72.00
MI : 100.00 110.00 95.00 70.00 85.00 90.00 90.00
MN : 70.00 67.00 63.00 69.00 73.00 73.00 68.00
MO : 64.00 65.00 64.00 61.00 60.00 65.00 65.00
MT : 95.00 89.00 71.00 71.00 73.00 72.00 71.00
NE : 50.00 53.00 53.00 54.00 55.00 56.00 61.00
NV : 90.00 86.00 78.00 85.00 85.00 90.00 87.00
NM : 103.00 103.00 100.00 103.00 90.00 88.00 95.00
NY : 89.00 85.00 71.00 75.00 60.00 79.00 88.00
ND : 47.00 44.00 43.00 48.00 48.00 46.00 44.00
OH : 100.00 110.00 95.00 80.00 95.00 80.00 100.00
OK : 59.00 59.00 45.00 48.00 57.00 59.00 68.00
OR : 85.00 80.00 90.00 92.00 95.00 90.00 90.00
PA : 107.00 111.00 115.00 103.00 113.00 120.00 120.00
SD : 64.00 67.00 67.00 57.00 55.00 60.00 65.00
TX : 72.00 71.00 70.00 60.00 59.00 56.00 58.00
UT : 55.00 55.00 55.00 60.00 60.00 60.00 70.00
WA : 142.00 137.00 126.00 128.00 127.00 136.00 139.00
WI : 70.00 65.00 62.00 70.00 65.00 60.00 65.00
WY : 85.00 85.00 78.00 74.00 77.00 80.00 80.00
:
US : 82.30 83.40 76.00 73.20 75.40 74.80 76.20
:
: 1996-97
:
AZ : 63.00 96.00 93.00 53.00 47.00 62.00 69.00
AR 3/: 68.00 56.00 53.00
CA : 71.00 77.00 83.00 78.00 82.00 71.00 81.00
CO : 74.00 75.00 76.00 75.00 81.00 87.00 85.00
ID : 60.00 63.00 67.00 71.00 66.00 74.00 76.00
IL : 63.00 63.00 73.00 70.00 73.00 78.00 80.00
IN 3/: 84.00 91.00 79.00
IA : 65.00 72.00 76.00 67.00 66.00 66.00 74.00
KS : 59.00 58.00 58.00 57.00 57.00 58.00 69.00
KY : 66.00 64.00 66.00 73.00 80.00 77.00 74.00
MI : 65.00 75.00 75.00 70.00 65.00 70.00 80.00
MN : 53.00 53.00 58.00 54.00 51.00 51.00 62.00
MO : 60.00 62.00 62.00 62.00 60.00 61.00 60.00
MT : 57.00 56.00 55.00 55.00 58.00 59.00 58.00
NE : 44.00 43.00 43.00 48.00 49.00 51.00 47.00
NV : 85.00 98.00 55.00 75.00 92.00 79.00 64.00
NM : 94.00 97.00 99.00 97.00 102.00 94.00 91.00
NY : 80.00 70.00 69.00 68.00 69.00 55.00 75.00
ND : 32.00 36.00 32.00 35.00 36.00 34.00 35.00
OH : 60.00 60.00 60.00 75.00 80.00 90.00 90.00
OK : 60.00 61.00 67.00 57.00 60.00 66.00 60.00
OR : 76.00 76.00 76.00 74.00 74.00 74.00 74.00
PA : 93.00 101.00 99.00 91.00 95.00 99.00 101.00
SD : 48.00 55.00 51.00 58.00 47.00 47.00 48.00
TX : 71.00 75.00 95.00 95.00 91.00 94.00 76.00
UT : 40.00 40.00 40.00 45.00 45.00 43.00 45.00
WA : 124.00 132.00 140.00 143.00 144.00 146.00 140.00
WI : 60.00 45.00 60.00 40.00 50.00 55.00 56.00
WY : 60.00 58.00 60.00 63.00 64.00 67.00 67.00
:
US : 71.10 76.80 76.40 78.20 74.10 73.60 73.10
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Other Hay, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Nov : Dec : Jan 2/ : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Ton
:
: 1997-98
:
AZ : 68.00 80.00 102.00 91.00 86.00 61.00
CA : 98.00 108.00 103.00 107.00 87.00 104.00 106.00
CO : 110.00 110.00 110.00 105.00 106.00 105.00 98.00
ID : 70.00 75.00 80.00 90.00 80.00 65.00 55.00
IL : 84.00 87.00 86.00 81.00 80.00 80.00 76.00
IA : 75.00 74.00 75.00 71.00 69.00 73.00 67.00
KS : 72.00 74.00 72.00 76.00 66.00 64.00 65.00
KY : 71.00 68.00 67.00 70.00 70.00 72.00 73.00
MI : 100.00 95.00 100.00 90.00 90.00 95.00 85.00
MN : 63.00 68.00 64.00 52.00 55.00 41.00 57.00
MO : 65.00 65.00 65.00 65.00 65.00 65.00 66.00
MT : 71.00 70.00 66.00 66.00 63.00 60.00 61.00
NE : 62.00 62.00 63.00 56.00 57.00 56.00 54.00
NV : 85.00 95.00 95.00 90.00 95.00 91.00 93.00
NM : 95.00 97.00 92.00 96.00 102.00 96.00 98.00
NY : 88.00 85.00 92.00 106.00 76.00 76.00 89.00
ND : 42.00 42.00 41.00 40.00 41.00 37.00 38.00
OH : 95.00 90.00 90.00 80.00 80.00 70.00 75.00
OK : 51.00 59.00 45.00 66.00 58.00 65.00 66.00
OR : 95.00 95.00 90.00 95.00 94.00 94.00 95.00
PA : 125.00 129.00 131.00 133.00 131.00 129.00 117.00
SD : 65.00 60.00 60.00 55.00 45.00 45.00 41.00
TX : 63.00 62.00 62.00 60.00 60.00 57.00 60.00
UT : 72.00 70.00 70.00 68.00 67.00 60.00 60.00
WA : 151.00 146.00 138.00 137.00 144.00 123.00 137.00
WI : 65.00 65.00 65.00 70.00 80.00 81.00 70.00
WY : 80.00 80.00 80.00 80.00 79.00 71.00 71.00
:
US : 75.80 76.10 76.40 76.80 76.30 72.20 78.60
:
: 1996-97
:
AZ : 87.00 75.00 60.00 60.00 50.00 74.00 132.00
AR 3/:
CA : 68.00 83.00 89.00 87.00 89.00 92.00 91.00
CO : 87.00 88.00 98.00 95.00 100.00 110.00 115.00
ID : 84.00 83.00 85.00 89.00 90.00 76.00 74.00
IL : 85.00 87.00 92.00 92.00 96.00 96.00 92.00
IN 3/:
IA : 77.00 73.00 77.00 75.00 77.00 74.00 77.00
KS : 70.00 70.00 70.00 73.00 75.00 71.00 68.00
KY : 72.00 68.00 67.00 69.00 68.00 66.00 63.00
MI : 90.00 100.00 115.00 105.00 110.00 100.00 110.00
MN : 60.00 73.00 74.00 75.00 71.00 70.00 67.00
MO : 61.00 61.00 66.00 64.00 65.00 64.00 65.00
MT : 60.00 72.00 88.00 93.00 93.00 95.00 89.00
NE : 44.00 49.00 51.00 49.00 51.00 50.00 53.00
NV : 85.00 84.00 85.00 100.00 85.00 90.00 86.00
NM : 101.00 98.00 101.00 104.00 108.00 103.00 103.00
NY : 65.00 79.00 76.00 79.00 84.00 89.00 85.00
ND : 35.00 37.00 40.00 45.00 45.00 47.00 44.00
OH : 100.00 115.00 115.00 120.00 100.00 100.00 110.00
OK : 60.00 60.00 75.00 60.00 54.00 59.00 59.00
OR : 76.00 76.00 80.00 80.00 82.00 85.00 80.00
PA : 105.00 113.00 114.00 118.00 111.00 107.00 111.00
SD : 47.00 53.00 58.00 62.00 64.00 64.00 67.00
TX : 76.00 79.00 80.00 78.00 78.00 72.00 71.00
UT : 48.00 46.00 53.00 53.00 53.00 55.00 55.00
WA : 147.00 138.00 138.00 132.00 137.00 142.00 137.00
WI : 61.00 70.00 74.00 68.00 70.00 70.00 65.00
WY : 67.00 70.00 74.00 80.00 85.00 85.00 85.00
:
US : 73.30 73.90 79.40 77.40 80.10 82.30 83.40
------------------------------------------------------------------------------
1/ April - March for AZ; May - April for AR, CA, GA, KS, KY, MO, NV, NM, OK,
TX and UT; June - May for all other estimated States; April - May for US.
2/ Second year.
3/ Estimates discontinued.
Prices Received: Dry Beans, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
CA : 31.10 30.00 29.70 29.60 29.10 28.60
CO : 15.50 15.70 17.80 19.20 22.10 22.90
ID : 18.90 19.30 19.60 20.30 21.70 22.50
MI : 14.70 16.70 18.00 20.90 20.90 20.10
MN : 15.90 16.00 16.50 17.70 18.60 20.60
NE : 16.80 16.40 17.40 18.60 20.80 21.10
ND : 14.60 14.60 16.00 18.10 19.00 19.90
:
US : 16.20 16.90 18.60 20.30 21.10 21.20
:
: 1996-97
:
CA : 37.20 36.10 37.70 38.70 38.90 39.60
CO : 26.00 23.60 23.20 22.20 21.30 21.10
ID : 25.00 25.10 24.10 24.00 24.20 24.50
MI : 24.10 24.00 22.90 22.00 21.40 20.10
MN : 26.50 24.40 26.10 21.90 23.50 21.30
NE : 24.30 23.10 20.70 19.90 19.20 19.10
ND : 22.00 22.20 21.30 20.60 19.80 19.10
:
US : 24.40 24.00 25.10 24.10 23.20 23.60
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Dry Beans, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Mar : Apr : May : Jun : Jul : Aug
------------------------------------------------------------------------------
: Dollars per Cwt
:
: 1997-98
:
CA : 28.10 28.60 27.80 28.60 30.40 31.20
CO : 19.90 2150 21.00 21.60 21.50 20.20
ID : 22.00 21.80 21.60 22.00 21.40 21.10
MI : 18.80 20.00 18.80 19.00 19.00 17.10
MN : 19.80 17.70 17.20 18.00 21.10 19.70
NE : 21.00 20.30 19.70 20.40 20.30 19.70
ND : 17.60 17.90 16.90 18.00 19.20 17.50
:
US : 20.20 20.80 20.80 20.90 21.30 19.60
:
: 1996-97
:
CA : 39.50 39.40 39.60 38.70 39.10 37.80
CO : 19.90 19.70 19.90 20.40 19.40 18.30
ID : 23.70 23.00 23.10 23.40 23.00 20.40
MI : 20.60 20.90 18.90 18.50 17.30 15.60
MN : 21.90 17.40 18.30 17.30 18.90 3/
NE : 19.40 19.00 19.50 19.40 18.80 17.70
ND : 18.10 16.90 16.10 17.40 17.10 15.50
:
US : 23.30 23.00 22.20 21.20 21.90 20.40
------------------------------------------------------------------------------
1/ September - August for all estimated States.
2/ Second year.
3/ Price not published to avoid disclosure of individual buyers.
Prices Received: Peanuts, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : Aug : Sep : Oct : Nov : Dec : Jan 2/ : Feb
------------------------------------------------------------------------------
: Dollars per Pound
:
: 1997-98
:
AL : .301 .278 .283
FL : .282 .276 .327
GA : .300 .307 .299 .304
NC : .271 .253 .330
TX : .263 .242 .230 .288
VA : .319 .290 .293 .350
:
US : .297 .279 .250 .307
:
: 1996-97
:
AL : .287 .275 .263 .286
FL : .286 .278 .281
GA : .299 .296 .296 .314
NC : .292 .283 .250 .244
TX : .251 .235 .268 .316
VA : .295 .294 .250 .262
:
US : .294 .276 .271 .281
------------------------------------------------------------------------------
1/ August - February for all estimated States.
2/ Second year.
Prices Received: All Rice, United States by Month,
for Marketing Years, 1995-96 through 1997-98 1/
------------------------------------------------------------------------------
Year : Aug : Sep : Oct : Nov : Dec : Jan 2/
------------------------------------------------------------------------------
: Dollars per Cwt
:
1997-98: 9.94 9.92 10.00 9.82 9.77 9.57
1996-97: 10.10 10.00 9.66 9.41 9.82 9.95
1995-96: 7.77 8.01 8.84 9.21 9.45 9.36
:----------------------------------------------------------------------
: Feb : Mar : Apr : May : Jun : Jul
:----------------------------------------------------------------------
: Dollars per Cwt
:
1997-98: 9.75 9.67 9.40 9.38 9.58 9.58
1996-97: 10.10 10.20 10.30 10.20 9.90 10.00
1995-96: 9.19 9.20 9.35 9.73 9.77 9.81
------------------------------------------------------------------------------
1/ August - July for US.
2/ Second year.
Prices Received: Cottonseed, by State and Month,
for Marketing Year, August 1997 - February 1998 1/
---------------------------------------------------------------------------
: : : : : : :
State : Aug : Sep : Oct : Nov : Dec : Jan : Feb
: : : : : : :
---------------------------------------------------------------------------
: Dollars Per Ton
:
AL : 109.00 112.00 110.00 111.00
AZ : 2/ 130.00 137.00 135.00 130.00
AR : 106.00 106.00 111.00 2/
CA : 2/ 171.00 175.00 177.00 2/
FL :
GA : 101.00 105.00 108.00 109.00 109.00 107.00
KS :
LA : 110.00 110.00 120.00
MS : 100.00 112.00 110.00 2/
MO :
NM :
NC : 2/ 109.00 116.00 115.00 111.00
OK :
SC :
TN : 115.00 115.00 120.00 120.00
TX : 112.00 111.00 120.00 116.00 113.00 111.00 108.00
VA :
:
US : 112.00 115.00 119.00 124.00 122.00 121.00 107.00
-----------------------------------------------------------------------------
1/ Revised. Monthly prices available only for major cotton producing states.
2/ Not published to avoid disclosure of individual operations.
Prices Received: Upland Cotton, by State and Month,
for Marketing Years, 1996-97 and 1997-98
------------------------------------------------------------------------------
State : Aug : Sep : Oct : Nov : Dec : Jan 1/
------------------------------------------------------------------------------
: Dollars per Pound
:
: 1997-98
:
AL : 2/ 2/ .682 .685 .680 .669
AZ : 2/ .692 .666 .650 .640 .606
AR : .661 .687 .684 .676 .634 .632
CA : .684 2/ .769 .747 .697 .734
GA : .695 .700 .722 .716 .680 .638
LA : .629 .658 .677 .666 .635 .641
MS : .679 .689 .667 .660 .637 .637
NC : 2/ .741 .688 .682 .654 .641
TN : .634 .642 .658 .699 .637 .617
TX : .682 .668 .646 .625 .581 .559
:
US : .670 .696 .694 .679 .638 .611
:
: 1996-97
:
AL : 2/ 2/ .729 .700 .726 .705
AZ : .677 .729 .670 .683 .721 .688
AR : .750 .730 .733 .707 .711 .675
CA : .770 .776 .756 .770 .775 .766
GA : .777 .740 .727 .730 .704 .689
LA : .736 .705 .691 .664 .657 .646
MS : .735 .726 .717 .689 .660 .663
NC : .722 .722 .733 .746 .703 .714
TN : .750 .705 .706 .669 .675 .668
TX : .705 .691 .654 .650 .654 .634
:
US : .719 .716 .715 .697 .693 .679
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Upland Cotton, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued)
------------------------------------------------------------------------------
State : Feb : Mar : Apr : May : Jun : Jul
------------------------------------------------------------------------------
: Dollars per Pound
:
: 1997-98
:
AL : .649 .643 .631 2/ .690 2/
AZ : .609 .614 .583 .582 .703 2/
AR : .664 .643 .617 .633 .673 .665
CA : .713 .713 .686 .715 .775 2/
GA : .629 .634 .615 .645 .685 .677
LA : .629 .625 .610 .633 .652 .652
MS : .633 .631 .640 .644 .676 .665
NC : .638 .656 .626 .630 .689 2/
TN : .627 .629 .630 .630 .685 .665
TX : .579 .591 .599 .608 .679 .703
:
US : .625 .639 .636 .635 .697 .680
:
: 1996-97
:
AL : 676 .671 2/ 2/ 2/ .677
AZ : .690 .737 .688 .704 2/ 2/
AR : .667 .671 .674 .662 .670 .663
CA : .776 .774 .737 .755 .745 .743
GA : .680 .688 .664 .695 .675 .697
LA : .655 .647 .622 .616 .636 .625
MS : .671 .674 .662 .660 .655 .661
NC : .701 .711 .678 .694 .691 2/
TN : .662 .665 .642 .636 .638 .654
TX : .656 .653 .653 .660 .668 .669
:
US : .681 .693 .676 .683 .671 .675
------------------------------------------------------------------------------
1/ Second year.
2/ Insufficient sales to establish a price.
Prices Received: All Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3.08 2.90 3/ 2.90 3/ 3/ 3/
CO : 3.03 2.56 3.24 3.14 2.92 3.02 2.74
ID : 2.70 3.13 2.99 2.93 2.72 2.66 2.98
MN : 2.22 2.06 2.02 1.84 1.86 2.09 1.95
MT : 2.62 2.42 2.83 3.00 2.72 2.76 3.01
ND : 2.08 2.07 1.95 1.87 1.94 2.13 2.10
OR : 2.68 2.50 2.56 2.28 2.47 2.43 2.49
SD : 2.35 2.43 2.12 2.08 2.30 2.44 2.42
UT : 2.74 2.57 2.36 2.25 2.26 2.33 2.38
WA : 2.49 2.65 2.40 2.28 2.38 2.32 2.37
WY : 2.46 2.32 3.29 3.32 3.39 3.37 3.09
:
US : 2.29 2.25 2.27 2.35 2.38 2.44 2.61
:
: 1996-97
:
CA : 4.01 4.13 3.85 3.76 3.42 3/ 3.04
CO : 3/ 3/ 3.18 3.15 3.04 3.03 2.99
ID : 3.58 3.56 3.29 3.38 3.15 2.83 3.13
MN : 3.02 3.18 2.96 2.74 2.48 2.29 2.32
MT : 3.34 3.28 3.26 3.27 3.25 3.05 3.19
ND : 3.18 3.49 3.10 2.74 2.51 2.58 2.27
OR : 3.69 3.83 3.13 3.02 2.77 2.60 2.56
SD : 3.42 3.32 2.91 2.74 2.69 2.41 2.65
UT : 3.84 3.73 3.25 2.98 3.08 3.05 2.96
WA : 3.39 3.48 3.02 2.99 2.71 2.45 2.43
WY : 3.24 3.36 3.12 3.36 3.33 3.37 3.28
:
US : 3.45 3.55 3.17 2.99 2.78 2.69 2.65
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: All Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3/ 2.83 2.80 2.76 3/ 3/ 2.34
CO : 2.14 2.15 2.50 2.40 2.49 2.16 2.04
ID : 2.84 2.78 2.91 2.97 2.61 2.68 2.22
MN : 1.88 1.77 1.69 1.79 1.75 1.82 1.73
MT : 2.88 2.92 2.79 2.82 2.52 2.26 2.22
ND : 2.01 2.04 1.95 1.96 1.87 1.78 1.85
OR : 2.38 2.45 2.22 2.18 2.38 2.04 2.21
SD : 2.35 2.28 2.02 2.08 2.14 2.42 2.24
UT : 2.38 2.34 2.34 2.29 2.37 2.15 2.14
WA : 2.29 2.23 2.11 2.24 1.97 1.90 1.87
WY : 3.40 3.12 2.94 2.94 2.79 1.92 2.10
:
US : 2.43 2.42 2.42 2.40 2.16 2.13 1.93
:
: 1996-97
:
CA : 3/ 3.06 3/ 3.03 3/ 3.08 2.90
CO : 3.10 2.64 2.41 2.40 2.61 3.03 2.56
ID : 3.07 3.23 3.10 3.06 2.74 2.70 3.13
MN : 2.26 2.25 2.17 2.20 2.24 2.22 2.06
MT : 3.12 2.93 3.10 2.71 2.56 2.62 2.42
ND : 2.26 2.24 2.22 2.17 2.10 2.08 2.07
OR : 2.72 2.66 2.61 2.55 2.57 2.68 2.50
SD : 2.37 2.27 2.29 2.46 2.20 2.35 2.43
UT : 2.60 2.63 2.59 2.69 2.74 2.74 2.57
WA : 2.42 2.54 2.39 2.49 2.47 2.49 2.65
WY : 3.51 2.99 3.35 3.48 2.59 2.46 2.32
:
US : 2.67 2.52 2.45 2.37 2.29 2.29 2.25
------------------------------------------------------------------------------
1/ June - May for CA; July - June for all other estimated States;
June - May for US.
2/ Second year.
3/ Not published to avoid disclosure of individual operations.
Prices Received: Feed Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3.08 2.90 3/ 2.90 3/ 3/ 3/
CO : 3.03 2.56 2.20 2.09 2.08 2.02 2.30
ID : 2.51 2.56 2.37 2.23 2.25 2.41 2.38
MN : 2.01 2.04 1.82 1.73 1.81 1.80 1.81
MT : 2.24 2.27 2.17 2.06 2.03 2.13 2.29
ND : 1.98 1.94 1.74 1.73 1.82 1.93 1.84
OR : 2.62 2.50 2.50 2.28 2.42 2.43 2.47
SD : 2.17 2.08 1.93 1.78 1.77 1.89 1.76
UT : 2.74 2.57 2.36 2.25 2.26 2.33 2.38
WA : 2.54 2.47 2.39 2.27 2.33 2.29 2.32
WY : 2.46 2.32 3/ .668
TX : .705 .691 .654 .650 .654 .634
:
US : .719 .716 .715 .697 .693 .679
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Upland Cotton, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued)
------------------------------------------------------------------------------
State : Feb : Mar : Apr : May : Jun : Jul
------------------------------------------------------------------------------
: Dollars per Pound
:
: 1997-98
:
AL : .649 .643 .631 2/ .690 2/
AZ : .609 .614 .583 .582 .703 2/
AR : .664 .643 .617 .633 .673 .665
CA : .713 .713 .686 .715 .775 2/
GA : .629 .634 .615 .645 .685 .677
LA : .629 .625 .610 .633 .652 .652
MS : .633 .631 .640 .644 .676 .665
NC : .638 .656 .626 .630 .689 2/
TN : .627 .629 .630 .630 .685 .665
TX : .579 .591 .599 .608 .679 .703
:
US : .625 .639 .636 .635 .697 .680
:
: 1996-97
:
AL : 676 .671 2/ 2/ 2/ .677
AZ : .690 .737 .688 .704 2/ 2/
AR : .667 .671 .674 .662 .670 .663
CA : .776 .774 .737 .755 .745 .743
GA : .680 .688 .664 .695 .675 .697
LA : .655 .647 .622 .616 .636 .625
MS : .671 .674 .662 .660 .655 .661
NC : .701 .711 .678 .694 .691 2/
TN : .662 .665 .642 .636 .638 .654
TX : .656 .653 .653 .660 .668 .669
:
US : .681 .693 .676 .683 .671 .675
------------------------------------------------------------------------------
1/ Second year.
2/ Insufficient sales to establish a price.
Prices Received: All Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3.08 2.90 3/ 2.90 3/ 3/ 3/
CO : 3.03 2.56 3.24 3.14 2.92 3.02 2.74
ID : 2.70 3.13 2.99 2.93 2.72 2.66 2.98
MN : 2.22 2.06 2.02 1.84 1.86 2.09 1.95
MT : 2.62 2.42 2.83 3.00 2.72 2.76 3.01
ND : 2.08 2.07 1.95 1.87 1.94 2.13 2.10
OR : 2.68 2.50 2.56 2.28 2.47 2.43 2.49
SD : 2.35 2.43 2.12 2.08 2.30 2.44 2.42
UT : 2.74 2.57 2.36 2.25 2.26 2.33 2.38
WA : 2.49 2.65 2.40 2.28 2.38 2.32 2.37
WY : 2.46 2.32 3.29 3.32 3.39 3.37 3.09
:
US : 2.29 2.25 2.27 2.35 2.38 2.44 2.61
:
: 1996-97
:
CA : 4.01 4.13 3.85 3.76 3.42 3/ 3.04
CO : 3/ 3/ 3.18 3.15 3.04 3.03 2.99
ID : 3.58 3.56 3.29 3.38 3.15 2.83 3.13
MN : 3.02 3.18 2.96 2.74 2.48 2.29 2.32
MT : 3.34 3.28 3.26 3.27 3.25 3.05 3.19
ND : 3.18 3.49 3.10 2.74 2.51 2.58 2.27
OR : 3.69 3.83 3.13 3.02 2.77 2.60 2.56
SD : 3.42 3.32 2.91 2.74 2.69 2.41 2.65
UT : 3.84 3.73 3.25 2.98 3.08 3.05 2.96
WA : 3.39 3.48 3.02 2.99 2.71 2.45 2.43
WY : 3.24 3.36 3.12 3.36 3.33 3.37 3.28
:
US : 3.45 3.55 3.17 2.99 2.78 2.69 2.65
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: All Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3/ 2.83 2.80 2.76 3/ 3/ 2.34
CO : 2.14 2.15 2.50 2.40 2.49 2.16 2.04
ID : 2.84 2.78 2.91 2.97 2.61 2.68 2.22
MN : 1.88 1.77 1.69 1.79 1.75 1.82 1.73
MT : 2.88 2.92 2.79 2.82 2.52 2.26 2.22
ND : 2.01 2.04 1.95 1.96 1.87 1.78 1.85
OR : 2.38 2.45 2.22 2.18 2.38 2.04 2.21
SD : 2.35 2.28 2.02 2.08 2.14 2.42 2.24
UT : 2.38 2.34 2.34 2.29 2.37 2.15 2.14
WA : 2.29 2.23 2.11 2.24 1.97 1.90 1.87
WY : 3.40 3.12 2.94 2.94 2.79 1.92 2.10
:
US : 2.43 2.42 2.42 2.40 2.16 2.13 1.93
:
: 1996-97
:
CA : 3/ 3.06 3/ 3.03 3/ 3.08 2.90
CO : 3.10 2.64 2.41 2.40 2.61 3.03 2.56
ID : 3.07 3.23 3.10 3.06 2.74 2.70 3.13
MN : 2.26 2.25 2.17 2.20 2.24 2.22 2.06
MT : 3.12 2.93 3.10 2.71 2.56 2.62 2.42
ND : 2.26 2.24 2.22 2.17 2.10 2.08 2.07
OR : 2.72 2.66 2.61 2.55 2.57 2.68 2.50
SD : 2.37 2.27 2.29 2.46 2.20 2.35 2.43
UT : 2.60 2.63 2.59 2.69 2.74 2.74 2.57
WA : 2.42 2.54 2.39 2.49 2.47 2.49 2.65
WY : 3.51 2.99 3.35 3.48 2.59 2.46 2.32
:
US : 2.67 2.52 2.45 2.37 2.29 2.29 2.25
------------------------------------------------------------------------------
1/ June - May for CA; July - June for all other estimated States;
June - May for US.
2/ Second year.
3/ Not published to avoid disclosure of individual operations.
Prices Received: Feed Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3.08 2.90 3/ 2.90 3/ 3/ 3/
CO : 3.03 2.56 2.20 2.09 2.08 2.02 2.30
ID : 2.51 2.56 2.37 2.23 2.25 2.41 2.38
MN : 2.01 2.04 1.82 1.73 1.81 1.80 1.81
MT : 2.24 2.27 2.17 2.06 2.03 2.13 2.29
ND : 1.98 1.94 1.74 1.73 1.82 1.93 1.84
OR : 2.62 2.50 2.50 2.28 2.42 2.43 2.47
SD : 2.17 2.08 1.93 1.78 1.77 1.89 1.76
UT : 2.74 2.57 2.36 2.25 2.26 2.33 2.38
WA : 2.54 2.47 2.39 2.27 2.33 2.29 2.32
WY : 2.46 2.32 3/ 1.94 2.20 1.92 1.92
:
US : 2.26 2.14 1.96 1.96 2.09 2.17 2.15
:
: 1996-97
:
CA : 4.01 4.13 3.85 3.76 3.42 3/ 3.04
CO : 3/ 3/ 3.16 3.06 2.80 2.62 2.57
ID : 3.59 3.64 3.65 3.14 2.82 2.60 2.51
MN : 3.00 3.17 2.83 2.72 2.45 2.25 2.23
MT : 3.30 3.22 3.27 2.81 2.58 2.44 2.35
ND : 2.95 3.17 2.80 2.46 2.26 2.20 2.14
OR : 3.69 3.83 3.13 3.02 2.77 2.60 2.55
SD : 3.17 3.17 2.81 2.58 2.62 2.34 2.50
UT : 3.84 3.73 3.25 2.98 3.08 3.05 2.96
WA : 3.39 3.48 3.02 2.96 2.67 2.38 2.38
WY : 3.24 3.36 3.30 3.06 2.77 2.83 2.85
:
US : 3.43 3.57 3.12 2.75 2.43 2.40 2.30
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Feed Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3/ 2.83 2.80 2.76 3/ 3/ 2.34
CO : 2.14 2.15 2.21 2.32 2.02 2.16 2.04
ID : 2.16 2.37 2.42 2.33 2.26 2.22 2.21
MN : 1.77 1.72 1.65 1.64 1.51 1.50 1.64
MT : 2.01 2.13 2.14 2.04 2.02 1.92 2.06
ND : 1.84 1.82 1.75 1.68 1.55 1.54 1.53
OR : 2.38 2.37 2.22 2.18 2.38 2.04 2.21
SD : 1.85 1.90 1.91 1.76 1.86 1.90 1.52
UT : 2.38 2.34 2.34 2.29 2.37 2.15 2.14
WA : 2.26 2.15 2.08 2.19 1.91 1.83 1.84
WY : 2.04 2.07 2.00 2.11 1.90 1.92 2.10
:
US : 2.03 2.09 2.02 1.99 1.90 1.91 1.82
:
: 1996-97
:
CA : 3/ 3.06 3/ 3.03 3/ 3.08 2.90
CO : 2.51 2.61 2.41 2.40 2.61 3.03 2.56
ID : 2.66 2.63 2.63 2.51 2.61 2.51 2.56
MN : 2.21 2.05 2.15 1.98 1.94 2.01 2.04
MT : 2.35 2.34 2.34 2.37 2.22 2.24 2.27
ND : 2.07 2.04 2.03 2.01 1.99 1.98 1.94
OR : 2.66 2.59 2.58 2.55 2.57 2.62 2.50
SD : 2.14 1.99 1.90 2.10 2.05 2.17 2.08
UT : 2.60 2.63 2.59 2.69 2.74 2.74 2.57
WA : 2.41 2.50 2.39 2.45 2.42 2.54 2.47
WY : 2.78 2.76 2.50 2.75 2.59 2.46 2.32
:
US : 2.31 2.29 2.23 2.21 2.26 2.26 2.14
------------------------------------------------------------------------------
1/ June - May for CA; July - June for all other estimated States;
June - May for US.
2/ Second year.
3/ Not published to avoid disclosure of individual operations.
Prices Received: Malting Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
ID : 3.01 3.48 3.31 3.21 3.17 3.01 3.10
MN : 2.27 2.12 2.09 2.42 1.99 2.25 3/
MT : 3.29 2.97 3.29 3.23 3.14 3.07 3.19
ND : 2.21 2.17 2.08 2.08 2.32 2.41 2.33
SD : 2.48 2.47 2.18 2.35 2.52 2.65 2.47
WA : 2.32 3.12 3/ 2.90 2.87 2.72 2.86
:
US : 2.32 2.38 2.45 2.82 2.93 2.81 2.92
:
: 1996-97
:
ID : 3.57 3.36 3.20 3.44 3.28 3.10 3.31
MN : 3.30 3.21 3.05 2.95 2.52 2.86 2.60
MT : 3.43 3.45 3.26 3.37 3.42 3.46 3.47
ND : 3.53 3.63 3.34 2.87 2.75 2.75 2.44
SD : 3.55 3.61 3.23 2.98 2.74 2.66 2.72
WA : 3/ 3/ 3/ 3.52 3.19 3.04 3.10
:
US : 3.52 3.52 3.22 3.14 3.03 3.01 3.04
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Malting Barley, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
ID : 3.17 3.13 3.18 3.23 2.95 2.97 2.78
MN : 1.99 1.95 2.02 2.15 2.04 2.25 1.90
MT : 3.14 3.06 3.11 3.07 2.74 2.77 2.75
ND : 2.16 2.16 2.20 2.18 2.19 2.07 2.06
SD : 2.48 2.37 2.28 2.40 2.45 2.49 2.30
WA : 2.77 2.62 3/ 2.96 2.61 3/ 2.80
:
US : 2.75 2.66 2.86 2.73 2.50 2.52 2.10
:
: 1996-97
:
ID : 3.27 3.49 3.36 3.33 3.22 3.01 3.48
MN : 2.41 2.28 2.23 2.23 2.24 2.27 2.12
MT : 3.43 3.34 3.49 3.17 3.13 3.29 2.97
ND : 2.39 2.39 2.27 2.27 2.18 2.21 2.17
SD : 2.51 2.39 2.47 2.52 2.43 2.48 2.47
WA : 2.93 3.02 3.00 2.61 3.02 2.32 3.12
:
US : 2.96 2.69 2.63 2.46 2.31 2.32 2.38
------------------------------------------------------------------------------
1/ June - May for CA; July - June for all other estimated States;
June - May for US.
2/ Second year.
3/ Not published to avoid disclosure of individual operations.
Prices Received: Oats, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
IL : 2.30 2.25 1.77 1.69 1.61 1.63 3/
IA : 2.12 1.93 1.63 1.58 1.51 1.56 1.92
MI : 2.41 2.42 2.01 1.83 1.72 2.02 1.63
MN : 1.80 1.73 1.54 1.45 1.42 1.49 1.56
MT : 1.80 1.65 3/ 1.32 1.22 1.22 3/
NE : 1.97 2.14 1.82 1.80 1.61 1.58 1.94
ND : 1.48 1.49 1.37 1.31 1.28 1.42 1.45
OH : 2.27 2.18 2.06 1.75 1.76 1.72 1.81
OR : 2.08 2.07 2.10 1.94 1.83 1.79 1.76
PA : 2.33 2.24 1.91 1.77 1.92 1.89 1.88
SD : 1.76 1.72 1.57 1.56 1.53 1.59 1.55
TX : 3/ 2.04 1.91 3/ 3/ 3/ 3/
WI : 1.90 1.81 1.65 1.44 1.41 1.45 1.45
:
US : 1.86 1.81 1.67 1.57 1.47 1.62 1.66
:
: 1996-97
:
CA 4/: 2.56 2.15 2.09
IL : 2.37 2.23 2.40 2.23 2.19 2.24 2.46
IA : 2.48 2.29 2.26 2.17 2.05 2.05 1.95
MI : 2.77 2.82 2.59 2.39 2.34 2.38 2.21
MN : 2.15 2.10 2.04 1.87 1.80 1.63 1.77
MT : 3/ 2.23 2.13 2.10 1.82 1.87 1.70
NE : 2.66 2.28 2.13 2.12 2.12 1.82 2.46
NY 4/: 2.25
ND : 2.26 2.00 1.94 1.84 1.62 1.63 1.64
OH : 2.58 2.51 2.52 2.46 2.34 2.58 2.45
OR : 2.27 2.41 2.21 2.22 2.50 2.17 2.22
PA : 2.63 2.44 2.18 2.25 2.01 2.21 2.10
SD : 2.27 2.09 2.05 1.91 1.81 1.83 1.62
TX : 3.55 2.81 2.96 3/ 3/ 3/ 3/
WI : 2.11 2.02 2.04 1.88 1.80 1.86 1.80
:
US : 2.48 2.17 2.13 2.00 1.83 1.84 1.85
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Oats, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
IL : 3/ 1.82 1.75 3/ 1.40 3/ 1.65
IA : 1.83 1.76 1.80 1.76 1.78 1.66 1.55
MI : 1.79 1.79 1.91 1.98 1.89 1.90 1.75
MN : 1.58 1.42 1.49 1.51 1.51 1.35 1.44
MT : 3/ 3/ 1.42 1.42 3/ 3/ 3/
NE : 1.61 1.81 1.62 1.81 1.81 1.65 1.66
ND : 1.34 1.36 1.29 1.32 1.33 1.32 1.10
OH : 1.72 1.90 1.71 1.73 1.67 1.78 1.63
OR : 1.81 1.85 1.65 1.78 1.89 1.76 1.52
PA : 1.96 1.94 1.90 1.95 1.75 1.74 1.66
SD : 1.52 1.52 1.62 1.67 1.57 1.46 1.31
TX : 3/ 3/ 3/ 3/ 3/ 1.41 1.36
WI : 1.51 1.48 1.52 1.51 1.52 1.45 1.34
:
US : 1.57 1.60 1.60 1.64 1.61 1.53 1.39
:
: 1996-97
:
CA 4/:
IL : 2.22 2.28 2.16 2.30 2.37 2.30 2.25
IA : 2.04 2.01 2.06 2.09 203 2.12 1.93
MI : 2.25 2.19 2.33 2.45 2.49 2.41 2.42
MN : 1.63 1.63 1.67 1.83 1.78 1.80 1.73
MT : 1.81 1.52 1.93 2.05 2.00 1.80 1.65
NE : 1.95 1.99 2.09 2.01 2.10 1.97 2.14
NY 4/:
ND : 1.51 1.53 1.50 1.53 1.62 1.48 1.49
OH : 2.14 2.26 2.13 2.23 2.24 2.27 2.18
OR : 2.15 2.19 2.06 2.04 2.07 2.08 2.07
PA : 2.24 2.32 2.33 2.44 2.27 2.33 2.24
SD : 1.60 1.77 1.78 1.75 1.75 1.76 1.72
TX : 3/ 3/ 3/ 3/ 2.50 2.45 2.04
WI : 2.12 1.92 1.96 1.92 1.94 1.90 1.81
:
US : 1.72 1.83 1.81 1.91 1.87 1.86 1.81
------------------------------------------------------------------------------
1/ May - April for TX; June - May for CA; July - June for all other
estimated States; June - May for US.
2/ Second year.
3/ Insufficient sales to establish a price.
4/ Estimates discontinued.
Prices Received: All Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3/ 3.58 3.28 3.48 3.50 3.49 3.35
CA : 4.20 4.01 3/ 3/ 3.73 3.92 3/
CO : 4.17 3.67 3.20 3.33 3.31 3.21 3.16
ID : 3.88 3.89 3.69 3.42 3.46 3.28 3.33
IL : 3.76 3.06 3.08 3.18 3.41 3.35 3.29
IN : 3.58 3.26 3.13 3.30 3.39 3.39 3.38
KS : 4.20 3.24 3.14 3.36 3.38 3.33 3.25
MI : 3.44 3.00 3.20 3.40 3.46 3.40 3.30
MN : 3.99 3.78 3.54 3.77 3.67 3.49 3.58
MO : 3.79 3.06 3.05 3.36 3.32 3.13 3.14
MT : 4.20 4.02 3.95 3.94 3.68 3.73 3.68
NE : 4.08 3.52 3.24 3.37 3.42 3.28 3.17
ND : 4.09 3.79 3.90 4.15 4.18 4.05 4.05
OH : 3.56 3.23 3.24 3.32 3.39 3.22 3.14
OK : 4.19 3.28 3.10 3.39 3.42 3.39 3.33
OR : 4.37 4.06 3.84 3.87 3.84 3.70 3.73
SD : 3.91 3.72 3.44 3.53 3.52 3.46 3.48
TX : 3.84 3.41 3.11 3.34 3.36 3.26 3.12
WA : 4.33 3.93 3.72 3.67 3.67 3.67 3.42
:
US : 4.08 3.52 3.23 3.56 3.66 3.58 3.54
:
: 1996-97
:
AZ 5/: 5.45
AR : 4.37 4.39 4.55 4.41 4.18 3.93 3.94
CA : 5.54 5.37 4.79 4.81 4.76 4.41 4.32
CO : 5.59 5.50 4.78 4.60 4.19 4.17 4.16
GA 5/: 4.51
ID : 5.15 5.16 5.11 4.36 4.39 4.02 3.92
IL : 5.71 4.27 4.20 4.24 4.10 3.82 3.59
IN : 5.49 4.42 4.09 4.00 4.12 3.62 3.24
KS : 6.34 5.38 5.02 4.64 4.22 4.23 4.17
MI : 4/ 4/ 4.07 4.05 3.84 3.79 3.56
MN : 5.64 5.87 5.17 4.69 4.59 4.26 4.31
MO : 4/ 4.52 4.23 4.12 3.96 3.85 3.81
MT : 5.49 5.32 5.30 4.96 4.44 4.27 4.19
NE : 5.91 5.63 4.77 4.58 4.07 4.06 4.17
ND : 5.86 5.65 5.20 4.80 4.45 4.37 4.14
OH : 4/ 4.73 4.05 4.04 4.13 3.96 3.67
OK : 6.10 5.48 4.87 4.54 4.16 4.12 4.14
OR : 5.46 5.80 4.71 4.72 4.50 4.10 3.90
SD : 6.10 5.84 4.85 4.39 4.06 4.00 3.89
TX : 5.96 5.42 4.96 4.52 4.12 4.10 4.09
WA : 5.66 5.72 5.21 4.92 4.51 3.98 3.92
:
US : 5.75 5.25 4.73 4.57 4.37 4.17 4.10
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: All Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3.35 3.30 3.20 3.10 2.89 2.80 2.88
CA : 3/ 3/ 3/ 3.13 3.13 3.73 2.99
CO : 3.25 3.17 3.18 3.25 3.08 2.92 2.87
ID : 3.10 3.10 2.95 2.85 2.80 2.64 2.52
IL : 3.29 3.27 3.24 3.27 3.05 2.88 2.54
IN : 3.20 3.20 3.04 2.99 2.56 2.55 2.50
KS : 3.13 3.09 3.14 3.14 2.89 2.91 2.71
MI : 2.93 3.10 3.07 3.06 2.77 2.59 2.60
MN : 3.49 3.39 3.34 3.47 3.42 3.41 3.30
MO : 3.10 3.04 3.01 2.98 2.74 2.63 2.46
MT : 3.82 3.59 3.43 3.49 3.56 3.43 3.34
NE : 3.12 3.13 3.15 3.19 3.03 3.00 2.79
ND : 3.77 3.89 3.58 3.70 3.56 3.33 3.42
OH : 3.08 3.08 2.98 2.96 2.67 2.62 2.50
OK : 3.18 3.11 3.13 3.14 2.88 2.77 2.62
OR : 3.50 3.50 3.39 3.34 3.09 3.09 2.56
SD : 3.42 3.41 3.34 3.45 3.34 3.27 3.04
TX : 3.19 3.05 3.12 3.07 2.89 2.97 2.66
WA : 3.42 3.31 3.27 3.25 2.97 3.03 2.69
:
US : 3.44 3.32 3.27 3.33 3.18 3.06 2.77
:
: 1996-97
:
AZ 5/:
AR : 3.84 3.86 3.76 3.78 4.05 3.73 3.58
CA : 4.20 4.82 4.38 4.54 4.34 4.20 4.01
CO : 4.09 4.20 4.06 4.07 4.25 4.17 3.67
GA 5/:
ID : 4.11 3.86 3.59 3.59 3.76 3.88 3.89
IL : 3.75 3.81 3.37 3.61 3.90 3.76 3.06
IN : 3.17 3.42 3.27 3.33 3.81 3.58 3.26
KS : 4.20 4.21 4.12 4.20 4.39 4.20 3.24
MI : 3.77 3.47 3.20 3.43 3.73 3.44 3.00
MN : 3.99 4.03 3.84 3.94 4.08 3.99 3.78
MO : 3.78 3.98 3.75 3.77 4.10 3.79 3.06
MT : 4.34 4.13 4.07 4.03 4.12 4.20 4.02
NE : 4.02 4.11 4.09 4.05 4.24 4.08 3.52
ND : 4.00 4.03 3.93 3.92 4.14 4.09 3.79
OH : 3.69 3.74 3.56 3.70 3.82 3.56 3.23
OK : 4.10 4.06 3.97 4.09 4.29 4.19 3.28
OR : 4.03 3.97 3.80 3.83 4.16 4.37 4.06
SD : 3.94 3.83 3.75 3.85 4.01 3.91 3.72
TX : 4.18 4.14 4.05 4.08 4.18 3.84 3.41
WA : 3.82 3.91 3.78 3.91 4.14 4.33 3.93
:
US : 4.06 4.02 3.89 3.93 4.10 4.08 3.52
------------------------------------------------------------------------------
1/ May - April for AZ, CA, GA, OK and TX; June - May for AR, IL, IN, KS and
MO; July - June for all other estimated States; June - May for US.
2/ Second year.
3/ Price not published to avoid disclosure of individual buyers.
4/ Insufficient sales to establish a price.
5/ Estimates discontinued.
Prices Received: Winter Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3/ 3.58 3.28 3.48 3.50 3.49 3.35
CA : 3/ 3/ 3/ 3/ 3.71 3/ 3/
CO : 4.18 3.68 3.20 3.33 3.29 3.22 3.13
ID : 3.89 3.94 3.64 3.44 3.44 3.35 3.25
IL : 3.76 3.06 3.08 3.18 3.41 3.35 3.29
IN : 3.58 3.26 3.13 3.30 3.39 3.39 3.38
KS : 4.20 3.24 3.14 3.36 3.38 3.33 3.25
MI : 3.44 3.00 3.20 3.40 3.46 3.40 3.30
MN : 3.71 4.11 3/ 3.28 3.40 3.28 3.07
MO : 3.79 3.06 3.05 3.36 3.32 3.13 3.14
MT : 4.22 4.04 3.97 3.86 3.37 3.58 3.43
NE : 4.08 3.52 3.24 3.37 3.42 3.28 3.17
ND : 3.10 3.15 3.30 3.75 3.22 4/
OH : 3.56 3.23 3.24 3.32 3.39 3.22 3.14
OK : 4.19 3.28 3.10 3.39 3.42 339 3.33
OR : 4.37 4.08 3.83 3.86 3.83 3.67 3.72
SD : 3.93 3.66 3.25 3.19 3.22 3.26 3.28
TX : 3.84 3.41 3.11 3.34 3.36 3.26 3.12
WA : 4.30 3.91 3.72 3.61 3.60 3.66 3.40
:
US : 4.09 3.42 3.16 3.40 3.46 3.44 3.31
:
: 1996-97
:
AZ 5/:
AR : 4.37 4.39 4.55 4.41 4.18 3.93 3.94
CA : 5.99 5.45 4.69 3/ 3/ 4.13 4.26
CO : 5.59 5.50 4.78 4.60 4.19 4.18 4.16
GA 5/: 4.51
ID : 5.17 5.44 4.83 4.47 4.38 4.04 3.94
IL : 5.71 4.27 4.20 4.24 4.10 3.82 3.59
IN : 5.49 4.42 4.09 4.00 4.12 3.62 3.24
KS : 6.34 5.38 5.02 4.64 4.22 4.23 4.17
MI : 3/ 3/ 4.07 4.05 3.84 3.79 3.56
MN : 3/ 3/ 5.34 4.48 4.36 3/ 3/
MO : 3/ 4.52 4.23 4.12 3.96 3.85 3.81
MT : 5.62 5.45 5.15 5.04 4.53 4.28 4.12
NE : 5.91 5.63 4.77 4.58 4.07 4.06 4.17
ND : 5.81 5.23 5.34 4.19 3.97 3.92 3.42
OH : 3/ 4.73 4.05 4.04 4.13 3.96 3.67
OK : 6.10 5.48 4.87 4.54 4.16 4.12 4.14
OR : 5.46 5.80 4.71 4.72 4.51 4.11 3.90
SD : 5.98 5.54 4.69 4.29 4.09 3.87 3.94
TX : 5.96 5.42 4.96 4.52 4.12 4.10 4.09
WA : 5.63 5.54 5.21 4.89 4.49 3.95 3.89
:
US : 5.81 5.14 4.67 4.51 4.28 4.06 4.04
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Winter Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3.35 3.30 3.20 3.10 2.89 2.80 2.88
CA : 3/ 3/ 3/ 3/ 3.13 3.11 2.99
CO : 3.25 3.17 3.20 3.25 3.08 2.92 2.88
ID : 3.08 3.03 2.99 2.85 2.79 2.56 2.49
IL : 3.29 3.27 3.24 3.27 3.05 2.88 2.54
IN : 3.20 3.20 3.04 2.99 2.56 2.55 2.50
KS : 3.13 3.09 3.14 3.14 2.89 2.91 2.71
MI : 2.93 3.10 3.07 3.06 2.77 2.59 2.60
MN : 3.10 3/ 3/ 3/ 3/ 3/ 3/
MO : 3.10 3.04 3.01 2.98 2.74 2.63 2.46
MT : 3.59 3.35 3.25 3.19 3.27 3.06 2.81
NE : 3.12 3.13 3.15 3.19 3.03 3.00 2.79
ND : 3.52 2.82 4/ 3.11 4/ 2.97 2.70
OH : 3.08 3.08 2.98 2.96 2.67 2.62 2.50
OK : 3.18 3.11 3.13 3.14 2.88 2.77 2.62
OR : 3.49 3.48 3.37 3.34 3.06 3.09 2.56
SD : 3.24 3.14 3.16 3.09 2.95 2.81 2.51
TX : 3.19 3.05 3.12 3.07 2.89 2.97 2.66
WA : 3.40 3.26 3.24 3.23 2.95 2.99 2.68
:
US : 3.24 3.16 3.16 3.16 2.94 2.90 2.68
:
: 1996-97
:
AZ 5/:
AR : 3.84 3.86 3.76 3.78 4.05 3.73 3.58
CA : 3/ 4.25 4.32 4.51 4.34 3/ 3/
CO : 4.09 4.21 4.07 4.08 4.26 4.18 3.68
GA 5/:
IDh,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3.35 3.30 3.20 3.10 2.89 2.80 2.88
CA : 3/ 3/ 3/ 3.13 3.13 3.73 2.99
CO : 3.25 3.17 3.18 3.25 3.08 2.92 2.87
ID : 3.10 3.10 2.95 2.85 2.80 2.64 2.52
IL : 3.29 3.27 3.24 3.27 3.05 2.88 2.54
IN : 3.20 3.20 3.04 2.99 2.56 2.55 2.50
KS : 3.13 3.09 3.14 3.14 2.89 2.91 2.71
MI : 2.93 3.10 3.07 3.06 2.77 2.59 2.60
MN : 3.49 3.39 3.34 3.47 3.42 3.41 3.30
MO : 3.10 3.04 3.01 2.98 2.74 2.63 2.46
MT : 3.82 3.59 3.43 3.49 3.56 3.43 3.34
NE : 3.12 3.13 3.15 3.19 3.03 3.00 2.79
ND : 3.77 3.89 3.58 3.70 3.56 3.33 3.42
OH : 3.08 3.08 2.98 2.96 2.67 2.62 2.50
OK : 3.18 3.11 3.13 3.14 2.88 2.77 2.62
OR : 3.50 3.50 3.39 3.34 3.09 3.09 2.56
SD : 3.42 3.41 3.34 3.45 3.34 3.27 3.04
TX : 3.19 3.05 3.12 3.07 2.89 2.97 2.66
WA : 3.42 3.31 3.27 3.25 2.97 3.03 2.69
:
US : 3.44 3.32 3.27 3.33 3.18 3.06 2.77
:
: 1996-97
:
AZ 5/:
AR : 3.84 3.86 3.76 3.78 4.05 3.73 3.58
CA : 4.20 4.82 4.38 4.54 4.34 4.20 4.01
CO : 4.09 4.20 4.06 4.07 4.25 4.17 3.67
GA 5/:
ID : 4.11 3.86 3.59 3.59 3.76 3.88 3.89
IL : 3.75 3.81 3.37 3.61 3.90 3.76 3.06
IN : 3.17 3.42 3.27 3.33 3.81 3.58 3.26
KS : 4.20 4.21 4.12 4.20 4.39 4.20 3.24
MI : 3.77 3.47 3.20 3.43 3.73 3.44 3.00
MN : 3.99 4.03 3.84 3.94 4.08 3.99 3.78
MO : 3.78 3.98 3.75 3.77 4.10 3.79 3.06
MT : 4.34 4.13 4.07 4.03 4.12 4.20 4.02
NE : 4.02 4.11 4.09 4.05 4.24 4.08 3.52
ND : 4.00 4.03 3.93 3.92 4.14 4.09 3.79
OH : 3.69 3.74 3.56 3.70 3.82 3.56 3.23
OK : 4.10 4.06 3.97 4.09 4.29 4.19 3.28
OR : 4.03 3.97 3.80 3.83 4.16 4.37 4.06
SD : 3.94 3.83 3.75 3.85 4.01 3.91 3.72
TX : 4.18 4.14 4.05 4.08 4.18 3.84 3.41
WA : 3.82 3.91 3.78 3.91 4.14 4.33 3.93
:
US : 4.06 4.02 3.89 3.93 4.10 4.08 3.52
------------------------------------------------------------------------------
1/ May - April for AZ, CA, GA, OK and TX; June - May for AR, IL, IN, KS and
MO; July - June for all other estimated States; June - May for US.
2/ Second year.
3/ Price not published to avoid disclosure of individual buyers.
4/ Insufficient sales to establish a price.
5/ Estimates discontinued.
Prices Received: Winter Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3/ 3.58 3.28 3.48 3.50 3.49 3.35
CA : 3/ 3/ 3/ 3/ 3.71 3/ 3/
CO : 4.18 3.68 3.20 3.33 3.29 3.22 3.13
ID : 3.89 3.94 3.64 3.44 3.44 3.35 3.25
IL : 3.76 3.06 3.08 3.18 3.41 3.35 3.29
IN : 3.58 3.26 3.13 3.30 3.39 3.39 3.38
KS : 4.20 3.24 3.14 3.36 3.38 3.33 3.25
MI : 3.44 3.00 3.20 3.40 3.46 3.40 3.30
MN : 3.71 4.11 3/ 3.28 3.40 3.28 3.07
MO : 3.79 3.06 3.05 3.36 3.32 3.13 3.14
MT : 4.22 4.04 3.97 3.86 3.37 3.58 3.43
NE : 4.08 3.52 3.24 3.37 3.42 3.28 3.17
ND : 3.10 3.15 3.30 3.75 3.22 4/
OH : 3.56 3.23 3.24 3.32 3.39 3.22 3.14
OK : 4.19 3.28 3.10 3.39 3.42 339 3.33
OR : 4.37 4.08 3.83 3.86 3.83 3.67 3.72
SD : 3.93 3.66 3.25 3.19 3.22 3.26 3.28
TX : 3.84 3.41 3.11 3.34 3.36 3.26 3.12
WA : 4.30 3.91 3.72 3.61 3.60 3.66 3.40
:
US : 4.09 3.42 3.16 3.40 3.46 3.44 3.31
:
: 1996-97
:
AZ 5/:
AR : 4.37 4.39 4.55 4.41 4.18 3.93 3.94
CA : 5.99 5.45 4.69 3/ 3/ 4.13 4.26
CO : 5.59 5.50 4.78 4.60 4.19 4.18 4.16
GA 5/: 4.51
ID : 5.17 5.44 4.83 4.47 4.38 4.04 3.94
IL : 5.71 4.27 4.20 4.24 4.10 3.82 3.59
IN : 5.49 4.42 4.09 4.00 4.12 3.62 3.24
KS : 6.34 5.38 5.02 4.64 4.22 4.23 4.17
MI : 3/ 3/ 4.07 4.05 3.84 3.79 3.56
MN : 3/ 3/ 5.34 4.48 4.36 3/ 3/
MO : 3/ 4.52 4.23 4.12 3.96 3.85 3.81
MT : 5.62 5.45 5.15 5.04 4.53 4.28 4.12
NE : 5.91 5.63 4.77 4.58 4.07 4.06 4.17
ND : 5.81 5.23 5.34 4.19 3.97 3.92 3.42
OH : 3/ 4.73 4.05 4.04 4.13 3.96 3.67
OK : 6.10 5.48 4.87 4.54 4.16 4.12 4.14
OR : 5.46 5.80 4.71 4.72 4.51 4.11 3.90
SD : 5.98 5.54 4.69 4.29 4.09 3.87 3.94
TX : 5.96 5.42 4.96 4.52 4.12 4.10 4.09
WA : 5.63 5.54 5.21 4.89 4.49 3.95 3.89
:
US : 5.81 5.14 4.67 4.51 4.28 4.06 4.04
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Winter Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
AR : 3.35 3.30 3.20 3.10 2.89 2.80 2.88
CA : 3/ 3/ 3/ 3/ 3.13 3.11 2.99
CO : 3.25 3.17 3.20 3.25 3.08 2.92 2.88
ID : 3.08 3.03 2.99 2.85 2.79 2.56 2.49
IL : 3.29 3.27 3.24 3.27 3.05 2.88 2.54
IN : 3.20 3.20 3.04 2.99 2.56 2.55 2.50
KS : 3.13 3.09 3.14 3.14 2.89 2.91 2.71
MI : 2.93 3.10 3.07 3.06 2.77 2.59 2.60
MN : 3.10 3/ 3/ 3/ 3/ 3/ 3/
MO : 3.10 3.04 3.01 2.98 2.74 2.63 2.46
MT : 3.59 3.35 3.25 3.19 3.27 3.06 2.81
NE : 3.12 3.13 3.15 3.19 3.03 3.00 2.79
ND : 3.52 2.82 4/ 3.11 4/ 2.97 2.70
OH : 3.08 3.08 2.98 2.96 2.67 2.62 2.50
OK : 3.18 3.11 3.13 3.14 2.88 2.77 2.62
OR : 3.49 3.48 3.37 3.34 3.06 3.09 2.56
SD : 3.24 3.14 3.16 3.09 2.95 2.81 2.51
TX : 3.19 3.05 3.12 3.07 2.89 2.97 2.66
WA : 3.40 3.26 3.24 3.23 2.95 2.99 2.68
:
US : 3.24 3.16 3.16 3.16 2.94 2.90 2.68
:
: 1996-97
:
AZ 5/:
AR : 3.84 3.86 3.76 3.78 4.05 3.73 3.58
CA : 3/ 4.25 4.32 4.51 4.34 3/ 3/
CO : 4.09 4.21 4.07 4.08 4.26 4.18 3.68
GA 5/:
ID : 3.96 3.86 3.66 3.69 3.87 3.89 3.94
IL : 3.75 3.81 3.37 3.61 3.90 3.76 3.06
IN : 3.17 3.42 3.27 3.33 3.81 3.58 3.26
KS : 4.20 4.21 4.12 4.20 4.39 4.20 3.24
MI : 3.77 3.47 3.20 3.43 3.73 3.44 3.00
MN : 3/ 3.91 3.40 3.65 4.01 3.71 4.11
MO : 3.78 3.98 3.75 3.77 4.10 3.79 3.06
MT : 4.31 4.14 4.07 4.01 4.11 4.22 4.04
NE : 4.02 4.11 4.09 4.05 4.24 4.08 3.52
ND : 3.63 3.71 4.26 4/ 4/ 4/ 3.10
OH : 3.69 3.74 3.56 3.70 3.82 3.56 3.23
OK : 4.10 4.05 3.97 4.09 4.29 4.19 3.28
OR : 4.05 3.98 3.79 3.81 4.15 4.37 4.08
SD : 3.89 3.82 3.77 3.83 3.94 3.93 3.66
TX : 4.18 4.14 4.05 4.08 4.18 3.84 3.41
WA : 3.78 3.90 3.75 3.89 4.12 4.30 3.91
:
US : 4.04 4.03 3.90 3.98 4.14 4.09 3.42
------------------------------------------------------------------------------
1/ May - April for AZ, CA, GA, OK and TX; June - May for AR, IL, IN, KS and
MO; July - June for all other estimated States; June - May for US.
2/ Second year.
3/ Price not published to avoid disclosure of individual buyers.
4/ Insufficient sales to establish a price.
5/ Estimates discontinued.
Prices Received: Other Spring Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CO : 3.39 3.39 2.96 3.45 3.56 3.14 3.33
ID : 3.86 3.84 3.75 3.39 3.48 3.21 3.43
MN : 3.99 3.76 3.54 3.82 3.67 3.48 3.60
MT : 417 3.99 3.85 3.85 3.62 3.58 3.57
ND : 3.93 3.63 3.65 3.71 3.61 3.51 3.54
OR : 4.38 3.88 3.89 3.93 3.91 3.75 3.78
SD : 3.90 3.75 3.59 3.72 3.65 3.57 3.63
WA : 4.50 4.09 3.74 4.01 4.00 3.75 3.52
:
US : 3.99 3.75 3.66 3.74 3.64 3.50 3.55
:
: 1996-97
:
CO : 3/ 3/ 4.50 4.53 4.22 3.54 4.20
ID : 5.13 4.96 5.35 4.19 4.41 3.99 3.90
MN : 4.91 5.31 5.18 4.70 4.59 4.27 4.31
MT : 5.46 5.26 5.36 4.79 4.37 4.27 4.21
ND : 5.82 5.64 5.29 4.71 4.36 4.25 3.95
OR : 5.81 5.33 4.76 4.75 4.43 3.98 3.87
SD : 6.14 5.98 5.40 4.46 4.05 4.08 3.83
WA : 5.88 6.28 5.19 5.09 4.63 4.23 4.13
:
US : 5.68 5.50 5.28 4.63 4.41 4.21 4.07
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Other Spring Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CO : 3.23 2.92 2.72 3.14 3.06 2.95 2.66
ID : 3.11 3.16 2.91 2.85 2.81 2.71 2.56
MN : 3.50 3.40 3.34 3.48 3.43 3.43 3.30
MT : 3.73 3.50 3.42 3.54 3.55 3.54 3.41
ND : 3.50 3.43 3.34 3.44 3.35 3.25 3.26
OR : 3.57 3.55 3.46 3.43 3.18 3.12 2.56
SD : 3.57 3.52 3.49 3.60 3.58 3.53 3.31
WA : 3.54 3.56 3.47 3.38 3.12 3.25 2.79
:
US : 3.51 3.44 3.33 3.43 3.37 3.31 3.22
:
: 1996-97
:
CO : 3.88 3.92 3.58 3.68 4.14 3.39 3.39
ID : 4.23 3.86 3.53 3.50 3.65 3.86 3.84
MN : 3.99 4.03 3.84 3.94 4.08 3.99 3.76
MT : 4.31 4.13 4.05 4.03 4.13 4.17 3.99
ND : 3.84 3.89 3.79 3.83 4.05 3.93 3.63
OR : 3.85 3.83 3.89 4.00 4.25 4.38 3.88
SD : 3.97 3.83 3.72 3.86 4.04 3.90 3.75
WA : 4.08 4.02 4.04 4.10 4.30 4.50 4.09
:
US : 4.03 3.95 3.80 3.84 4.03 3.99 3.75
------------------------------------------------------------------------------
1/ May - April for AZ, CA, GA, OK and TX; June - May for AR, IL, IN, KS and
MO; July - June for all other estimated States; June - May for US.
2/ Second year.
3/ Insufficient sales to establish a price.
Prices Received: Durum Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
State : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 4.35 3/ 4/ 4/ 3/ 3/ 3/
MN : 4/ 4.60 4/ 4/ 3/ 3/ 3/
MT : 4.40 4.20 4.43 4.96 5.51 5.62 5.65
ND : 4.37 4.19 4.63 5.26 5.34 5.10 5.27
SD : 4.15 4.14 4.12 4.00 3/ 4.92 4/
:
US : 4.37 4.20 4.61 5.23 5.35 5.14 5.29
:
: 1996-97
:
AZ 5/: 5.45
CA : 3/ 3/ 3/ 3/ 3/ 3/ 3/
MN : 4.65 3/ 3/ 3/ 3/ 3.90 422
MT : 5.32 5.65 5.16 5.36 4.85 4.27 4.68
ND : 5.96 5.69 5.10 4.96 4.66 4.80 4.48
SD : 5.84 4.33 4.75 5.23 4.19 4.38 3.85
:
US : 5.76 5.56 5.10 4.97 4.67 4.78 4.48
------------------------------------------------------------------------------
See footnotes at end of table. -- continued
Prices Received: Durum Wheat, by State and Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
State : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: 1997-98
:
CA : 3/ 4/ 3/ 3/ 4/ 3/ 4/
MN : 4/ 4/ 4/ 4/ 4/ 4/ 4/
MT : 5.57 5.30 4.95 4.97 4.88 4.73 4.30
ND : 5.08 4.98 4.63 4.66 4.55 4.08 3.95
SD : 3/ 3/ 3/ 4/ 3/ 4.50 4/
:
US : 5.16 5.02 4.69 4.70 4.60 4.28 3.98
:
: 1996-97
:
AZ 5/:
CA : 5.21 3/ 5.03 4.99 4.24 4.35 3/
MN : 5.00 4.34 4/ 4.28 4/ 4/ 4.60
MT : 5.30 4.18 4.43 4.28 4.13 4.40 4.20
ND : 4.48 4.42 4.32 4.32 4.39 4.37 4.19
SD : 4/ 4/ 4.26 4.56 4.37 4.15 4.14
:
US : 4.53 4.44 4.32 4.33 4.38 4.37 4.20
------------------------------------------------------------------------------
1/ May - April for AZ, CA, GA, OK and TX; June - May for AR, IL, IN, KS and
MO; July - June for all other estimated States; June - May for US.
2/ Second year.
3/ Price not published to avoid disclosure of individual buyers.
4/ Insufficient sales to establish a price.
5/ Estimates discontinued.
Prices Received: Wheat by Class, United States, by Month,
for Marketing Years, 1996-97 and 1997-98 1/
------------------------------------------------------------------------------
Year : May : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Bushel
:
: All Hard Red
:
1997 : 4.05 3.46 3.22 3.51 3.53 3.45 3.43
1996 : 5.83 5.46 4.98 4.61 4.35 4.22 4.12
:
: Soft Red Winter
:
1997 : 3.66 3.47 3.15 3.30 3.39 3.28 3.28
1996 : 4.61 4.40 4.17 4.12 4.11 3.89 3.72
:
: White
:
1997 : 4.05 3.90 3.61 3.59 3.57 3.49 3.38
1996 : 5.38 5.21 4.85 4.62 4.40 3.96 3.86
------------------------------------------------------------------------------
-- continued
Prices Received: Wheat by Class, United States, by Month,
for Marketing Years, 1996-97 and 1997-98 (continued) 1/
------------------------------------------------------------------------------
Year : Dec : Jan 2/ : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Bushel
:
: All Hard Red
:
1997 : 3.39 3.25 3.25 3.31 3.17 3.09
1996 : 4.10 4.05 3.95 3.99 4.13 4.05 3.46
:
: Soft Red Winter
:
1997 : 3.15 3.12 3.07 3.10 2.87 2.71 2.69
1996 : 3.75 3.80 3.58 3.70 3.90 3.66 3.47
:
: White
:
1997 : 3.26 3.21 3.11 3.05 2.89 2.82 2.57
1996 : 3.87 3.83 3.64 3.69 3.92 4.05 3.90
------------------------------------------------------------------------------
1/ June - May
2/ Second year.
Tobacco: Prices Received Monthly, by State and United States,
July 1997 - April 1998
------------------------------------------------------------------------
: 1997 : 1998
State :---------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec : Jan : Feb : Mar : Apr
------------------------------------------------------------------------
: Dollars per Pound
:
FL : 1.555 1.655 1.820 1.790
GA : 1.590 1.640 1.800 1.760
IN : 1.900 1.915 1.875 1.805 1.770 1.670
KY : 1.905 1.925 1.915 1.880 1.775 1.715
MD : 1.770 1.645
MO : 1.890 1.895 1.895
NC : 1.530 1.565 1.750 1.780 1.760 1.880 1.815
OH : 1.875 1.885 1.875 1.810 1.600
SC : 1.630 1.670 1.800 1.795
TN : 1910 1.910 2.000 2.085 2.180
VA : 1.600 1.690 1.795 1.810 1.935 1.880
WV : 1.870 1.900 1.850 1.695
:
US : 1.580 1.595 1.755 1.785 1.845 1.920 1.920 1.915 1.810 1.695
------------------------------------------------------------------------
Tobacco: Prices Received Monthly, by State and United States,
July 1998 - April 1999 1/
------------------------------------------------------------------------
: 1998 : 1999
State :---------------------------------------------------------------
: Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr
------------------------------------------------------------------------
: Dollars per Pound
:
FL : 1.420 1.630 1.800 1.770
GA : 1.460 1.580 1.795 1.780
IN : 1.910 1.910 1.900 1.830
KY : 1.910 1.915 1.930 1.905 1.815
MD : 1.710 1.505
MO : 1.905 1.915 1.900 1.895
NC : 1.690 1.635 1.805 1.885 1.835 1.905 1.860
OH : 1.900 1.910 1.915 1.855
SC : 1.745 1.580 1.770 1.795
TN : 1.925 1.910 1.990 2.255 2.135
VA : 1.690 1.780 1.890 1.885 1.905 1.850
WV :
:
US : 1.630 1.625 1.795 1.865 1.905 1.915 1.930 1.965 1.810 1.505
------------------------------------------------------------------------
1/ Revised.
Tobacco: Prices Received Monthly by Class, Type, State,
and United States, July 1997 - April 1998
------------------------------------------------------------------------------
: : 1997
Class and State : Type :-----------------------------------------------
: : Jul : Aug : Sep : Oct : Nov : Dec
------------------------------------------------------------------------------
: : Dollars per Pound
Flue-cured: : :
Old Belts : :
NC : 11 : 1.510 1.680 1.790 1.760
VA : 11 : 1.600 1.690 1.795 1.780
US : 11 : 1.545 1.685 1.790 1.765
Eastern NC Belt : :
NC : 12 : 1.540 1.565 1.765 1.780 1.750
NC Border & SC Belt : :
NC : 13 : 1.520 1.620 1.790 1.780 1.720
SC : 13 : 1.630 1.670 1.805 1.795
US : 13 : 1.595 1.650 1.795 1.785 1.720
GA-FL Belt : :
FL : 14 : 1.555 1.655 1.820 1.790
GA : 14 : 1.590 1.640 1.800 1.760
US : 14 : 1.585 1.645 1.805 1.765
Total Flue-cured : 11-14: 1.580 1.595 1.755 1.785 1.760
: :
Fire-cured: : :
VA Belt : :
VA : 21 : 2.120
Eastern District : :
KY : 22 :
TN : 22 :
US : 22 :
Western District : :
KY : 23 :
TN : 23 :
US : 23 :
KY-TN Fire-cured : 22-23:
Total Fire-cured : 21-23: 2.120
: :
Air-cured: : :
Light Air-cured: : :
Burley : :
IN : 31 : 1.900 1.915
KY : 31 : 1.905 1.920
MO : 31 : 1.890 1.895
NC : 31 : 1.870 1.880
OH : 31 : 1.875 1.885
TN : 31 : 1.910 1.910
VA : 31 : 1.910 1.915
WV : 31 : 1.870 1.900
US : 31 : 1.905 1.915
Southern MD Belt : :
MD : 32 :
Total Light Air-cured : 31-32: 1.905 1.915
: :
Dark Air-cured: : :
One Sucker Belt : :
KY : 35 : 2.050
TN : 35 : 2.065
US : 35 : 2.055
Green River Belt : :
KY : 36 : 2.090
KY-TN Dark Air-cured : 35-36: 2.065
VA Sun-cured Belt : :
VA : 37 : 1.900
Total Dark Air-cured : 35-37: 2.060
: :
Total All Classes : 11-37: 1.580 1.595 1.755 1.785 1.845 1.920
------------------------------------------------------------------------------
-- continued
Tobacco: Prices Received Monthly by Class, Type, State
and United States, July 1997 - April 1998 1/ (continued)
------------------------------------------------------------------------------
: : 1998
Class and State : Type :-----------------------------------------------
: : Jan : Feb : Mar : Apr
------------------------------------------------------------------------------
: : Dollars per Pound
Flue-cured: : :
Old Belts : :
NC : 11 :
VA : 11 :
US : 11 :
Eastern NC Belt : :
NC : 12 :
NC Border & SC Belt : :
NC : 13 :
SC : 13 :
US : 13 :
GA-FL Belt : :
FL : 14 :
GA : 14 :
US : 14 :
Total Flue-cured : 11-14:
: :
Fire-cured: : :
VA Belt : :
VA : 21 : 2.140
Eastern District : :
KY : 22 : 2.435 2.210 2.025 3.065
TN : 22 : 2.400 2.305 2.260
US : 22 : 2.410 2.270 2.185 3.065
Western District : :
KY : 23 : 2.340 2.180 1.950
TN : 23 : 2.340 2.180 1.950
US : 23 : 2.340 2.180 1.950
KY-TN Fire-cured : 22-23: 2.385 2.245 2.150 3.065
Total Fire-cured : 21-23: 2.380 2.245 2.150 3.065
: :
Air-cured: : :
Light Air-cured: : :
Burley : :
IN : 31 : 1.875 1.805 1.770 1.670
KY : 31 : 1.885 1.810 1.755 1.700
MO : 31 : 1.895
NC : 31 : 1.815 1.570
OH : 31 : 1.875 1.810 1.600
TN : 31 : 1.855 1.675 1.700
VA : 31 : 1.845
WV : 31 : 1.850 1.695
US : 31 : 1.880 1.800 1.755 1.700
Southern MD Belt : :
MD : 32 : 1.770 1.645
Total Light Air-cured : 31-32: 1.880 1.800 1.760 1.685
: :
Dark Air-cured: : :
One Sucker Belt : :
KY : 35 : 1.970 1.630
TN : 35 : 1.910 1.715
US : 35 : 1.960 1.660
Green River Belt : :
KY : 36 : 2.010 1.850
KY-TN Dark Air-cured : 35-36: 1.980 1.770
VA Sun-cured Belt : :
VA : 37 : 1.960
Total Dark Air-cured : 35-37: 1.980 1.770
: :
Total All Classes : 11-37: 1.920 1.915 1.810 1.695
------------------------------------------------------------------------------
1/ Revised.
Tobacco: Prices Received Monthly by Type, State
and United States, July 1998 - April 1999 1/
-------------------------------------------------------------------------
: : 1998
Cure, Area and State : Type :------------------------------------------
: : Jul : Aug : Sep : Oct : Nov : Dec
-------------------------------------------------------------------------
: : Dollars per Pound
Flue-cured: : :
Old and Middle Belts : :
NC : 11 : 1.645 1.765 1.890 1.800
VA : 11 : 1.690 1.780 1.890 1.825
US : 11 : 1.660 1.770 1.890 1.805
Eastern NC Belt : :
NC : 12 : 1.695 1.640 1.825 1.895
NC Border & SC Belt : :
NC : 13 : 1.665 1.575 1.780 1.810
SC : 13 : 1.745 1.580 1.770 1.795
US : 13 : 1.710 1.580 1.775 1.800
GA-FL Belt : :
FL : 14 : 1.420 1.630 1.800 1.770
GA : 14 : 1.460 1.580 1.795 1.780
US : 14 : 1.450 1.585 1.795 1.780
Total Flue-cured : 11-14: 1.630 1.625 1.795 1.865 1.805
: :
Fire-cured: : :
VA Belt : :
VA : 21 : 1.960
Eastern District : :
KY : 22 :
TN : 22 :
US : 22 :
Western District : :
KY : 23 :
TN : 23 :
US : 23 :
KY-TN Fire-cured : 22-23:
Total Fire-cured : 21-23: 1.960
: :
Air-cured: : :
Light Air-cured: : :
Burley : :
IN : 31 : 1.910 1.910
KY : 31 : 1.910 1.910
MO : 31 : 1.905 1.915
NC : 31 : 1.920 1.905
OH : 31 : 1.900 1.910
TN : 31 : 1.925 1.910
VA : 31 : 1.910 1.895
WV : 31 :
US : 31 : 1910 1.910
Southern MD Belt : :
MD : 32 :
Total Light Air-cured : 31-32: 1.910 1.910
: :
Dark Air-cured: : :
One Sucker Belt : :
KY : 35 : 2.010
TN : 35 : 2.025
US : 35 : 2.010
Green River Belt : :
KY : 36 : 2.005
KY-TN Dark Air-cured : 35-36: 2.010
VA Sun-cured Belt : :
VA : 37 : 1.725
Total Dark Air-cured : 35-37: 2.005
: :
Total All Cures : 11-37: 1.630 1.625 1.795 1.865 1.905 1.915
-------------------------------------------------------------------------
1/ Revised.
Tobacco: Prices Received Monthly by Type, State
and United States, July 1998 - April 1999 (continued)
-------------------------------------------------------------------------------
: : 1999
Cure, Area and State : Type :------------------------------------------------
: : Jan : Feb : Mar : Apr
-------------------------------------------------------------------------------
: : Dollars per Pound
Flue-cured: : :
Old and Middle Belts : :
NC : 11 :
VA : 11 :
US : 11 :
Eastern NC Belt : :
NC : 12 :
NC Border & SC Belt : :
NC : 13 :
SC : 13 :
US : 13 :
GA-FL Belt : :
FL : 14 :
GA : 14 :
US : 14 :
Total Flue-cured : 11-14:
: :
Fire-cured: : :
VA Belt : :
VA : 21 : 1.840
Eastern District : :
KY : 22 : 2.285 2.235 2.160
TN : 22 : 2.235 2.290 2.135
US : 22 : 2.255 2.275 2.140
Western District : :
KY : 23 : 2.180 2.115 2.030
TN : 23 : 2.180 2.115 2.020
US : 23 : 2.180 2.115 2.030
KY-TN Fire-cured : 22-23: 2.230 2.240 2.130
Total Fire-cured : 21-23: 2.220 2.240 2.130
: :
Air-cured: : :
Light Air-cured: : :
Burley : :
IN : 31 : 1.900 1.830
KY : 31 : 1.900 1.850 1.625
MO : 31 : 1.900 1.895
NC : 31 : 1.860
OH : 31 : 1.915 1.855
TN : 31 : 1.880 1.685
VA : 31 : 1.850
WV : 31 :
US : 31 : 1.895 1.850 1.625
Southern MD Belt : :
MD : 32 : 1.710 1.505
Total Light Air-cured : 31-32: 1.895 1.850 1.695 1.505
: :
Dark Air-cured: : :
One Sucker Belt : :
KY : 35 : 1.870 1.780
TN : 35 : 1.825 1.600
US : 35 : 1.860 1.730
Green River Belt : :
KY : 36 : 1.940 1.925
KY-TN Dark Air-cured : 35-36: 1.885 1.810
VA Sun-cured Belt : :
VA : 37 : 1.675
Total Dark Air-cured : 35-37: 1.885 1.810
: :
Total All Cures : 11-37: 1.930 1.965 1.810 1.505
-------------------------------------------------------------------------------
1/ Revised.
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1997 1/
-------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 11.20 10.80
AK :
AZ : 6.20 9.50 8.45
CA - All : 8.50 8.70 9.95 11.50 8.15 9.95
Winter : 15.30 14.30 22.00 20.10
Spring : 8.80 10.70
Summer :
Fall : 4.75 4.80 4.70 4.60 4.50 4.40
CO - All : 1.55 1.65 1.70 1.25 0.85 0.75
Fresh : 1.35 1.15 1.00 0.85 0.65 0.75
DE :
FL : 24.00 14.90 11.20 11.00 11.40
ID - All : 3.50 3.30 3.80 3.20 3.55 2.40
Fresh : 2.30 2.00 2.00 1.50 1.30 1.30
Processing : 4.60 4.20 4.60 3.70 4.50 3.30
IL :
IN :
IA :
ME : 4.65 4.50 4.75 5.05 4.55 4.00
MD :
MA :
MI : 5.85 5.45 6.05 6.65 5.90 3.00
MN : 4.30 4.35 4.70 4.35 4.40 1.25
MO :
MT :
NE :
NV :
NJ :
NM :
NY : 7.00 6.85 7.00 7.50 7.45
NC : 6.60
ND - All : 4.95 5.00 4.85 4.55 4.95 4.20
Fresh : 3.60 3.75 3.10 3.00 2.00 1.50
Processing : 5.00 5.20 5.10 5.00 5.00 4.50
OH : 7.00 6.75 6.20 7.05
OR : 4.15 4.40 4.70 4.55 4.05 3.10
PA : 6.95 7.35 8.10 7.80 7.75 7.65
RI :
SD :
TX : 8.30 8.10
UT :
VA : 12.80
WA - All : 4.75 5.15 4.90 4.95 5.10 4.75
Processing : 5.05 5.50 5.35 5.50 5.55 5.50
WI - All : 4.20 4.30 4.50 3.20 2.80 2.00
Fresh : 2.40 1.60 1.75 1.35 1.20 1.00
Processing : 4.95 5.05 5.45 4.05 4.00 4.00
WY :
:
US - All : 4.23 4.50 4.60 4.61 5.26 4.66
Fresh : 3.21 3.82 3.46 3.92 4.60 5.27
Processing : 4.98 4.90 5.11 5.02 6.04 5.04
-------------------------------------------------------------------------------
See footnote at end of table. -- continued
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1997 1/ (continued)
-------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec : MYA
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 8.25 7.30 13.00 8.60
AK : 20.00
AZ : 8.75
CA - All : 10.20 13.50 14.70 13.80 8.20 11.20 10.90
Winter : 19.20 18.10
Spring : 9.80 9.85
Summer : 12.80 13.50 14.70 19.80 14.50
Fall : 4.55 8.80 8.20 7.55 8.10
CO - All : 2.85 5.50 5.70 5.10 4.75 4.45 4.60
Fresh : 3.45 6.75 6.25 5.60 5.05 4.75 4.80
DE : 8.25
FL : 12.10
ID - All : 3.05 5.50 4.80 4.75 4.60 4.50 4.50
Fresh : 2.30 6.60 4.90 4.20 4.30 4.10 3.80
Processing : 3.80 5.20 4.80 4.80 4.70 4.80 4.80
IL : 5.50
IN : 6.15
IA : 5.45
ME : 8.10 5.65 5.70 6.10 6.30 6.40
MD : 6.85
MA : 7.70
MI : 7.65 6.20 5.80 6.05 6.15 6.10 6.45
MN : 7.40 5.35 4.70 5.10 4.95 5.55
MO : 5.30
MT : 7.05
NE : 6.15
NV : 4.50
NJ : 6.50
NM : 6.05
NY : 11.50 9.05 8.70 8.60 8.30 8.75
NC : 6.50 8.00 6.60
ND - All : 5.05 4.75 5.05 5.00 5.70 5.65
Fresh : 7.25 6.50 7.00 7.20 6.95
Processing : 5.05 4.50 4.80 4.70 4.90 5.05
OH : 10.80 10.30 6.15 8.25 8.30 8.35 8.25
OR : 3.45 6.25 5.15 4.65 4.95 5.15 5.20
PA : 8.50 7.50 6.80 7.60 8.35 7.85 8.20
RI : 7.60
SD : 4.90
TX : 12.10 12.00 10.30
UT : 4.35
VA : 10.60 9.95 10.70 10.80
WA - All : 3.95 5.65 4.50 4.50 4.60 5.55 4.90
Processing : 4.15 4.35 4.00 4.45 4.30 4.90 4.55
WI - All : 5.95 5.90 5.15 5.40 5.15 5.25 5.70
Fresh : 7.80 6.00 5.60 4.95 5.20 5.40
Processing : 4.05 4.05 4.65 4.25 5.30 5.10 5.45
WY : 5.05
:
US - All : 5.52 6.26 5.09 4.93 5.13 5.29 5.62
Fresh : 7.25 8.86 7.04 6.46 5.89 5.88 6.64
Processing : 4.37 4.81 4.61 4.60 4.71 4.96 5.00
-------------------------------------------------------------------------------
1/ State Marketing Year Average Prices are computed by weighting state monthly
prices by estimated sales for the month during the crop year. U.S.
Marketing Year Average Price is computed by weighting State Marketing Year
Average Prices by estimated sales for the crop year. Monthly prices refer
to all potatoes sold in a given month regardless of the year harvested.
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1998 1/
-------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 12.30 13.20
AK :
AZ : 9.10 11.90 7.50
CA - All : 11.00 12.30 17.10 15.30 10.90 10.20
Winter : 16.60 22.40 23.20 28.40
Spring : 12.00 10.70
Summer :
Fall : 8.00 8.00 7.30 7.45 7.10 7.60
CO - All : 4.50 4.45 4.75 4.30 4.05 3.90
Fresh : 4.70 4.60 4.50 4.20 4.35 4.25
DE :
FL : 33.00 31.50 30.00 16.60 10.70 13.20
ID - All : 4.40 4.40 4.40 4.55 4.50 3.85
Fresh : 4.00 4.00 3.80 3.60 3.40 3.00
Processing : 4.80 4.80 4.70 4.80 4.90 4.90
IL :
IN :
IA :
ME : 6.10 6.35 6.55 6.95 6.75 6.30
MD :
MA :
MI : 6.30 6.55 6.65 7.25 8.05
MN : 6.20 6.20 6.65 6.60 5.85
MO :
MT :
NE :
NV :
NJ :
NM :
NY : 8.05 8.00 8.40 8.40 9.85
NC : 6.10
ND - All : 5.95 6.55 6.05 7.00 6.00 5.80
Fresh : 7.00 7.00 7.40 7.00 4.50 3.60
Processing : 5.10 5.80 5.15 5.35 5.80 5.85
OH : 8.35 8.60 8.60 9.20
OR : 5.40 5.30 5.95 6.05 5.75 5.10
PA : 7.95 9.05 10.60 9.55 9.80 9.55
RI :
SD :
TX : 9.35 9.10
UT :
VA : 9.65
WA - All : 5.35 5.35 5.10 5.00 4.95 5.15
Processing : 4.90 5.00 4.85 4.90 5.35 5.15
WI - All : 5.55 5.70 6.80 6.55 6.35 6.50
Fresh : 5.20 4.05 4.60 3.95 4.25 5.00
Processing : 5.30 5.80 7.15 7.70 7.50 7.50
WY :
:
US - All : 5.40 5.94 6.41 6.27 6.39 6.13
Fresh : 5.77 6.81 7.54 6.84 7.11 7.17
Processing : 5.06 5.25 5.24 5.49 5.97 5.58
-------------------------------------------------------------------------------
See footnote at end of table. -- continued
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1998 1/ (continued)
-------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec : MYA
-------------------------------------------------------------------------------
: 0
Fresh : 2.40 1.60 1.75 1.35 1.20 1.00
Processing : 4.95 5.05 5.45 4.05 4.00 4.00
WY :
:
US - All : 4.23 4.50 4.60 4.61 5.26 4.66
Fresh : 3.21 3.82 3.46 3.92 4.60 5.27
Processing : 4.98 4.90 5.11 5.02 6.04 5.04
-------------------------------------------------------------------------------
See footnote at end of table. -- continued
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1997 1/ (continued)
-------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec : MYA
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 8.25 7.30 13.00 8.60
AK : 20.00
AZ : 8.75
CA - All : 10.20 13.50 14.70 13.80 8.20 11.20 10.90
Winter : 19.20 18.10
Spring : 9.80 9.85
Summer : 12.80 13.50 14.70 19.80 14.50
Fall : 4.55 8.80 8.20 7.55 8.10
CO - All : 2.85 5.50 5.70 5.10 4.75 4.45 4.60
Fresh : 3.45 6.75 6.25 5.60 5.05 4.75 4.80
DE : 8.25
FL : 12.10
ID - All : 3.05 5.50 4.80 4.75 4.60 4.50 4.50
Fresh : 2.30 6.60 4.90 4.20 4.30 4.10 3.80
Processing : 3.80 5.20 4.80 4.80 4.70 4.80 4.80
IL : 5.50
IN : 6.15
IA : 5.45
ME : 8.10 5.65 5.70 6.10 6.30 6.40
MD : 6.85
MA : 7.70
MI : 7.65 6.20 5.80 6.05 6.15 6.10 6.45
MN : 7.40 5.35 4.70 5.10 4.95 5.55
MO : 5.30
MT : 7.05
NE : 6.15
NV : 4.50
NJ : 6.50
NM : 6.05
NY : 11.50 9.05 8.70 8.60 8.30 8.75
NC : 6.50 8.00 6.60
ND - All : 5.05 4.75 5.05 5.00 5.70 5.65
Fresh : 7.25 6.50 7.00 7.20 6.95
Processing : 5.05 4.50 4.80 4.70 4.90 5.05
OH : 10.80 10.30 6.15 8.25 8.30 8.35 8.25
OR : 3.45 6.25 5.15 4.65 4.95 5.15 5.20
PA : 8.50 7.50 6.80 7.60 8.35 7.85 8.20
RI : 7.60
SD : 4.90
TX : 12.10 12.00 10.30
UT : 4.35
VA : 10.60 9.95 10.70 10.80
WA - All : 3.95 5.65 4.50 4.50 4.60 5.55 4.90
Processing : 4.15 4.35 4.00 4.45 4.30 4.90 4.55
WI - All : 5.95 5.90 5.15 5.40 5.15 5.25 5.70
Fresh : 7.80 6.00 5.60 4.95 5.20 5.40
Processing : 4.05 4.05 4.65 4.25 5.30 5.10 5.45
WY : 5.05
:
US - All : 5.52 6.26 5.09 4.93 5.13 5.29 5.62
Fresh : 7.25 8.86 7.04 6.46 5.89 5.88 6.64
Processing : 4.37 4.81 4.61 4.60 4.71 4.96 5.00
-------------------------------------------------------------------------------
1/ State Marketing Year Average Prices are computed by weighting state monthly
prices by estimated sales for the month during the crop year. U.S.
Marketing Year Average Price is computed by weighting State Marketing Year
Average Prices by estimated sales for the crop year. Monthly prices refer
to all potatoes sold in a given month regardless of the year harvested.
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1998 1/
-------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 12.30 13.20
AK :
AZ : 9.10 11.90 7.50
CA - All : 11.00 12.30 17.10 15.30 10.90 10.20
Winter : 16.60 22.40 23.20 28.40
Spring : 12.00 10.70
Summer :
Fall : 8.00 8.00 7.30 7.45 7.10 7.60
CO - All : 4.50 4.45 4.75 4.30 4.05 3.90
Fresh : 4.70 4.60 4.50 4.20 4.35 4.25
DE :
FL : 33.00 31.50 30.00 16.60 10.70 13.20
ID - All : 4.40 4.40 4.40 4.55 4.50 3.85
Fresh : 4.00 4.00 3.80 3.60 3.40 3.00
Processing : 4.80 4.80 4.70 4.80 4.90 4.90
IL :
IN :
IA :
ME : 6.10 6.35 6.55 6.95 6.75 6.30
MD :
MA :
MI : 6.30 6.55 6.65 7.25 8.05
MN : 6.20 6.20 6.65 6.60 5.85
MO :
MT :
NE :
NV :
NJ :
NM :
NY : 8.05 8.00 8.40 8.40 9.85
NC : 6.10
ND - All : 5.95 6.55 6.05 7.00 6.00 5.80
Fresh : 7.00 7.00 7.40 7.00 4.50 3.60
Processing : 5.10 5.80 5.15 5.35 5.80 5.85
OH : 8.35 8.60 8.60 9.20
OR : 5.40 5.30 5.95 6.05 5.75 5.10
PA : 7.95 9.05 10.60 9.55 9.80 9.55
RI :
SD :
TX : 9.35 9.10
UT :
VA : 9.65
WA - All : 5.35 5.35 5.10 5.00 4.95 5.15
Processing : 4.90 5.00 4.85 4.90 5.35 5.15
WI - All : 5.55 5.70 6.80 6.55 6.35 6.50
Fresh : 5.20 4.05 4.60 3.95 4.25 5.00
Processing : 5.30 5.80 7.15 7.70 7.50 7.50
WY :
:
US - All : 5.40 5.94 6.41 6.27 6.39 6.13
Fresh : 5.77 6.81 7.54 6.84 7.11 7.17
Processing : 5.06 5.25 5.24 5.49 5.97 5.58
-------------------------------------------------------------------------------
See footnote at end of table. -- continued
Potatoes: Prices Received, Monthly and Marketing Year Average
by State and U.S., 1998 1/ (continued)
-------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec : MYA
-------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 12.80 12.90
AK : 2090
AZ : 10.00 9.90
CA - All : 10.90 10.90 11.30 9.05 9.40 11.70 11.30
Winter : 18.10 20.30 22.40
Spring : 9.35 10.50
Summer : 14.30 10.90 11.30 13.00 12.40
Fall : 11.10 7.55 6.70 7.30 7.10
CO - All : 4.60 6.15 5.55 4.55 3.95 3.50 3.85
Fresh : 5.10 6.65 5.90 4.75 4.05 3.50 3.80
DE : 8.45
FL : 14.70
ID - All : 3.45 3.60 4.55 4.25 4.20 4.00 3.90
Fresh : 2.40 2.80 4.40 4.10 3.70 3.30 3.30
Processing : 4.50 4.80 4.60 4.30 4.40 4.40 4.30
IL : 5.15
IN : 5.75
IA : 4.35
ME : 6.20 5.40 5.85 5.90 5.90 6.25
MD : 7.00
MA : 6.75
MI : 6.35 5.70 5.25 5.60 6.35 6.55 6.25
MN : 7.40 4.35 4.40 4.45 5.65 5.20
MO : 5.15
MT : 7.95
NE : 4.85
NV : 4.20
NJ : 7.00
NM : 6.10
NY : 9.75 9.35 9.35 9.35 8.95 9.45
NC : 6.05 7.50 6.15
ND - All : 5.50 6.05 5.10 5.60 5.15 5.70 5.65
Fresh : 4.00 5.05 5.65 5.40 5.20 5.40
Processing : 5.50 6.10 4.95 5.40 4.75 5.60 5.25
OH : 9.75 7.55 7.45 5.95 5.20 6.95 6.95
OR : 5.20 4.60 4.65 4.25 5.35 5.00 4.90
PA : 7.50 6.35 6.25 6.35 6.95 7.00
RI : 6.80
SD : 4.95
TX : 9.75 9.15 9.35
UT : 4.75
VA : 7.05 5.80 5.85 6.75
WA - All : 4.25 5.60 5.00 4.00 4.20 5.35 4.50
Processing : 4.40 4.85 4.00 3.95 3.85 4.85 4.10
WI - All : 5.10 4.85 4.85 4.65 4.50 4.90 4.95
Fresh : 5.50 5.05 5.40 5.15 4.30 4.50 4.70
Processing : 4.85 4.45 4.60 4.35 4.65 5.00 4.65
WY : 5.05
:
US - All : 6.03 5.55 4.91 4.43 4.81 5.03 5.24
Fresh : 7.34 6.39 5.99 5.45 5.21 5.14 6.15
Processing : 5.01 5.01 4.49 4.25 4.53 4.94 4.68
-------------------------------------------------------------------------------
1/ Preliminary. State Marketing Year Average Prices are computed by
weighting state monthly prices by estimated sales for the month
during the crop year. U.S. Marketing Year Average Price is
computed by weighting state Marketing Year Average Prices by
estimated sales for the crop year. Monthly prices refer to all
potatoes sold in a given month regardless of the year harvested.
Peaches for Fresh Use: Monthly Average Prices Received,
United States, 1991-98 1/
------------------------------------------------------------------------------
: : : : :
Year : May : Jun : Jul : Aug : Sep
: : : : :
------------------------------------------------------------------------------
: Dollars per Pound
:
1998 : .324 .254 .276 .267 .282
1997 : .255 .193 .146 .238 .353
1996 : .347 .272 .306 .316 .363
1995 : .345 .205 .184 .266 .324
1994 : .193 .138 .177 .176 .239
1993 : .288 .220 .191 .190 .226
1992 : .220 .213 .148 .222 .220
1991 : .289 .236 .162 .162 .228
------------------------------------------------------------------------------
1/ Equivalent packinghouse-door returns for CA and WA; price at point of
first sale for other states.
Pears for Fresh Use: Monthly Average Prices Received,
United States, 1991-1998 1/
------------------------------------------------------------------------------
: : : : : : : : : : : :
Year : Jan : Feb : Mar : Apr : May : Jun : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : : : : : : : :
------------------------------------------------------------------------------
: Dollars per Ton
:
1998 : 269 272 272 332 385 425 360 328 372 361 352 305
1997 : 557 519 461 454 503 568 325 351 368 361 352 305
1996 : 297 301 316 313 367 584 450 383 471 505 597 561
1995 : 222 288 346 374 354 340 358 332 374 354 351 324
1994 : 235 220 202 182 172 175 148 170 278 248 271 253
1993 : 370 417 412 429 505 538 390 344 366 350 330 281
1992 : 377 383 381 394 459 2/ 300 273 364 390 433 391
1991 : 345 377 389 402 494 793 300 342 358 399 428 414
------------------------------------------------------------------------------
1/ Equivalent packinghouse-door returns for CA, OR, and WA; price at point
of first sale for other states.
2/ Insufficient sales to establish a price.
Grapes for Fresh Use: Monthly Average Prices Received,
United States, May 1995 - December 1998
------------------------------------------------------------------------------
Year : May : Jun : Jul : Aug : Sep : Oct : Nov : Dec
------------------------------------------------------------------------------
: Dollars per Ton
:
1998 : 1/ 570 580 800 580 570 600 550
1997 : 1060 660 480 450 550 570 840 1/
1996 : 1150 960 570 480 580 880 1100 1/
1995 : 1050 580 650 650 480 560 530 680
------------------------------------------------------------------------------
1/ Insufficient sales to establish a price.
Apples for Fresh Use: Prices Received, by State, July 1996 - June 1999,
and United States, July 1995 - June 1999 1/
-------------------------------------------------------------------------------
: 1996 : 1997
State:-------------------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec : Jan : Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: Dollars per Lb
:
CA :.309 .309 .392 .327 .287 .310 .307 .310 .225 .225
MI : .155 .160 .180 .180 .180 .170 .170 .165 .165 .150 .150
NY : .193 .182 .184 .173 .177 .172 .172 .175 .176
OH : .355 .332 .303 .286 .278 .280 .275 .253 .266
PA : .200 .200 .200 .190 .190 .190 .210 .220 .220 .220
VA : .160 .160 .150 .150 .150 .150 .138 .137 .136
WA :.225 .246 .313 .257 .241 .235 .234 .205 .174 .150 .140 .137
:-------------------------------------------------------------------------
: 1997 : 1998
:-------------------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec : Jan : Feb : Mar : Apr : May : Jun
:-------------------------------------------------------------------------
: Dollars per Lb
:
CA :.499 .394 .356 .365 .297 .293 .258 .264 .297 .297
MI : .160 .155 .150 .140 .145 .150 .155 .155 .155 .155 .155
NY : .182 .183 .167 .172 .175 .175 .178 .175 .187
OH :.310 .289 .267 .275 .276 .273 .253 .253 .250 .246 .241 .240
PA :.200 .230 .240 .230 .270 .250 .240 .210 .190 .160
VA : .200 .220 .215 .200 .190 .181 .180 .180
WA :.136 .137 .245 .254 .238 .246 .233 .216 .209 .197 .179 .163
:-------------------------------------------------------------------------
: 1998 : 1999
:-------------------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec : Jan : Feb : Mar : Apr : May : Jun
:-------------------------------------------------------------------------
: Dollars per Lb
:
CA : .334 .306 .348 .293 .219 .183 .100 .152
MI : .130 .140 .130 .125 .125 .125 .130 .130 .130 .130 .130
NY : .176 .177 .166 .145 .147 .148 .157 .166 .184
OH :.260 .275 .280 .275 .269 .264 .258 .256 .255 .255 .251 .250
PA :.240 .230 .230 .240 .240 .230 .230 .230 .220 .190 .180 .180
VA : .219 .200 .191 .189 .183 .182 .185
WA :.123 .120 .209 .201 .158 .140 .157 .150 .151 .137 .128 .125
-------------------------------------------------------------------------------
Year : Jul : Aug : Sep : Oct : Nov : Dec :Jan 2/: Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: United States
:
1995 :.179 .244 .262 .253 .238 .244 .254 .242 .251 .226 .219 .219
1996 :.233 .252 .305 .247 .232 .227 .225 .203 .176 .156 .143 .137
1997 :.146 .174 .259 .253 .230 .233 .219 .208 .205 .194 .178 .163
1998 :.127 .138 .226 .221 .175 .149 .158 .150 .153 .141 .133 .127
-------------------------------------------------------------------------------
1/ Equivalent packinghouse-door returns for CA, NY, OR and WA; price at
point of first sale for other states.
2/ January of the following year.
Oranges: Average Prices and Equivalent Returns, United States
October 1995 - August 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
US : All Oranges
:
Oct : 17.30 9.90 11.22 -0.23 7.90 9.22 -2.24
Nov : 16.70 6.03 10.07 5.26 3.98 8.06 3.21
Dec : 14.50 5.79 8.11 5.40 3.76 6.13 3.35
Jan 1996 : 14.30 5.91 8.09 5.59 3.87 6.12 3.55
Feb : 13.70 5.89 7.52 5.37 386 5.54 3.32
Mar : 16.10 7.27 9.97 6.12 5.22 7.97 4.04
Apr : 17.20 7.66 10.97 7.04 5.58 8.96 4.94
May : 17.00 8.09 10.87 7.62 6.00 8.81 5.52
Jun : 17.20 8.30 11.12 7.31 6.21 9.05 5.21
Jul : 18.90 9.10 12.95 -0.48 7.02 10.87 -2.56
Aug : 21.30 10.99 15.40 -0.48 8.91 13.32 -2.56
Sep : 27.10 15.78 21.20 -0.48 13.70 19.12 -2.56
Oct : 23.60 12.89 17.21 -0.14 10.94 15.27 -2.13
Nov : 16.70 6.06 10.11 4.63 4.16 8.20 2.73
Dec : 14.80 5.42 8.42 4.93 3.52 6.48 3.03
Jan 1997 : 15.10 5.49 8.83 5.02 3.59 6.89 3.12
Feb : 15.10 5.59 8.93 4.93 3.67 6.97 3.02
Mar : 15.50 6.79 9.34 5.53 4.82 7.36 3.57
Apr : 16.30 6.64 10.16 5.92 4.68 8.17 3.97
May : 17.10 6.71 10.92 5.91 4.75 8.89 3.96
Jun : 16.50 6.60 10.49 5.59 4.62 8.44 3.63
Jul : 16.80 8.56 10.90 2.88 6.48 8.82 0.80
Aug : 18.50 9.53 12.60 3.38 7.45 10.52 1.30
Sep : 18.70 9.23 12.80 3.40 7.15 10.72 1.32
Oct : 16.10 5.78 9.50 2.57 3.90 7.55 0.75
Nov : 15.10 4.20 8.66 3.31 2.41 6.73 1.56
Dec : 14.60 4.59 8.08 3.88 2.81 6.15 2.13
Jan 1998 : 15.80 4.92 9.46 4.30 3.15 7.51 2.54
Feb : 14.40 5.53 8.14 4.99 3.73 6.19 3.22
Mar : 15.80 7.03 9.62 6.23 5.14 7.63 4.37
Apr : 18.10 7.67 11.95 6.72 5.79 9.96 4.86
May : 17.30 7.74 11.18 6.99 5.86 9.17 5.13
Jun : 17.90 8.61 11.80 7.42 6.70 9.75 5.55
Jul : 16.40 8.79 10.50 2.36 6.71 8.42 0.28
Aug : 15.20 7.45 9.30 2.36 5.37 7.22 0.28
------------------------------------------------------------------------------
Oranges: Average Prices and Equivalent Returns, Arizona
October 1995 - April 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
AZ : All Oranges
:
Oct 1995 : 25.50 19.48 19.48 17.50 17.50
Nov : 19.30 11.20 13.28 -0.48 9.22 11.30 -2.46
Dec : 15.10 7.30 9.08 -0.48 5.32 7.10 -2.46
Jan 1996 : 14.80 6.74 8.78 -0.48 4.76 6.80 -2.46
Feb : 13.00 4.87 6.94 -0.48 2.89 4.95 -2.46
Mar : 12.60 5.72 6.68 -0.48 3.68 4.63 -2.47
Apr : 11.60 4.57 5.67 -0.48 2.50 3.60 -2.55
May : 10.60 3.17 4.66 -0.48 1.09 2.58 -2.56
Jun : 9.92 2.58 4.01 -0.48 0.51 1.94 -2.56
Jul : 11.20 2.76 5.30 -0.48 0.68 3.22 -2.56
:
Nov : 19.40 11.47 13.38 -0.28 9.49 11.40 -2.26
Dec : 16.90 8.72 10.88 -0.28 6.74 8.90 -2.26
Jan 1997 : 15.70 8.33 9.68 -0.08 6.35 7.70 -2.06
Feb : 11.50 5.31 5.48 0.60 3.33 3.50 -1.38
Mar : 10.50 4.43 4.53 0.64 2.39 2.49 -1.34
Apr : 11.60 5.68 5.70 1.08 3.60 3.62 -1.00
May : 11.30 5.37 5.40 1.26 3.29 3.32 -0.82
Jun : 8.10 2.20 2.20 0.12 0.12
:
Oct : -0.28 -0.28 -2.26 -2.26
Nov : 15.20 5.83 9.18 -0.28 3.85 7.20 -2.26
Dec : 16.10 6.78 10.08 -0.28 4.80 8.10 -2.26
Jan 1998 : 14.20 5.40 8.18 -0.04 3.42 6.20 -2.02
Feb : 9.22 2.60 3.20 0.55 0.61 1.22 -1.45
Mar : 11.10 4.74 5.13 0.66 2.69 3.07 -1.32
Apr : 11.60 5.63 5.70 0.84 3.56 3.62 -1.17
May : 10.40 4.49 4.50 2.36 2.41 2.42 0.28
Jun : 10.80 4.90 4.90 2.82 2.82
:
AZ : Navel and Miscellaneous
:
Oct 1995 : 25.50 19.48 19.48 17.50 17.50
Nov : 19.30 11.20 13.28 -0.48 9.22 11.30 -2.46
Dec : 15.10 7.30 9.08 -0.48 5.32 7.10 -2.46
Jan 1996 : 14.80 6.74 8.78 -0.48 4.76 6.80 -2.46
Feb : 12.80 4.72 6.78 -0.48 2.74 4.80 -2.46
Mar : 11.90 4.13 5.88 -0.48 2.15 3.90 -2.46
Apr : 7.06 0.78 1.04 -0.48 -1.20 -0.94 -2.46
May : 5.54 -0.48 -0.48 -0.48 -2.46 -2.46 -2.46
Jun : 3.00 -3.02 -3.02 -5.00 -5.00
:
Nov : 19.40 11.47 13.38 -0.28 9.49 11.40 -2.26
Dec : 16.90 8.72 10.88 -0.28 6.74 8.90 -2.26
Jan 1997 : 15.70 8.33 9.68 -0.08 6.35 7.70 -2.06
Feb : 11.50 5.31 5.48 0.60 3.33 3.50 -1.38
Mar : 9.00 2.82 2.98 0.64 0.84 1.00 -1.34
:
Oct : -0.28 -0.28 -2.26 -2.26
Nov : 15.20 5.83 9.18 -0.28 3.85 7.20 -2.26
Dec : 16.10 6.78 10.08 -0.28 4.80 8.10 -2.26
Jan 1998 : 14.20 5.40 8.18 -0.04 3.42 6.20 -2.02
Feb : 9.22 2.63 3.20 0.20 0.65 1.22 -1.78
Mar : 8.50 1.97 2.48 0.66 -0.01 0.50 -1.32
Apr : 0.66 0.66 -1.32 -1.32
------------------------------------------------------------------------------
Oranges: Average Prices and Equivalent Returns, Arizona and California
November 1995 - August 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
AZ : Valencias
:
Feb 1996 : 15.70 8.09 9.80 -0.48 6.01 7.72 -2.56
Mar : 13.00 6.85 7.10 -0.48 4.77 5.02 -2.56
Apr : 12.00 4.92 6.10 -0.48 2.84 4.02 -2.56
May : 10.60 3.24 4.70 -0.48 1.16 2.62 -2.56
Jun : 10.60 2.95 4.70 -0.48 0.87 2.62 -2.56
Jul : 11.20 2.76 5.30 -0.48 0.68 3.22 -2.56
:
Mar 1997 : 11.30 5.40 5.40 3.32 3.32
Apr : 11.60 5.68 5.70 1.08 3.60 3.62 -1.00
May : 11.30 5.37 5.40 1.26 3.29 3.32 -0.82
Jun : 8.10 2.20 2.20 0.12 0.12
:
Feb 1998 : 1.96 1.96 -0.12 -0.12
Mar : 11.90 6.00 6.00 3.92 3.92
Apr : 11.60 5.69 5.70 1.36 3.61 3.62 -0.72
May : 10.40 4.49 4.50 2.36 2.41 2.42 0.28
Jun : 10.80 4.90 4.90 2.82 2.82
:
CA : All Oranges
:
:
Nov 1995 : 20.00 12.31 13.98 -0.48 10.33 12.00 -2.46
Dec : 15.10 8.04 9.08 -0.48 6.06 7.10 -2.46
Jan 1996 : 14.50 6.92 8.48 -0.48 4.94 6.50 -2.46
Feb : 13.60 5.59 7.58 -0.48 3.61 5.60 -2.46
Mar : 16.40 7.29 10.44 -0.48 5.30 8.45 -2.46
Apr : 17.80 8.08 11.77 -0.48 6.08 9.76 -2.48
May : 17.70 9.72 11.78 -0.48 7.65 9.71 -2.54
Jun : 17.00 8.21 11.10 -0.48 6.13 9.02 -2.56
Jul : 19.00 9.26 13.10 -0.48 7.18 11.02 -2.56
Aug : 21.30 10.99 15.40 -0.48 8.91 13.32 -2.56
Sep : 27.10 15.78 21.20 -0.48 13.70 19.12 -2.56
Oct : 24.30 13.39 18.36 -0.44 11.33 16.31 -2.49
Nov : 18.50 10.86 12.48 -0.28 8.88 10.50 -2.26
Dec : 16.40 9.31 10.38 -0.28 7.33 8.40 -2.26
Jan 1997 : 16.20 9.15 10.18 -0.08 7.17 8.20 -2.06
Feb : 15.50 8.17 9.45 0.66 6.18 7.47 -1.32
Mar : 15.80 8.39 9.79 0.72 6.40 7.80 -1.27
Apr : 17.30 9.38 11.27 0.72 7.38 9.27 -1.28
May : 18.20 10.40 12.23 1.08 8.35 10.18 -0.97
Jun : 16.40 8.01 10.50 1.52 5.93 8.42 -0.56
Jul : 16.80 8.56 10.90 2.88 6.48 8.82 0.80
Aug : 18.50 9.53 12.60 3.38 7.45 10.52 1.30
Sep : 18.70 9.23 12.80 3.40 7.15 10.72 1.32
Oct : 17.60 8.58 11.63 2.84 6.52 9.58 0.77
Nov : 16.70 9.58 10.68 -0.28 7.60 8.70 -2.26
Dec : 16.00 8.84 9.98 -0.28 6.86 8.00 -2.26
Jan 1998 : 17.00 9.47 10.98 -0.04 7.49 9.00 -2.02
Feb : 14.90 7.60 8.90 0.28 5.62 6.92 -1.71
Mar : 16.20 8.38 10.16 0.72 6.38 8.16 -1.26
Apr : 19.20 10.81 13.27 0.91 8.80 11.26 -1.11
May : 18.20 9.82 12.23 1.49 7.79 10.20 -0.54
Jun : 18.20 10.54 12.26 2.21 8.46 10.19 0.13
Jul : 16.40 8.79 10.50 2.36 6.71 8.42 0.28
Aug : 15.20 7.45 9.30 2.36 5.37 7.22 0.28
------------------------------------------------------------------------------
Oranges: Average Prices and Equivalent Returns, California
November 1995 - August 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
CA : Navels
:
Nov 1995 : 20.00 12.31 13.98 -0.48 10.33 12.00 -2.46
Dec : 15.10 8.04 9.08 -0.48 6.06 7.10 -2.46
Jan 1996 : 14.50 6.92 8.48 -0.48 4.94 6.50 -2.46
Feb : 13.60 5.59 7.58 -0.48 3.61 5.60 -2.46
Mar : 16.10 6.85 10.08 -0.48 4.87 8.10 -2.46
Apr : 17.70 7.63 11.68 -0.48 5.65 9.70 -2.46
May : 21.60 10.99 15.58 -0.48 9.01 13.60 -2.46
:
Oct : 26.60 15.94 20.58 -0.28 13.96 18.60 -2.26
Nov : 18.50 10.86 12.48 -0.28 8.88 10.50 -2.26
Dec : 16.40 9.31 10.38 -0.28 7.33 8.40 -2.26
Jan 1997 : 16.20 9.15 10.18 -0.08 7.17 8.20 -2.06
Feb : 15.40 8.12 9.38 0.60 6.14 7.40 -1.38
Mar : 15.60 8.26 9.58 0.64 6.28 7.60 -1.34
Apr : 17.40 9.43 11.38 0.64 7.45 9.40 -1.34
May : 21.90 13.60 15.88 0.66 11.62 13.90 -1.32
:
Oct : 17.90 9.96 11.88 -0.28 7.98 9.90 -2.26
Nov : 16.70 9.58 10.68 -0.28 7.60 8.70 -2.26
Dec : 16.00 8.84 9.98 -0.28 6.86 8.00 -2.26
Jan 1998 : 17.00 9.47 10.98 -0.04 7.49 9.00 -2.02
Feb : 14.90 7.53 8.88 0.20 5.55 6.90 -1.78
Mar : 15.80 7.80 9.78 0.66 5.82 7.80 -1.32
Apr : 19.40 10.77 13.38 0.66 8.79 11.40 -1.32
May : 17.20 8.44 11.18 0.66 6.46 9.20 -1.32
Jun : 22.30 13.37 16.28 0.66 11.39 14.30 -1.32
:
CA : Valencias
:
Mar 1996 : 19.20 11.85 13.30 -0.48 9.77 11.22 -2.56
Apr : 17.90 9.57 12.00 -0.48 7.49 9.92 -2.56
May : 17.20 9.53 11.30 -0.48 7.45 9.22 -2.56
Jun : 17.00 8.21 11.10 -0.48 6.13 9.02 -2.56
Jul : 19.00 9.26 13.10 -0.48 7.18 11.02 -2.56
Aug : 21.30 10.99 15.40 -0.48 8.91 13.32 -2.56
Sep : 27.10 15.78 21.20 -0.48 13.70 19.12 -2.56
Oct : 23.40 12.47 17.50 -0.48 10.39 15.42 -2.56
:
Feb 1997 : 18.60 10.04 12.70 2.04 7.96 10.62 -0.04
Mar : 18.60 10.08 12.70 1.34 8.00 10.62 -0.74
Apr : 16.70 9.12 10.80 1.08 7.04 8.72 -1.00
May : 16.30 8.84 10.40 1.26 6.76 8.32 -0.82
Jun : 16.40 8.01 10.50 1.52 5.93 8.42 -0.56
Jul : 16.80 8.56 10.90 2.88 6.48 8.82 0.80
Aug : 18.50 9.53 12.60 3.38 7.45 10.52 1.30
Sep : 18.70 9.23 12.80 3.40 7.15 10.72 1.32
Oct : 17.40 8.08 11.50 3.26 6.00 9.42 1.18
:
Feb 1998 : 15.10 8.54 9.20 1.96 6.46 7.12 -0.12
Mar : 17.60 11.19 11.70 1.96 9.11 9.62 -0.12
Apr : 19.00 10.88 13.10 1.36 8.80 11.02 -0.72
May : 18.90 10.92 13.00 2.36 8.84 10.92 0.28
Jun : 17.80 10.28 11.90 2.36 8.20 9.82 0.28
Jul : 16.40 8.79 10.50 2.36 6.71 8.42 0.28
Aug : 15.20 7.45 9.30 2.36 5.37 7.22 0.28
--------------------------------------------------------------------------------
Oranges: Average Prices and Equivalent Returns, Florida
November 1995 - June 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
FL : All Oranges
:
Nov 1995 : 14.50 5.54 7.50 5.32 3.49 5.45 3.27
Dec : 13.50 5.54 6.50 5.48 3.49 4.45 3.43
Jan 1996 : 13.50 5.77 6.50 5.75 3.72 4.45 3.70
Feb : 14.20 6.01 7.24 5.95 3.95 5.19 3.89
Mar : 14.20 7.28 7.20 7.28 5.18 5.15 5.18
Apr : 15.00 7.58 8.00 7.57 5.48 5.95 5.47
May : 15.20 7.88 8.20 7.87 5.78 6.15 5.77
Jun : 20.00 8.46 13.00 8.17 6.36 10.95 6.07
:
Nov : 15.20 5.28 8.20 4.76 3.38 6.30 2.86
Dec : 12.40 5.02 5.40 5.00 3.12 3.50 3.10
Jan 1997 : 11.20 5.07 4.20 5.09 3.17 2.30 3.19
Feb : 13.10 5.09 6.11 5.06 3.18 4.21 3.15
Mar : 13.10 5.95 6.10 5.94 4.00 4.20 3.99
Apr : 12.30 6.09 5.30 6.12 4.15 3.40 4.17
May : 13.10 6.06 6.10 6.06 4.11 4.20 4.11
Jun : 18.20 6.16 11.20 5.97 4.21 9.30 4.02
:
Oct : 14.50 4.22 7.40 2.50 2.42 5.50 0.75
Nov : 12.40 3.49 5.30 3.37 1.73 3.40 1.62
Dec : 12.20 4.04 5.10 3.96 2.28 3.20 2.21
Jan 1998 : 11.40 4.38 4.30 4.38 2.62 2.40 2.63
Feb : 11.70 5.13 4.55 5.14 3.36 2.65 3.38
Mar : 13.00 6.58 5.90 6.60 4.73 4.00 4.75
Apr : 12.60 6.96 5.50 7.00 5.10 3.60 5.15
May : 13.20 7.26 6.10 7.30 5.41 4.20 5.45
Jun : 16.00 7.85 8.90 7.80 6.00 7.00 5.95
:
FL : Early and Midseason
:
Nov 1995 : 14.50 5.54 7.50 5.32 3.49 5.45 3.27
Dec : 13.50 5.54 6.50 5.48 3.49 4.45 3.43
Jan 1996 : 13.50 5.77 6.50 5.75 3.72 4.45 3.70
Feb : 13.50 5.97 6.50 5.95 3.92 4.45 3.90
:
Nov : 15.20 5.28 8.20 4.76 3.38 6.30 2.86
Dec : 12.40 5.02 5.40 5.00 3.12 3.50 3.10
Jan 1997 : 11.20 5.07 4.20 5.09 3.17 2.30 3.19
Feb : 12.50 5.07 5.50 5.06 3.17 3.60 3.16
:
Oct : 14.50 4.22 7.40 2.50 2.42 5.50 0.75
Nov : 12.40 3.49 5.30 3.37 1.73 3.40 1.62
Dec : 12.20 4.04 5.10 3.96 2.28 3.20 2.21
Jan 1998 : 11.40 4.38 4.30 4.38 2.62 2.40 2.63
Feb : 11.10 4.97 4.00 4.99 3.22 2.10 3.24
:
FL : Valencias
:
Feb 1996 : 15.00 6.26 8.00 5.96 4.16 5.95 3.86
Mar : 14.20 7.28 7.20 7.28 5.18 5.15 5.18
Apr : 15.00 7.58 8.00 7.57 5.48 5.95 5.47
May : 15.20 7.88 8.20 7.87 5.78 6.15 5.77
Jun : 20.00 8.46 13.00 8.17 6.36 10.95 6.07
:
Feb 1997 : 13.80 5.19 6.80 5.07 3.24 4.90 3.12
Mar : 13.10 5.95 6.10 5.94 4.00 4.20 3.99
Apr : 12.30 6.09 5.30 6.12 4.15 3.40 4.17
May : 13.10 6.06 6.10 6.06 4.11 4.20 4.11
Jun : 18.20 6.16 11.20 5.97 4.21 9.30 4.02
:
Feb 1998 : 12.20 6.09 5.10 6.20 4.24 3.20 4.35
Mar : 13.00 6.58 5.90 6.60 4.73 4.00 4.75
Apr : 12.60 6.96 5.50 7.00 5.10 3.60 5.15
May : 13.20 7.26 6.10 7.30 5.41 4.20 5.45
Jun : 16.00 7.85 8.90 7.80 6.00 7.00 5.95
------------------------------------------------------------------------------
Oranges: Average Prices and Equivalent Returns, Texas
October 1995 - May 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
TX : All Oranges
:
Oct 1995 : 21.00 12.36 13.40 2.83 11.21 12.25 1.73
Nov : 16.50 7.99 8.90 2.83 6.85 7.75 1.73
Dec : 15.40 6.89 7.80 3.03 5.75 6.65 1.93
Jan 1996 : 13.50 5.30 5.90 3.01 4.16 4.75 1.91
Feb : 14.70 6.32 7.12 2.89 5.18 5.97 1.79
Mar : 16.10 8.00 8.45 3.10 6.85 7.30 2.00
Apr : 17.00 8.95 9.40 3.10 7.80 8.25 200
May : 17.00 8.61 9.40 3.10 7.47 8.25 2.00
:
Oct : 19.60 9.70 10.80 3.31 8.41 9.50 2.06
Nov : 15.00 5.47 6.20 3.17 4.19 4.90 1.92
Dec : 12.40 3.26 3.60 3.10 2.00 2.30 1.85
Jan 1997 : 12.40 3.39 3.60 3.10 2.12 2.30 1.85
Feb : 14.30 5.22 5.54 3.75 3.93 4.24 2.50
Mar : 15.00 6.04 6.19 4.35 4.74 4.89 3.10
Apr : 15.50 6.24 6.70 4.42 4.95 5.40 3.17
May : 15.50 5.94 6.70 4.42 4.66 5.40 3.17
:
Oct : 18.10 8.47 9.30 2.29 7.18 8.00 1.04
Nov : 13.70 4.34 4.90 2.29 3.05 3.60 1.04
Dec : 12.50 3.16 3.70 2.04 1.88 2.40 0.79
Jan 1998 : 11.50 2.46 2.70 2.04 1.18 1.40 0.79
Feb : 11.30 2.95 2.54 4.59 1.66 1.24 3.34
Mar : 13.90 5.16 5.11 5.42 3.86 3.81 4.17
Apr : 13.10 4.18 4.30 3.80 2.89 3.00 2.55
May : 13.10 4.30 4.30 3.00 3.00
:
TX : Early and Midseason
:
Oct 1995 : 21.00 12.36 13.40 2.83 11.21 12.25 1.73
Nov : 16.50 7.99 8.90 2.83 6.85 7.75 1.73
Dec : 15.40 6.89 7.80 3.03 5.75 6.65 1.93
Jan 1996 : 13.50 5.30 5.90 3.01 4.16 4.75 1.91
Feb : 13.60 5.20 6.00 2.89 4.06 4.85 1.79
Mar : 13.60 6.00 6.00 4.85 4.85
:
Oct 1996 : 19.60 9.70 10.80 3.31 8.41 9.50 2.06
Nov : 15.00 5.47 6.20 3.17 4.19 4.90 1.92
Dec : 12.40 3.26 3.60 3.10 2.00 2.30 1.85
Jan 1997 : 12.40 3.39 3.60 3.10 2.12 2.30 1.85
Feb : 12.40 3.52 3.60 3.10 2.23 2.30 1.85
Mar : 12.40 3.60 3.60 2.30 2.30
:
Oct : 18.10 8.47 9.30 2.29 7.18 8.00 1.04
Nov : 13.70 4.34 4.90 2.29 3.05 3.60 1.04
Dec : 12.50 3.16 3.70 2.04 1.88 2.40 0.79
Jan 1998 : 11.50 2.46 2.70 2.04 1.18 1.40 0.79
Feb : 11.10 2.78 2.30 4.59 1.49 1.00 3.34
Mar : 11.10 2.63 2.30 4.59 1.33 1.00 3.34
:
TX : Valencias
:
Feb 1996 : 17.00 9.40 9.40 8.25 8.25
Mar : 17.00 8.68 9.40 3.10 7.54 8.25 2.00
Apr : 17.00 8.95 9.40 3.10 7.80 8.25 2.00
May : 17.00 8.61 9.40 3.10 7.47 8.25 2.00
:
Feb 1997 : 16.90 7.31 8.10 4.35 6.02 6.80 3.10
Mar : 17.00 7.67 8.20 4.35 6.37 6.90 3.10
Apr : 15.50 6.24 6.70 4.42 4.95 5.40 3.17
May : 15.50 5.94 6.70 4.42 4.66 5.40 3.17
:
Feb 1998 : 15.50 6.70 6.70 5.40 5.40
Mar : 15.50 6.56 6.70 5.84 5.27 5.40 4.59
Apr : 13.10 4.18 4.30 3.80 2.89 3.00 2.55
May : 13.10 4.30 4.30 3.00 3.00
------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, United States
September 1995 - August 1998
--------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :---------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
--------------------------------------------------------------------------------
: Dollars per box
:
US : All Grapefruit
:
Sep 1995 : 15.10 6.57 9.63 -0.44 4.63 7.69 -2.38
Oct : 16.20 7.22 8.64 1.95 5.34 6.85 -0.27
Nov : 13.20 4.48 5.65 1.87 2.55 3.86 -0.39
Dec : 12.20 3.76 4.65 2.50 1.85 2.93 0.33
Jan 1996 : 12.60 3.88 5.06 2.69 1.87 3.28 0.46
Feb : 12.90 3.81 5.25 2.88 1.76 3.44 0.67
Mar : 12.90 3.70 5.29 2.92 1.60 3.47 0.69
Apr : 13.70 4.11 6.27 2.71 2.08 4.50 0.51
May : 14.00 5.16 7.63 1.46 3.24 5.81 -0.61
Jun : 13.50 6.18 8.08 -0.39 4.24 6.14 -2.33
Jul : 11.70 4.76 6.29 -0.44 2.82 4.35 -2.38
Aug : 16.70 6.22 11.26 -0.44 4.28 9.32 -2.38
Sep : 19.50 10.01 14.09 -0.34 8.07 12.15 -2.28
Oct : 16.70 7.63 9.37 0.56 5.72 7.59 -1.89
Nov : 14.10 4.86 6.15 1.87 3.01 4.44 -0.34
Dec : 13.10 4.14 5.33 2.25 2.10 3.52 -0.15
Jan 1997 : 13.50 4.12 5.56 2.29 2.10 3.77 -0.03
Feb : 12.90 3.67 5.05 2.43 1.62 3.26 0.14
Mar : 13.50 3.31 5.59 2.41 1.16 3.79 0.12
Apr : 12.90 3.19 5.20 2.30 1.02 3.38 -0.03
May : 11.90 2.92 4.61 2.06 0.77 2.77 -0.25
Jun : 13.30 4.97 7.13 1.09 2.95 5.22 -1.12
Jul : 14.60 8.63 9.19 -0.44 6.69 7.25 -2.38
Aug : 14.40 5.98 8.96 -0.44 4.04 7.02 -2.38
Sep : 14.90 6.16 9.46 -0.44 4.22 7.52 -2.38
Oct : 14.30 5.17 6.46 0.16 3.23 4.65 -2.30
Nov : 13.20 3.85 5.33 0.75 1.84 3.56 -1.75
Dec : 13.60 3.93 5.67 0.80 1.94 3.92 -1.64
Jan 1998 : 13.00 3.12 5.13 0.74 1.01 3.34 -1.75
Feb : 13.40 2.98 5.47 1.29 0.77 3.68 -1.19
Mar : 13.00 2.66 5.10 1.49 0.41 3.30 -0.97
Apr : 12.90 2.64 5.10 1.36 0.40 3.31 -1.11
May : 13.10 2.83 6.00 1.16 0.59 4.16 -1.28
Jun : 16.10 6.14 10.64 -0.26 4.20 8.70 -2.20
Jul : 16.90 7.89 11.50 -0.26 5.95 9.56 -2.20
Aug : 17.40 7.95 11.96 -0.26 6.01 10.02 -2.20
--------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, Arizona
September 1995 - July 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
AZ : All Grapefruit
:
Sep 1995 : 20.80 15.36 15.36 13.42 13.42
Oct : 13.80 8.36 8.36 6.42 6.42
Nov : 11.40 5.66 5.96 -0.28 3.72 4.02 -2.22
Dec : 11.70 5.79 6.26 -0.28 3.85 4.32 -2.22
Jan 1996 : 10.80 5.08 5.36 -0.28 3.14 3.42 -2.22
Feb : 11.20 5.30 5.76 -0.28 3.35 3.82 -2.22
Mar : 11.20 3.33 5.76 -0.28 1.39 3.82 -2.22
Apr : 11.20 3.46 5.76 -0.28 1.52 3.82 -2.22
May : 11.90 3.26 6.46 -0.28 1.32 4.52 -2.22
Jun : 14.40 4.85 8.96 -0.28 2.91 7.02 -2.22
Jul : 4.18 -1.19 -1.26 -0.28 -3.13 -3.20 -2.22
:
Sep : 21.00 15.56 15.56 13.62 13.62
Oct : 15.80 9.48 10.36 -0.26 7.53 8.42 -2.20
Nov : 15.20 8.50 9.76 -0.26 6.56 7.82 -2.20
Dec : 12.50 7.06 7.06 5.12 5.12
Jan 1997 : 10.30 4.48 4.86 -0.26 2.54 2.92 -2.20
Feb : 11.10 5.36 5.66 -0.42 3.42 3.72 -2.36
Mar : 9.88 4.25 4.44 -0.44 2.30 2.50 -2.38
Apr : 11.30 3.36 5.86 -0.44 1.42 3.92 -2.38
May : 11.50 2.50 6.06 -0.42 0.56 4.12 -2.36
Jun : 11.20 2.22 5.76 -0.42 0.28 3.82 -2.36
Jul : 9.80 3.32 4.36 -0.38 1.38 2.42 -2.32
:
Nov : 9.10 3.66 3.66 1.72 1.72
Dec : 10.20 3.28 4.76 -0.26 1.34 2.82 -2.20
Jan 1998 : 10.00 4.10 4.56 -0.26 2.16 2.62 -2.20
Feb : 11.20 5.16 5.76 -0.26 3.22 3.82 -2.20
Mar : 11.30 4.07 5.86 -0.26 2.13 3.92 -2.20
Apr : 11.70 4.48 6.26 -0.26 2.54 4.32 -2.20
May : 13.30 4.76 7.86 -0.26 2.82 5.92 -2.20
Jun : 15.20 5.11 9.76 -0.26 3.17 7.82 -2.20
Jul : 14.90 4.30 9.46 -0.26 2.36 7.52 -2.20
------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, California
September 1995 - August 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
CA : All Grapefruit
:
Sep 1995 : 15.00 6.50 9.56 -0.44 4.56 7.62 -2.38
Oct : 17.40 10.15 11.96 -0.44 8.21 10.02 -2.38
Nov : 14.50 7.04 9.06 -0.44 5.10 7.12 -2.38
Dec : 10.70 4.94 5.26 -0.44 3.00 3.32 -2.38
Jan 1996 : 11.30 4.74 5.86 -0.44 2.80 3.92 -2.38
Feb : 11.10 4.63 5.66 -0.44 2.69 3.72 -2.38
Mar : 11.50 4.25 6.06 -0.44 2.31 4.12 -2.38
Apr : 12.30 4.34 6.86 -0.44 2.40 4.92 -2.38
May : 15.20 7.26 9.76 -0.44 5.32 7.82 -2.38
Jun : 13.40 6.44 7.96 -0.44 4.50 6.02 -2.38
Jul : 12.10 5.00 6.66 -0.44 3.06 4.72 -2.38
Aug : 16.70 6.22 11.26 -0.44 4.28 9.32 -2.38
Sep : 19.50 9.93 14.06 -0.34 7.99 12.12 -2.28
Oct : 22.40 14.05 16.96 -0.15 12.11 15.02 -2.09
Nov : 15.20 4.36 9.76 -0.26 2.42 7.82 -2.20
Dec : 13.00 5.61 7.56 -0.26 3.67 5.62 -2.20
Jan 1997 : 12.00 4.51 6.56 -0 : : Equiv. P.H.D. : Equiv.
On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
CA : All Grapefruit
:
Sep 1995 : 15.00 6.50 9.56 -0.44 4.56 7.62 -2.38
Oct : 17.40 10.15 11.96 -0.44 8.21 10.02 -2.38
Nov : 14.50 7.04 9.06 -0.44 5.10 7.12 -2.38
Dec : 10.70 4.94 5.26 -0.44 3.00 3.32 -2.38
Jan 1996 : 11.30 4.74 5.86 -0.44 2.80 3.92 -2.38
Feb : 11.10 4.63 5.66 -0.44 2.69 3.72 -2.38
Mar : 11.50 4.25 6.06 -0.44 2.31 4.12 -2.38
Apr : 12.30 4.34 6.86 -0.44 2.40 4.92 -2.38
May : 15.20 7.26 9.76 -0.44 5.32 7.82 -2.38
Jun : 13.40 6.44 7.96 -0.44 4.50 6.02 -2.38
Jul : 12.10 5.00 6.66 -0.44 3.06 4.72 -2.38
Aug : 16.70 6.22 11.26 -0.44 4.28 9.32 -2.38
Sep : 19.50 9.93 14.06 -0.34 7.99 12.12 -2.28
Oct : 22.40 14.05 16.96 -0.15 12.11 15.02 -2.09
Nov : 15.20 4.36 9.76 -0.26 2.42 7.82 -2.20
Dec : 13.00 5.61 7.56 -0.26 3.67 5.62 -2.20
Jan 1997 : 12.00 4.51 6.56 -0.26 2.57 4.62 -2.20
Feb : 11.20 3.89 5.76 -0.16 1.95 3.82 -2.10
Mar : 10.90 3.20 5.46 -0.38 1.26 3.52 -2.32
Apr : 12.20 4.04 6.76 -0.44 2.10 4.82 -2.38
May : 12.90 3.90 7.46 -0.42 1.96 5.52 -2.36
Jun : 14.60 6.65 9.16 -0.44 4.71 7.22 -2.38
Jul : 14.70 8.73 9.26 -0.44 6.79 7.32 -2.38
Aug : 14.40 5.98 8.96 -0.44 4.04 7.02 -2.38
Sep : 14.90 6.16 9.46 -0.44 4.22 7.52 -2.38
Oct : 10.50 2.54 5.06 -0.44 0.60 3.12 -2.38
Nov : 8.80 2.52 3.36 -0.27 0.58 1.42 -2.21
Dec : 10.80 3.86 5.36 -0.26 1.92 3.42 -2.20
Jan 1998 : 10.60 3.81 5.16 -0.26 1.87 3.22 -2.20
Feb : 11.40 3.75 5.96 -0.26 1.81 4.02 -2.20
Mar : 11.30 3.54 5.86 -0.26 1.60 3.92 -2.20
Apr : 12.10 3.69 6.66 -0.26 1.75 4.72 -2.20
May : 15.20 5.19 9.76 -0.26 3.25 7.82 -2.20
Jun : 16.40 6.58 10.96 -0.26 4.64 9.02 -2.20
Jul : 17.00 8.05 11.56 -0.26 6.11 9.62 -2.20
Aug : 17.40 7.95 11.96 -0.26 6.01 10.02 -2.20
------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, Florida
October 1995 - May 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
FL : All Grapefruit
:
Oct 1995 : 15.80 6.75 8.11 2.01 4.78 6.24 -0.31
Nov : 12.90 4.21 5.29 1.92 2.20 3.43 -0.43
Dec : 11.90 3.55 4.31 2.59 1.49 2.45 0.28
Jan 1996 : 12.60 3.78 4.91 2.76 1.69 3.04 0.47
Feb : 13.10 3.80 5.26 2.94 1.68 3.39 0.68
Mar : 13.10 3.70 5.29 3.01 1.56 3.41 0.74
Apr : 14.30 4.21 6.54 2.94 2.07 4.67 0.64
May : 13.60 4.41 6.11 2.72 2.29 4.26 0.33
: . .
Oct : 16.20 7.24 8.62 2.04 5.24 6.76 -0.50
Nov : 13.90 4.82 6.07 2.04 2.76 4.20 -0.42
Dec : 13.00 4.06 5.25 2.31 1.95 3.38 -0.14
Jan 1997 : 13.50 4.13 5.63 2.38 2.01 3.75 -0.02
Feb : 13.00 3.70 5.17 2.51 1.55 3.29 0.15
Mar : 13.70 3.32 5.77 246 1.10 3.88 0.13
Apr : 12.90 3.15 5.11 2.38 0.93 3.24 0.02
May : 11.50 2.81 3.79 2.40 0.56 1.92 -0.01
Jun : 11.60 3.57 4.02 2.94 1.42 2.16 0.40
:
Oct : 14.30 5.27 6.44 0.25 3.26 4.57 -2.39
Nov : 13.10 3.66 5.23 0.74 1.53 3.36 -1.88
Dec : 13.50 3.77 5.65 0.75 1.61 3.77 -1.85
Jan 1998 : 13.00 2.98 5.15 0.72 0.77 3.27 -1.85
Feb : 13.30 2.79 5.35 1.31 0.49 3.46 -1.24
Mar : 13.00 2.55 5.01 1.52 0.22 3.13 -1.00
Apr : 12.80 2.48 4.86 1.40 0.14 2.99 -1.14
May : 12.00 2.16 4.16 1.38 -0.21 2.29 -1.18
:
FL : White Seedless
:
Oct 1995 : 16.80 6.27 8.40 2.25 4.24 6.48 0.00
Nov : 16.00 5.11 7.60 2.25 3.04 5.68 0.00
Dec : 15.00 4.17 6.60 3.04 2.02 4.68 0.79
Jan 1996 : 16.20 4.58 7.80 3.17 2.43 5.88 0.92
Feb : 16.50 4.35 8.10 3.18 2.17 6.18 0.93
Mar : 16.20 4.01 7.80 3.16 1.82 5.88 0.91
Apr : 16.10 4.04 7.70 3.17 1.86 5.78 0.92
:
Nov : 17.90 6.69 9.46 1.85 4.64 7.53 -0.43
Dec : 15.60 4.29 7.16 2.07 2.17 5.23 -0.21
Jan 1997 : 15.30 3.99 6.86 2.04 1.85 4.93 -0.24
Feb : 14.50 3.49 6.06 2.29 1.32 4.13 0.01
Mar : 15.60 3.06 7.16 2.29 0.83 5.23 0.01
Apr : 16.50 2.95 8.06 2.05 0.72 6.13 -0.23
May : 11.00 2.16 2.56 2.12 -0.09 0.63 -0.16
:
Oct : 17.20 6.86 8.61 0.25 4.82 6.68 -2.21
Nov : 15.00 3.62 6.41 0.70 1.44 4.48 -1.76
Dec : 16.80 4.49 8.21 1.10 2.28 6.28 -1.36
Jan 1998 : 16.50 3.19 7.91 0.60 0.92 5.98 -1.86
Feb : 16.10 3.00 7.51 1.25 0.69 5.58 -1.21
Mar : 15.70 2.58 7.11 1.45 0.23 5.18 -1.01
Apr : 15.50 2.33 6.91 1.30 -0.03 4.98 -1.16
May : 12.50 1.48 3.91 1.20 -0.93 1.98 -1.26
------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, Florida
October 1995 - May 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
FL : Colored Seedless
:
Oct 1995 : 15.50 6.95 8.01 1.81 5.01 6.16 -0.58
Nov : 12.40 4.02 4.91 1.81 2.01 3.06 -0.58
Dec : 11.40 3.34 3.91 2.27 1.30 2.06 -0.12
Jan 1996 : 11.40 3.23 3.91 2.19 1.17 2.06 -0.20
Feb : 11.30 3.16 3.81 2.31 1.07 1.96 -0.08
Mar : 11.40 3.25 3.91 2.56 1.14 2.06 0.17
Apr : 13.60 4.39 6.11 2.53 2.28 4.26 0.14
May : 13.60 4.41 6.11 2.72 2.29 4.26 0.33
:
Oct : 16.20 7.24 8.62 2.04 5.24 6.76 -0.50
Nov : 12.50 4.10 4.92 2.13 2.05 3.06 -0.41
Dec : 12.50 4.03 4.92 2.44 1.93 3.06 -0.10
Jan 1997 : 12.70 4.24 5.12 2.75 2.13 3.26 0.21
Feb : 12.30 3.96 4.72 2.90 1.82 2.86 0.36
Mar : 12.50 3.83 4.92 2.95 1.59 3.06 0.41
Apr : 11.70 3.42 4.12 2.89 1.17 2.26 0.35
May : 11.50 3.17 3.92 2.66 0.91 2.06 0.12
Jun : 11.60 3.57 4.02 2.94 1.42 2.16 0.40
:
Oct : 13.80 5.02 6.11 0.25 3.01 4.25 -2.42
Nov : 12.70 3.66 5.01 0.75 1.55 3.15 -1.92
Dec : 12.80 3.56 5.11 0.60 1.42 3.25 -2.07
Jan 1998 : 12.00 2.89 4.31 0.80 0.71 2.45 -1.87
Feb : 12.00 2.67 4.31 1.35 0.36 2.45 -1.32
Mar : 11.70 2.57 4.01 1.60 0.23 2.15 -1.07
Apr : 11.90 2.61 4.21 1.50 0.28 2.35 -1.17
May : 11.90 2.70 4.21 1.60 0.37 2.35 -1.07
:
FL : Other Than Seedless
:
Dec 1995 : 2.80 2.80 1.10 1.10
Jan 1996 : 3.50 3.50 1.80 1.80
Feb : 3.50 3.50 1.80 1.80
Mar : 3.40 3.40 1.70 1.70
Apr : 3.50 3.50 1.80 1.80
:
Dec : 1.20 1.20 -0.60 -0.60
Jan 1997 : 1.50 1.50 -0.30 -0.30
Feb : 1.90 1.90 0.10 0.10
Mar : 2.10 2.10 0.30 0.30
Apr : 2.10 2.10 0.30 0.30
May : 1.50 1.50 -0.30 -0.30
:
Jan 1998 : 1.00 1.00 -0.80 -0.80
Feb : 1.50 1.50 -0.30 -0.30
Mar : 1.60 1.60 -0.20 -0.20
Apr : 1.50 1.50 -0.30 -0.30
------------------------------------------------------------------------------
Grapefruit: Average Prices and Equivalent Returns, Texas
October 1995 - May 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
TX : All Grapefruit
:
Oct 1995 : 19.80 10.80 12.32 1.80 9.80 11.32 0.85
Nov : 15.50 6.60 8.02 1.80 5.62 7.02 0.85
Dec : 13.60 4.81 6.12 1.80 3.82 5.12 0.85
Jan 1996 : 13.50 4.73 6.02 1.76 3.75 5.02 0.81
Feb : 12.30 3.63 4.82 1.76 2.65 3.82 0.81
Mar : 12.10 3.30 4.62 1.40 2.32 3.62 0.45
Apr : 11.80 3.12 4.32 1.40 2.14 3.32 0.45
May : 11.80 3.04 4.32 1.40 2.07 3.32 0.45
:
Oct : 16.60 6.99 7.90 1.50 5.85 6.75 0.40
Nov : 14.90 5.06 6.20 1.50 3.92 5.05 0.40
Dec : 14.10 4.66 5.40 1.50 3.52 4.25 0.40
Jan 1997 : 13.60 3.99 4.90 1.50 2.85 3.75 0.40
Feb : 12.80 3.29 4.10 1.50 2.15 2.95 0.40
Mar : 13.10 3.29 4.40 1.50 2.16 3.25 0.40
Apr : 13.20 3.30 4.50 1.50 2.17 3.35 0.40
May : 13.20 2.89 4.50 1.50 1.77 3.35 0.40
:
Oct : 16.30 7.06 7.60 1.50 5.92 6.45 0.40
Nov : 15.40 5.81 6.70 1.50 4.67 5.55 0.40
Dec : 14.50 4.83 5.80 1.50 3.69 4.65 0.40
Jan 1998 : 13.70 4.19 5.00 1.50 3.05 3.85 0.40
Feb : 14.70 4.69 6.00 1.50 3.56 4.85 0.40
Mar : 14.10 3.93 5.40 1.50 2.80 4.25 0.40
Apr : 14.60 4.26 5.90 1.50 3.13 4.75 0.40
May : 14.60 4.01 5.90 1.50 2.88 4.75 0.40
------------------------------------------------------------------------------
Lemons: Average Prices and Equivalent Returns, United States
August 1995 - July 1998
--------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :---------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
--------------------------------------------------------------------------------
: Dollars per box
:
US : All Lemons
:
Aug 1995 : 43.30 22.82 34.87 1.88 19.18 31.23 -1.76
Sep : 39.30 21.15 30.84 1.88 17.51 27.20 -1.76
Oct : 30.70 14.18 22.25 1.88 10.54 18.61 -1.76
Nov : 23.00 9.48 14.60 1.88 5.84 10.96 -1.76
Dec : 19.90 7.03 11.45 1.88 3.39 7.81 -1.76
Jan 1996 : 18.70 5.52 10.29 1.88 1.88 6.65 -1.76
Feb : 17.80 5.08 9.38 1.88 1.44 5.74 -1.76
Mar : 19.30 5.92 10.87 1.88 2.28 7.23 -1.76
Apr : 23.40 8.44 14.92 1.88 4.80 11.28 -1.76
May : 28.10 10.73 19.66 1.88 7.09 16.02 -1.76
Jun : 35.10 15.04 26.66 1.88 11.40 23.02 -1.76
Jul : 40.10 17.16 31.66 1.88 13.52 28.02 -1.76
:
Aug : 37.60 18.88 29.16 3.02 15.24 25.52 -0.62
Sep : 35.20 18.01 26.73 3.02 14.37 23.09 -0.62
Oct : 30.40 13.97 21.93 3.02 10.33 18.29 -0.62
Nov : 27.80 11.79 19.40 3.02 8.15 15.76 -0.62
Dec : 25.10 10.09 16.62 3.02 6.45 12.98 -0.62
Jan 1997 : 22.30 7.94 13.89 3.02 4.30 10.25 -0.62
Feb : 19.50 5.50 11.03 3.02 1.86 7.39 -0.62
Mar : 19.00 5.61 10.54 3.02 1.97 6.90 -0.62
Apr : 22.30 8.92 13.86 3.02 5.28 10.22 -0.62
May : 31.80 18.98 23.36 3.02 15.34 19.72 -0.62
Jun : 41.90 28.78 33.46 3.02 25.14 29.82 -0.62
Jul : 48.20 33.08 39.76 3.02 29.44 36.12 -0.62
:
Aug : 49.70 27.69 41.26 3.02 24.05 37.62 -0.62
Sep : 46.20 24.28 37.81 3.02 20.64 34.17 -0.62
Oct : 32.00 14.98 23.51 3.02 11.34 19.87 -0.62
Nov : 21.30 7.91 12.88 2.08 4.27 9.24 -1.56
Dec : 19.00 6.24 10.53 2.08 2.60 6.89 -1.56
Jan 1998 : 17.90 5.41 9.48 2.08 1.77 5.84 -1.56
Feb : 17.30 5.07 8.85 2.08 1.43 5.21 -1.56
Mar : 19.50 5.27 11.01 2.08 1.63 7.37 -1.56
Apr : 22.50 6.26 14.03 2.08 2.62 10.39 -1.56
May : 27.90 10.42 19.46 2.08 6.78 15.82 -1.56
Jun : 37.60 19.55 29.16 2.08 15.91 25.52 -1.56
Jul : 43.90 26.51 35.46 2.08 22.87 31.82 -1.56
--------------------------------------------------------------------------------
Lemons: Average Prices and Equivalent Returns, Arizona and California
August 1995 - July 1998
--------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :---------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
--------------------------------------------------------------------------------
: Dollars per box
:
AZ : All Lemons
:
Aug 1995 : 44.30 29.06 35.86 1.88 25.42 32.22 -1.76
Sep : 39.70 27.23 31.26 1.88 23.59 27.62 -1.76
Oct : 28.90 15.71 20.46 1.88 12.07 16.82 -1.76
Nov : 20.90 9.13 12.46 1.88 5.49 8.82 -1.76
Dec : 18.90 6.76 10.46 1.88 3.12 6.82 -1.76
Jan 1996 : 17.60 5.14 9.16 1.88 1.50 5.52 -1.76
Feb : 16.90 4.29 8.46 1.88 0.65 4.82 -1.76
Mar : 16.90 3.82 8.46 1.88 0.18 4.82 -1.76
Apr : 18.60 3.76 10.16 1.88 0.12 6.52 -1.76
:
Sep : 33.80 19.44 25.36 3.02 15.80 21.72 -0.62
Oct : 29.90 16.55 21.46 3.02 12.91 17.82 -0.62
Nov : 25.50 11.63 17.06 3.02 7.99 13.42 -0.62
Dec : 23.40 9.42 14.96 3.02 5.78 11.32 -0.62
Jan 1997 : 21.50 7.80 13.06 3.02 4.16 9.42 -0.62
Feb : 17.90 6.10 9.46 3.02 2.46 5.82 -0.62
Mar : 15.90 5.07 7.46 3.02 1.43 3.82 -0.62
:
Sep : 51.70 40.84 43.26 3.02 37.20 39.62 -0.62
Oct : 31.60 17.49 23.16 3.02 13.85 19.52 -0.62
Nov : 20.00 7.60 11.56 2.08 3.96 7.92 -1.56
Dec : 17.90 5.88 9.46 2.08 2.24 5.82 -1.56
Jan 1998 : 17.20 5.19 8.76 2.08 1.55 5.12 -1.56
Feb : 15.80 4.39 7.36 2.08 0.75 3.72 -1.56
Mar : 17.10 4.39 8.66 2.08 0.75 5.02 -1.56
Apr : 19.00 3.75 10.56 2.08 0.11 6.92 -1.56
:
CA : All Lemons
:
Aug 1995 : 43.30 22.77 34.86 1.88 19.13 31.22 -1.76
Sep : 39.10 19.29 30.66 1.88 15.65 27.02 -1.76
Oct : 31.50 13.67 23.06 1.88 10.03 19.42 -1.76
Nov : 24.00 9.61 15.56 1.88 5.97 11.92 -1.76
Dec : 20.60 7.20 12.16 1.88 3.56 8.52 -1.76
Jan 1996 : 19.40 5.74 10.96 1.88 2.10 7.32 -1.76
Feb : 18.20 5.49 9.76 1.88 1.85 6.12 -1.76
Mar : 19.60 6.33 11.16 1.88 2.69 7.52 -1.76
Apr : 23.40 8.52 14.96 1.88 4.88 11.32 -1.76
May : 28.10 10.73 19.66 1.88 7.09 16.02 -1.76
Jun : 35.10 15.04 26.66 1.88 11.40 23.02 -1.76
Jul : 40.10 17.16 31.66 1.88 13.52 28.02 -1.76
:
Aug : 37.60 18.88 29.16 3.02 15.24 25.52 -0.62
Sep : 35.40 17.80 26.96 3.02 14.16 23.32 -0.62
Oct : 30.50 13.45 22.06 3.02 9.81 18.42 -0.62
Nov : 28.40 11.82 19.96 3.02 8.18 16.32 -0.62
Dec : 25.80 10.38 17.36 3.02 6.74 13.72 -0.62
Jan 1997 : 22.60 7.98 14.16 3.02 4.34 10.52 -0.62
Feb : 19.60 5.47 11.16 3.02 1.83 7.52 -0.62
Mar : 19.00 5.62 10.56 3.02 1.98 6.92 -0.62
Apr : 22.30 8.92 13.86 3.02 5.28 10.22 -0.62
May : 31.80 18.98 23.36 3.02 15.34 19.72 -0.62
Jun : 41.90 28.78 33.46 3.02 25.14 29.82 -0.62
Jul : 48.20 33.08 39.76 3.02 29.44 36.12 -0.62
:
Aug : 49.70 27.69 41.26 3.02 24.05 37.62 -0.62
Sep : 45.10 22.17 36.66 3.02 18.53 33.02 -0.62
Oct : 32.10 14.19 23.66 3.02 10.55 20.02 -0.62
Nov : 21.90 8.04 13.46 2.08 4.40 9.82 -1.56
Dec : 19.40 6.38 10.96 2.08 2.74 7.32 -1.56
Jan 1998 : 18.10 5.47 9.66 2.08 1.83 6.02 -1.56
Feb : 17.50 5.16 9.06 2.08 1.52 5.42 -1.56
Mar : 19.50 5.29 11.06 2.08 1.65 7.42 -1.56
Apr : 22.50 6.30 14.06 2.08 2.66 10.42 -1.56
May : 27.90 10.42 19.46 2.08 6.78 15.82 -1.56
Jun : 37.60 19.55 29.16 2.08 15.91 25.52 -1.56
Jul : 43.90 26.51 35.46 2.08 22.87 31.82 -1.56
--------------------------------------------------------------------------------
Tangerines: Average Prices and Equivalent Returns, Arizona
and United States, October 1995 - June 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
US : Tangerines
:
Oct 1995 : 27.30 16.22 19.48 4.55 13.17 16.58 0.95
Nov : 27.30 16.07 19.49 4.22 13.05 16.59 0.78
Dec : 24.20 13.98 16.60 4.23 11.05 13.78 0.87
Jan 1996 : 26.80 14.03 19.52 4.02 11.19 16.87 0.85
Feb : 24.30 11.85 17.09 2.54 9.20 14.46 -0.13
Mar : 25.40 11.74 18.16 2.13 9.11 15.49 -0.44
Apr : 27.90 14.09 20.74 2.82 11.43 18.11 0.11
May : 16.50 6.82 10.63 -0.32 4.74 8.55 -2.40
: . .
Oct : 25.10 13.48 16.96 3.57 10.36 13.95 0.12
Nov : 24.00 12.39 16.38 3.81 9.41 13.57 0.47
Dec : 21.70 10.62 13.76 4.21 7.53 10.84 0.78
Jan 1997 : 25.60 12.52 18.14 3.92 9.49 15.38 0.47
Feb : 26.00 12.65 18.91 3.36 9.79 16.33 0.07
Mar : 24.30 13.14 17.24 4.02 10.36 14.66 0.79
Apr : 28.80 16.42 21.15 4.08 13.43 18.35 0.62
May : 29.20 14.76 21.30 4.00 11.57 18.37 0.40
:
Sep : 23.30 13.47 14.70 3.46 10.23 11.50 -0.14
Oct : 24.20 11.75 16.04 2.91 8.63 13.02 -0.44
Nov : 23.10 11.24 15.09 2.93 8.15 12.12 -0.41
Dec : 23.00 10.75 15.35 2.47 7.85 12.56 -0.63
Jan 1998 : 26.50 12.87 19.09 2.62 10.03 16.39 -0.44
Feb : 21.90 10.79 14.44 3.41 7.93 11.73 0.25
Mar : 22.40 11.54 14.87 3.60 8.68 12.12 0.49
Apr : 30.30 18.20 22.68 4.68 15.29 19.87 1.45
May : 10.90 4.32 4.97 0.66 2.24 2.89 -1.42
Jun : 5.10 -0.31 -0.80 0.66 -2.39 -2.88 -1.42
:
AZ : Tangerines
:
Nov 1995 : 22.80 16.42 16.90 -0.32 14.34 14.82 -2.40
Dec : 22.10 15.56 16.20 -032 13.48 14.12 -2.40
Jan 1996 : 21.80 13.69 15.90 -0.32 11.61 13.82 -2.40
Feb : 19.40 9.20 13.50 -0.32 7.12 11.42 -2.40
Mar : 18.80 8.16 12.90 -0.32 6.08 10.82 -2.40
Apr : 16.30 8.05 10.40 -0.32 5.97 8.32 -2.40
May : 13.20 4.44 7.30 -0.32 2.36 5.22 -2.40
:
Nov : 23.40 16.93 17.50 -0.28 14.85 15.42 -2.36
Dec : 25.20 17.18 19.30 -0.28 15.10 17.22 -2.36
Jan 1997 : 24.70 16.72 18.80 -0.28 14.64 16.72 -2.36
Feb : 19.80 11.89 13.90 -0.28 9.81 11.82 -2.36
Mar : 18.10 12.20 12.20 10.12 10.12
Apr : 4.82 -1.08 -1.08 -3.16 -3.16
May : 4.80 -1.10 -1.10 -3.18 -3.18
:
Nov : 22.60 16.70 16.70 14.62 14.62
Dec : 23.70 15.03 17.80 -0.28 12.95 15.72 -2.36
Jan 1998 : 24.00 12.72 18.10 -0.08 10.64 16.02 -2.16
Feb : 20.60 11.67 14.70 0.20 9.59 12.62 -1.88
Mar : 18.60 11.01 12.70 0.66 8.93 10.62 -1.42
Apr : 15.50 9.60 9.60 7.52 7.52
May : 11.40 4.95 5.50 0.66 2.87 3.42 -1.42
------------------------------------------------------------------------------
Tangerines: Average Prices and Equivalent Returns, California
and Florida, October 1995 - June 1998
------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :-------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
------------------------------------------------------------------------------
: Dollars per box
:
CA : Tangerines
:
Oct 1995 : 34.80 28.90 28.90 26.82 26.82
Nov : 25.50 17.32 19.60 -0.32 15.24 17.52 -2.40
Dec : 20.10 12.39 14.20 -0.32 10.31 12.12 -2.40
Jan 1996 : 16.70 7.44 10.80 -0.32 5.36 8.72 -2.40
Feb : 18.10 6.38 12.20 -0.32 4.30 10.12 -2.40
Mar : 19.80 6.22 13.90 -0.32 4.14 11.82 -2.40
Apr : 19.60 6.69 13.70 -0.32 4.61 11.62 -2.40
May : 18.20 8.09 12.30 -0.32 6.01 10.22 -2.40
:
Oct : 35.90 24.95 30.00 -0.28 22.87 27.92 -2.36
Nov : 27.20 17.11 21.30 -0.28 15.03 19.22 -2.36
Dec : 22.80 13.38 16.90 -0.28 11.30 14.82 -2.36
Jan 1997 : 24.60 15.70 18.70 -0.28 13.62 16.62 -2.36
Feb : 22.40 12.99 16.50 -0.28 10.91 14.42 -2.36
Mar : 20.00 11.42 14.10 -0.28 9.34 12.02 -2.36
Apr : 22.00 14.61 16.10 -0.28 12.53 14.02 -2.36
May : 19.70 13.80 13.80 11.72 11.72
:
Oct : 36.80 20.51 30.90 -0.28 18.43 28.82 -2.36
Nov : 26.40 14.66 20.50 -0.28 12.58 18.42 -2.36
Dec : 23.60 10.65 17.70 -0.28 8.57 15.62 -2.36
Jan 1998 : 21.90 10.58 16.00 -0.08 8.50 13.92 -2.16
Feb : 18.70 9.61 12.80 0.20 7.53 10.72 -1.88
Mar : 20.20 10.64 14.30 0.66 8.56 12.22 -1.42
Apr : 21.00 11.77 15.10 0.66 9.69 13.02 -1.42
May : 5.40 -0.04 -0.50 0.66 -2.12 -2.58 -1.42
Jun : 5.10 -0.31 -0.80 0.66 -2.39 -2.88 -1.42
:
FL : Tangerines
:
Oct 1995 : 24.60 12.88 16.05 4.55 9.57 12.85 0.95
Nov : 28.10 15.73 19.55 4.77 12.42 16.35 1.17
Dec : 26.20 14.44 17.65 5.08 11.13 14.45 1.48
Jan 1996 : 34.30 17.05 25.75 5.72 13.68 22.55 2.12
Feb : 30.00 17.01 21.45 7.00 13.69 18.25 3.40
Mar : 31.00 17.95 22.45 7.20 14.63 19.25 3.60
Apr : 38.00 22.09 29.45 7.23 18.76 26.25 3.63
:
Oct : 22.80 11.42 14.25 3.99 8.10 11.05 0.39
Nov : 22.40 10.43 13.85 4.66 7.09 10.65 1.06
Dec : 21.10 9.71 12.55 4.78 6.37 9.35 1.18
Jan 1997 : 26.30 11.15 17.75 4.38 7.76 14.55 0.78
Feb : 31.20 12.57 22.65 4.28 9.15 19.45 0.68
Mar : 30.00 14.52 21.45 5.40 11.14 18.25 1.80
Apr : 33.00 17.43 24.45 4.50 14.09 21.25 0.90
May : 33.00 15.36 24.45 4.00 11.98 21.25 0.40
:
Sep : 23.30 13.47 14.70 3.46 10.23 11.50 -0.14
Oct : 21.70 10.00 13.10 3.56 6.67 9.90 -0.04
Nov : 22.30 10.38 13.70 3.58 7.05 10.50 -0.02
Dec : 22.60 10.22 14.00 3.80 6.87 10.80 0.20
Jan 1998 : 29.60 13.98 21.00 4.09 10.61 17.80 0.49
Feb : 24.00 11.28 15.40 4.70 7.92 12.20 1.10
Mar : 24.00 12.05 15.40 5.00 8.72 12.20 1.40
Apr : 36.00 21.47 27.40 6.00 18.16 24.20 2.40
------------------------------------------------------------------------------
Limes: Average Prices and Equivalent Returns,
Florida, May 1995 - March 1998
--------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :---------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
--------------------------------------------------------------------------------
: Dollars per box
:
FL : All Limes
:
May 1995 : 37.00 26.50 26.50 21.50 21.50
Jun : 16.00 5.11 5.50 3.00 0.11 0.50 -2.00
Jul : 18.00 6.44 7.50 3.00 1.44 2.50 -2.00
Aug : 32.00 16.74 21.50 3.00 11.74 16.50 -2.00
Sep : 26.00 12.12 15.50 3.00 7.12 10.50 -2.00
Oct : 26.00 13.42 15.50 3.00 8.42 10.50 -2.00
Nov : 26.00 13.48 15.50 2.00 8.48 10.50 -3.00
Dec : 28.00 15.29 17.50 2.00 10.29 12.50 -3.00
Jan 1996 : 30.00 17.48 19.50 2.00 12.48 14.50 -3.00
:
Jun : 16.00 5.00 5.50 1.75 0.00 0.50 -3.25
Jul : 18.60 6.96 8.10 1.75 1.96 3.10 -3.25
Aug : 21.70 8.31 11.20 1.75 3.31 6.20 -3.25
Sep : 21.90 8.92 11.40 1.75 3.92 6.40 -3.25
Oct : 19.80 7.21 9.30 2.00 2.21 4.30 -3.00
Nov : 24.60 10.80 14.10 2.00 5.80 9.10 -3.00
Dec : 33.50 17.00 23.00 2.00 12.00 18.00 -3.00
Jan 1997 : 46.00 35.50 35.50 30.50 30.50
Feb : 52.00 41.50 41.50 36.50 36.50
:
May : 28.00 17.50 17.50 12.50 12.50
Jun : 19.00 6.85 8.50 2.00 1.85 3.50 -3.00
Jul : 24.00 10.15 13.50 3.00 5.15 8.50 -2.00
Aug : 21.00 8.15 10.50 2.80 3.15 5.50 -2.20
Sep : 20.00 7.11 9.50 2.80 2.11 4.50 -2.20
Oct : 19.00 6.88 8.50 2.00 1.88 3.50 -3.00
Nov : 21.00 8.80 10.50 2.00 3.80 5.50 -3.00
Dec : 32.00 17.17 21.50 2.00 12.17 16.50 -3.00
Jan 1998 : 28.00 17.50 17.50 12.50 12.50
:
Apr : 30.00 19.50 19.50 14.50 14.50
May : 24.00 13.50 13.50 8.50 8.50
Jun : 25.00 13.11 14.50 2.00 8.11 9.50 -3.00
Jul : 23.00 10.67 12.50 2.00 5.67 7.50 -300
Aug : 29.00 15.85 18.50 2.00 10.85 13.50 -3.00
Sep : 26.00 13.93 15.50 2.00 8.93 10.50 -3.00
Oct : 24.00 11.97 13.50 2.00 6.97 8.50 -3.00
Nov : 24.00 11.34 13.50 2.00 6.34 8.50 -3.00
Dec : 22.00 11.50 11.50 6.50 6.50
--------------------------------------------------------------------------------
Tangelos and Temples: Average Prices and Equivalent Returns,
Florida, November 1995 - March 1998
--------------------------------------------------------------------------------
: : Equiv. P.H.D. : Equiv. On-Tree
State, Month, :---------------------------------------------------------------
and Year : F.O.B. : :
: Packed : All Fresh Proc. : All Fresh Proc.
--------------------------------------------------------------------------------
: Dollars per box
:
FL : Tangelos
:
Nov 1995 : 15.50 6.19 8.10 4.30 3.66 5.65 1.70
Dec : 14.00 5.85 6.60 5.10 3.33 4.15 2.50
Jan 1996 : 18.00 6.59 10.60 5.20 4.03 8.15 2.60
Feb : 22.00 6.21 14.60 5.60 3.62 12.15 3.00
:
Nov : 15.00 5.80 7.60 4.30 3.27 5.15 1.70
Dec : 13.30 4.88 5.90 4.30 2.33 3.45 1.70
Jan 1997 : 14.30 4.38 6.90 4.00 1.80 4.45 1.40
Feb : 12.50 4.05 5.10 4.00 1.46 2.65 1.40
:
Oct : 15.50 3.45 8.00 2.00 0.89 5.60 -0.60
Nov : 15.00 4.68 7.50 2.00 2.17 5.10 -0.60
Dec : 12.80 3.98 5.30 2.90 1.47 2.90 0.30
Jan 1998 : 14.90 3.84 7.40 3.25 1.26 5.00 0.65
Feb : 18.00 4.23 10.50 3.80 1.65 8.10 1.20
:
FL : Temples
:
Jan 1996 : 15.50 7.01 8.50 5.70 4.93 6.45 3.60
Feb : 13.20 5.98 6.20 5.90 3.90 4.15 3.80
Mar : 15.50 6.87 8.50 6.60 4.78 6.45 4.50
:
Jan 1997 : 1730 7.05 10.30 4.25 5.13 8.60 2.15
Feb : 13.60 4.54 6.60 4.10 2.51 4.90 2.00
Mar : 14.00 4.48 7.00 4.25 2.41 5.30 2.15
:
Jan 1998 : 14.50 5.06 7.40 3.50 3.04 5.50 1.40
Feb : 12.00 4.57 4.90 4.50 2.51 3.00 2.40
Mar : 13.50 5.39 6.40 5.20 3.32 4.50 3.10
--------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Asparagus
:
CA :
1996 : 84.50 84.50 87.90 85.30 85.70 81.10
1997 : 161.00 140.00 116.00 104.00 92.40 154.00
1998 : 179.00 158.00 144.00 134.00 123.00 164.00
WA :
1996 : 110.00 108.00 118.00
1997 : 105.00 102.00 112.00
1998 : 94.00 83.50 115.00
US :
1993 : 121.00 113.00 80.70 107.00 78.70 106.00
1994 : 135.00 141.00 97.60 88.50 92.90 97.00
1995 : 150.00 118.00 93.60 160.00 93.20 103.00
1996 : 84.50 84.50 87.90 87.30 95.40 108.00
1997 : 161.00 140.00 116.00 105.00 97.40 109.00
1998 : 179.00 158.00 144.00 130.00 106.00 114.00
:
: Broccoli
:
CA :
1996 : 34.60 22.00 30.90 25.20 28.20 30.60
1997 : 36.80 27.80 25.90 24.20 23.10 30.30
1998 : 33.80 26.80 30.70 40.70 27.10 29.60
US :
1993 : 32.60 28.10 28.60 23.70 22.30 26.80
1994 : 23.50 2140 19.50 21.80 27.10 21.10
1995 : 24.70 34.30 54.40 34.00 26.50 27.30
1996 : 34.60 22.00 30.90 25.20 28.20 30.60
1997 : 36.80 27.80 25.90 24.20 23.10 30.30
1998 : 34.70 27.00 31.40 40.50 27.10 29.60
:
: Carrots
:
CA :
1996 : 12.50 13.70 15.90 15.70 11.60 11.00
1997 : 14.90 14.60 13.30 12.50 12.50 12.60
1998 : 12.50 12.70 12.70 12.00 11.40 11.50
MI :
1996 :
1997 :
1998 :
TX :
1996 : 13.40 14.80 15.90 15.80 15.80
1997 : 17.30 17.30 17.30 17.30 17.30
1998 : 18.00 19.40 20.70 20.30 22.70
US :
1993 : 18.00 13.20 11.20 12.70 11.20 10.20
1994 : 10.70 10.40 11.50 10.30 12.10 12.10
1995 : 19.20 16.90 18.70 19.40 19.20 15.20
1996 : 12.60 13.80 15.90 15.70 12.00 11.00
1997 : 15.00 14.80 13.50 12.60 12.60 12.60
1998 : 13.60 12.90 12.90 12.40 11.80 11.80
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Asparagus
:
CA :
1996 : 80.00
1997 :
1998 : 234.00 211.00 199.00 152.00 148.00
WA :
1996 : 118.00
1997 : 112.00
1998 : 115.00
US :
1993 : 122.00 171.00 176.00 146.00
1994 : 143.00 144.00 196.00 151.00
1995 : 105.00
1996 : 108.00
1997 : 101.00
1998 : 127.00 211.00 199.00 152.00 148.00
:
: Broccoli
:
CA :
1996 : 24.10 24.10 23.90 24.30 31.10 28.60
1997 : 27.50 23.30 31.20 40.70 27.00 30.20
1998 : 23.30 27.60 29.20 32.80 29.70 35.00
US :
1993 : 24.50 20.00 36.60 22.40 24.20 30.00
1994 : 21.60 18.50 38.60 37.00 57.70 46.00
1995 : 19.50 31.30 27.70 23.60 20.80 26.90
1996 : 24.10 24.10 23.90 24.30 31.10 28.60
1997 : 27.50 23.30 31.20 40.70 27.00 30.20
1998 : 23.30 27.60 29.20 32.80 29.70 35.00
:
: Carrots
:
CA :
1996 : 10.40 14.10 12.50 12.50 17.00 17.20
1997 : 12.50 12.50 12.50 12.50 12.30 16.90
1998 : 10.60 10.40 10.20 10.60 11.50 11.70
MI :
1996 : 16.00 11.90 9.90 11.60 12.00
1997 : 16.50 13.00 9.50 13.00 13.00
1998 : 13.50 12.40 12.90 14.10 14.10
TX :
1996 :
1997 :
1998 :
US :
1993 : 9.04 10.10 9.98 10.30 11.00 10.90
1994 : 13.50 16.10 15.30 15.30 15.10 15.70
1995 : 15.00 16.10 16.10 15.30 15.50 13.00
1996 : 10.50 14.50 12.60 12.00 16.00 17.20
1997 : 12.60 13.20 12.70 12.00 12.50 16.80
1998 : 10.60 10.80 10.60 11.00 11.80 11.70
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Cauliflower
:
CA :
1996 : 35.20 36.10 52.80 37.00 37.70 35.70
1997 : 29.60 33.80 32.60 27.70 20.70 31.20
1998 : 35.10 44.00 49.50 43.80 35.50 26.40
NY :
1996 :
1997 :
1998 :
US :
1993 : 34.30 29.10 24.70 44.90 26.90 37.00
1994 : 24.80 2490 23.10 20.80 32.20 29.10
1995 : 31.40 31.50 53.90 68.40 47.70 37.60
1996 : 35.20 36.10 52.80 37.00 37.70 35.70
1997 : 29.60 33.80 32.60 27.70 20.70 31.20
1998 : 35.10 44.00 49.50 43.80 35.50 26.40
:
:
: Celery
CA :
1996 : 7.90 8.50 12.20 11.60 8.90 11.50
1997 : 16.20 16.20 12.30 10.50 15.40 9.89
1998 : 11.20 11.40 16.40 13.80 15.40 12.40
MI :
1996 :
1997 :
1998 :
US :
1993 : 24.00 35.60 27.40 16.50 14.40 9.45
1994 : 11.40 8.85 7.78 8.34 13.50 8.92
1995 : 24.30 26.00 20.60 33.30 24.50 14.40
1996 : 7.90 8.50 12.20 11.60 8.90 11.50
1997 : 16.20 16.20 12.30 10.50 15.40 9.89
1998 : 11.20 11.40 16.40 13.80 15.40 12.40
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Cauliflower
:
CA :
1996 : 24.30 26.80 22.60 28.70 30.00 31.10
1997 : 38.90 22.90 34.50 49.30 27.60 28.90
1998 : 23.20 25.30 31.30 23.60 42.30 50.00
NY :
1996 : 33.30 33.30 33.30
1997 : 34.80 34.80 34.80
1998 : 37.00 37.30 33.40
US :
1993 : 28.30 29.30 38.70 27.40 21.60 30.90
1994 : 31.40 24.30 34.00 31.30 42.50 29.80
1995 : 26.70 34.20 25.40 21.10 22.60 33.20
1996 : 24.30 27.20 23.80 29.20 30.00 31.10
1997 : 38.90 23.40 34.60 46.90 27.60 28.90
1998 : 23.20 26.00 32.30 25.90 42.30 50.00
:
:
: Celery
CA :
1996 : 11.10 9.20 10.80 9.30 12.40 13.40
1997 : 19.00 16.40 14.00 13.40 18.40 19.10
1998 : 9.99 9.39 9.80 9.91 11.90 14.00
MI :
1996 : 16.50 13.00 13.50 12.90
1997 : 23.60 19.40 15.40 13.50
1998 : 15.80 14.00 14.10 14.40
US :
1993 : 9.41 11.80 14.20 13.30 11.50 11.10
1994 : 12.40 14.90 12.60 12.00 13.90 25.50
1995 : 11.60 10.50 16.50 13.20 12.90 11.40
1996 : 11.50 10.30 11.60 9.79 12.40 13.40
1997 : 19.30 17.00 14.30 13.40 18.40 19.10
1998 : 10.60 10.40 10.60 10.40 11.90 14.00
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Sweet Corn
:
CA :
1996 : 21.50 17.10 16.20
1997 : 20.30 18.80 14.90
1998 : 33.60 20.00 14.80
FL :
1996 : 29.90 30.20 28.90 22.00 17.60 13.10
1997 : 29.00 25.80 33.90 26.40 22.00 18.60
1998 : 18.70 31.60 24.20 19.60 16.30 12.70
MI :
1996 :
1997 :
1998 :
NJ :
1996 :
1997 :
1998 :
NY :
1996 :
1997 :
1998 :
OH :
1996 :
1997 :
1998 :
PA :
1996 :
1997 :
1998 :
US :
1993 : 23.30 39.20 25.20 23.50 20.60 17.70
1994 : 24.50 15.50 22.80 18.50 20.40 20.20
1995 : 25.00 44.70 27.80 16.60 24.50 18.80
1996 : 29.90 30.20 28.90 21.90 17.50 14.00
1997 : 29.00 25.80 33.90 26.00 21.20 17.00
1998 : 18.70 31.60 24.20 19.60 16.90 13.80
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Sweet Corn
:
CA :
1996 : 16.70 16.10 19.50 19.20 20.00 21.00
1997 : 15.80 14.90 16.50 18.20 19.80 19.70
1998 : 12.60 11.00 15.20 26.20 25.60 24.50
FL :
1996 : 12.00 16.60 18.90 16.80
1997 : 12.60 13.70 18.10 20.00
1998 : 22.40 18.00
MI :
1996 : 30.00 17.00 15.00
1997 : 18.90 16.40
1998 : 17.80 16.30 18.20
NJ :
1996 : 26.70 19.10 16.00 20.30
1997 : 24.60 20.40 15.80 17.60
1998 : 16.40 18.30 21.50 23.00
NY :
1996 : 10.00 16.10 14.90 14.50
1997 : 22.00 15.90 13.50 14.00
1998 : 19.00 17.20 18.70
OH :
1996 : 20.80 15.70 16.20
1997 : 21.50 15.90 15.80
1998 : 19.70 18.50 16.60
PA :
1996 : 21.90 20.70 19.60
1997 : 28.40 29.30 27.10
1998 : 23.70 23.60 22.90
US :
1993 : 18.50 16.80 14.70 22.10 16.60 24.30
1994 : 19.10 11.90 15.30 19.70 19.90 26.00
1995 : 18.60 17.10 18.50 20.70 24.00 23.30
1996 : 18.90 17.40 16.70 17.90 19.40 17.70
1997 : 18.40 18.10 16.90 15.30 18.90 19.90
1998 : 16.80 16.60 18.20 25.40 23.50 19.40
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Lettuce
:
AZ-Yuma :
1996 : 9.03 17.20 12.80
1997 : 14.80 9.40 13.40 13.70
1998 : 18.80 10.70 11.60 24.40 13.10
AZ-Other :
1996 : 15.90 11.10 12.00 20.50
1997 : 14.70 8.70 8.89
1998 : 27.90 15.00
CA :
1996 : 17.80 9.26 17.20 13.30 13.20 15.10
1997 : 15.20 10.00 13.80 15.80 10.50 14.70
1998 : 19.40 11.30 16.60 28.10 14.70 11.40
NJ :
1996 : 38.60 19.80
1997 : 25.30
1998 : 29.70
NM :
1996 : 6.80 8.74
1997 : 13.70 8.90
1998 : 8.70 8.95
NY :
1996 :
1997 : 15.00
1998 :
US :
1993 : 10.80 18.70 14.30 37.80 12.60 11.50
1994 : 7.91 11.80 9.71 11.70 11.40 13.80
1995 : 13.40 9.32 27.00 48.20 47.00 15.60
1996 : 11.30 14.90 16.50 13.20 13.30 15.20
1997 : 14.90 9.58 13.50 15.60 10.40 14.90
1998 : 19.00 10.90 12.50 24.60 14.10 11.80
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Lettuce
:
AZ-Yuma :
1996 : 12.40 8.65
1997 : 23.20
1998 :
AZ-Other :
1996 : 13.50 12.60 18.20 23.00
1997 : 34.10 39.70
1998 : 23.50 8.80
CA :
1996 : 12.70 23.60 13.60 15.60 20.50 9.52
1997 : 17.00 22.80 22.30 35.10 29.40 14.00
1998 : 15.40 16.20 14.00 21.30 10.80 9.00
NJ :
1996 : 13.50 15.00 26.30 16.40 34.70
1997 : 26.40 26.00 34.40 28.80 31.90
1998 : 50.00 50.00 45.60 28.00 25.90
NM :
1996 : 13.20 20.30
1997 : 38.70 39.10
1998 : 9.90 11.60
NY :
1996 : 13.00 13.00 13.00
1997 : 15.00 15.00 15.00 15.00
1998 : 20.00
US :
1993 : 18.80 14.90 16.80 12.20 10.50 8.28
1994 : 10.60 10.90 17.30 22.10 22.40 37.20
1995 : 12.60 15.20 25.60 13.30 11.50 16.10
1996 : 12.70 23.50 13.70 15.40 17.70 8.87
1997 : 17.10 22.80 22.30 34.80 29.90 21.30
1998 : 15.50 16.30 14.00 21.10 10.90 9.00
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Spring Onions
:
AZ :
1996 : 8.00 8.50 9.00
1997 : 17.40 13.60 15.40
1998 : 17.00 13.10
CA :
1996 : 10.70 9.60 9.90
1997 : 16.60 12.60 15.50
1998 : 15.90 14.40 13.40
TX :
1996 : 8.74 9.45 10.10
1997 : 17.90 14.00 18.30
1998 : 22.80 20.30 20.80
US :
1993 : 25.40 33.10 23.80 10.40
1994 : 14.20 10.10 8.64 8.69
1995 : 18.60 22.20 14.60 9.35
1996 : 8.74 9.53 9.75 9.75
1997 : 17.60 13.20 16.20
1998 : 22.40 18.20 16.50
:
: Summer Onions
: Non-Storage
:
NM :
1996 : 12.40
1997 : 16.50
1998 : 12.40
TX :
1996 :
1997 :
1998 :
WA :
1996 : 25.20
1997 : 19.40
1998 : 26.50
US :
1993 : 14.60 10.30
1994 : 8.27
1995 : 11.80
1996 : 12.80
1997 : 16.90
1998 : 12.70
:
: Summer Onions
: Storage
:
CA :
1996 : 15.90 15.80 16.00
1997 : 19.60 14.60
1998 : 17.00 21.00 23.00
CO :
1996 : 12.90 9.70 8.90
1997 : 11.20 9.20 7.90
1998 : 14.00 17.30
ID, E-OR :
1996 : 9.60 7.10 5.20
1997 : 9.70 7.50 8.13 10.40
1998 : 13.60 16.30 23.00 14.60
MI :
1996 : 9.50 9.50 9.00
1997 : 10.00 0 20.70 24.00 23.30
1996 : 18.90 17.40 16.70 17.90 19.40 17.70
1997 : 18.40 18.10 16.90 15.30 18.90 19.90
1998 : 16.80 16.60 18.20 25.40 23.50 19.40
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Lettuce
:
AZ-Yuma :
1996 : 9.03 17.20 12.80
1997 : 14.80 9.40 13.40 13.70
1998 : 18.80 10.70 11.60 24.40 13.10
AZ-Other :
1996 : 15.90 11.10 12.00 20.50
1997 : 14.70 8.70 8.89
1998 : 27.90 15.00
CA :
1996 : 17.80 9.26 17.20 13.30 13.20 15.10
1997 : 15.20 10.00 13.80 15.80 10.50 14.70
1998 : 19.40 11.30 16.60 28.10 14.70 11.40
NJ :
1996 : 38.60 19.80
1997 : 25.30
1998 : 29.70
NM :
1996 : 6.80 8.74
1997 : 13.70 8.90
1998 : 8.70 8.95
NY :
1996 :
1997 : 15.00
1998 :
US :
1993 : 10.80 18.70 14.30 37.80 12.60 11.50
1994 : 7.91 11.80 9.71 11.70 11.40 13.80
1995 : 13.40 9.32 27.00 48.20 47.00 15.60
1996 : 11.30 14.90 16.50 13.20 13.30 15.20
1997 : 14.90 9.58 13.50 15.60 10.40 14.90
1998 : 19.00 10.90 12.50 24.60 14.10 11.80
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Lettuce
:
AZ-Yuma :
1996 : 12.40 8.65
1997 : 23.20
1998 :
AZ-Other :
1996 : 13.50 12.60 18.20 23.00
1997 : 34.10 39.70
1998 : 23.50 8.80
CA :
1996 : 12.70 23.60 13.60 15.60 20.50 9.52
1997 : 17.00 22.80 22.30 35.10 29.40 14.00
1998 : 15.40 16.20 14.00 21.30 10.80 9.00
NJ :
1996 : 13.50 15.00 26.30 16.40 34.70
1997 : 26.40 26.00 34.40 28.80 31.90
1998 : 50.00 50.00 45.60 28.00 25.90
NM :
1996 : 13.20 20.30
1997 : 38.70 39.10
1998 : 9.90 11.60
NY :
1996 : 13.00 13.00 13.00
1997 : 15.00 15.00 15.00 15.00
1998 : 20.00
US :
1993 : 18.80 14.90 16.80 12.20 10.50 8.28
1994 : 10.60 10.90 17.30 22.10 22.40 37.20
1995 : 12.60 15.20 25.60 13.30 11.50 16.10
1996 : 12.70 23.50 13.70 15.40 17.70 8.87
1997 : 17.10 22.80 22.30 34.80 29.90 21.30
1998 : 15.50 16.30 14.00 21.10 10.90 9.00
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Spring Onions
:
AZ :
1996 : 8.00 8.50 9.00
1997 : 17.40 13.60 15.40
1998 : 17.00 13.10
CA :
1996 : 10.70 9.60 9.90
1997 : 16.60 12.60 15.50
1998 : 15.90 14.40 13.40
TX :
1996 : 8.74 9.45 10.10
1997 : 17.90 14.00 18.30
1998 : 22.80 20.30 20.80
US :
1993 : 25.40 33.10 23.80 10.40
1994 : 14.20 10.10 8.64 8.69
1995 : 18.60 22.20 14.60 9.35
1996 : 8.74 9.53 9.75 9.75
1997 : 17.60 13.20 16.20
1998 : 22.40 18.20 16.50
:
: Summer Onions
: Non-Storage
:
NM :
1996 : 12.40
1997 : 16.50
1998 : 12.40
TX :
1996 :
1997 :
1998 :
WA :
1996 : 25.20
1997 : 19.40
1998 : 26.50
US :
1993 : 14.60 10.30
1994 : 8.27
1995 : 11.80
1996 : 12.80
1997 : 16.90
1998 : 12.70
:
: Summer Onions
: Storage
:
CA :
1996 : 15.90 15.80 16.00
1997 : 19.60 14.60
1998 : 17.00 21.00 23.00
CO :
1996 : 12.90 9.70 8.90
1997 : 11.20 9.20 7.90
1998 : 14.00 17.30
ID, E-OR :
1996 : 9.60 7.10 5.20
1997 : 9.70 7.50 8.13 10.40
1998 : 13.60 16.30 23.00 14.60
MI :
1996 : 9.50 9.50 9.00
1997 : 10.00 10.50 11.00
1998 : 7.20 9.40 11.60
------------------------------------------------------------------------------
Summer storage onions continued on page 58. -- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Spring Onions
:
AZ :
1996 : 9.50
1997 :
1998 :
CA :
1996 : 9.50
1997 : 14.10
1998 : 21.10
TX :
1996 :
1997 :
1998 :
US :
1993 : 10.90
1994 : 10.20
1995 : 11.20
1996 : 9.50
1997 : 14.10
1998 : 25.20
:
: Summer Onions
: Non-Storage
:
NM :
1996 : 14.40 14.00
1997 : 14.30 12.10
1998 : 14.00 12.10
TX :
1996 : 13.20 12.20
1997 : 14.00 14.00
1998 : 24.70 20.40
WA :
1996 : 20.60 20.60
1997 : 15.90 15.90
1998 : 26.00 26.00
US :
1993 : 13.80 14.40 13.10
1994 : 13.90 10.10
1995 : 14.90 11.40
1996 : 14.60 13.90
1997 : 14.30 12.80
1998 : 18.30 15.90
:
: Summer Onions
: Storage
:
CA :
1996 : 9.50 10.00 13.10 15.60 12.10 16.40
1997 : 14.10 14.20 11.20 9.90 12.40 16.20
1998 : 20.20 13.50 13.40 12.20 13.00 16.50
CO :
1996 : 13.50 14.50 14.40 14.40 14.50 13.50
1997 : 14.60 11.60 11.00 11.40 12.30
1998 : 14.70 14.40 15.10 16.80 17.00
ID, E-OR :
1996 : 14.10 13.00 11.10 10.30 10.10
1997 : 12.20 9.10 8.30 10.20 10.90
1998 : 10.90 11.90 12.40 14.20 15.90
MI :
1996 : 12.40 11.40 10.50 10.00
1997 : 10.60 8.80 8.00 8.00
1998 : 10.60 8.80 8.00 8.00
------------------------------------------------------------------------------
Summer storage onions continued on page 59.
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Summer Onions
: Storage
:
NY :
1996 : 14.90 22.40 11.40 9.35
1997 : 9.10 8.10 7.65 8.40
1998 : 9.10 8.10 7.65 8.40
OH :
1996 :
1997 : 8.00 8.00 8.00
1998 : 9.00 9.00 9.00
OR-West :
1996 : 10.70 11.00 11.00 11.00
1997 : 9.40 8.00 10.10 11.20
1998 : 9.50 10.00 11.00 12.00
WA :
1996 : 9.75 7.50 6.95 4.80 4.80
1997 : 7.80 6.00 7.95 14.00 14.00
1998 : 13.30 15.90 21.20 15.00 15.00
:
: Summer Onions
: Storage
:
US :
1993 : 16.60 14.00 16.30 19.40
1994 : 31.40 33.90 18.90 13.90
1995 : 13.50 17.60 17.80 15.70 16.60
1996 : 10.70 10.10 7.98 7.39 4.80
1997 : 9.75 7.87 8.09 11.60 14.00
1998 : 11.40 13.50 17.10 14.00 15.00
:
: All Summer Onions
:
US :
1993 : 16.60 14.00 16.30 19.40 14.60 10.30
1994 : 31.40 33.90 18.90 13.90 8.27
1995 : 13.50 17.60 17.80 15.70 16.60 11.80
1996 : 10.70 10.10 7.98 7.39 4.80 12.80
1997 : 9.75 7.87 8.09 11.60 14.00 16.90
1998 : 11.40 13.50 17.10 14.00 15.00 11.80
:
: All Onions
:
US :
1993 : 16.60 14.00 17.30 31.00 23.60 10.40
1994 : 31.40 33.90 18.80 10.80 8.64 8.49
1995 : 13.50 17.60 17.90 20.00 14.70 10.40
1996 : 10.70 10.10 8.11 8.86 9.54 11.10
1997 : 9.75 7.87 8.09 14.90 13.30 16.50
1998 : 11.40 13.50 17.10 17.80 17.70 14.90
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Summer Onions
: Storage
:
NY :
1996 : 13.50 13.50 12.50 10.20 9.70
1997 : 26.80 15.00 12.00 11.60 11.50
1998 : 31.40 17.40 15.00 14.30 17.10
OH :
1996 : 8.00 8.00 8.00 8.00 8.00
1997 : 9.00 9.00 9.00 9.00
1998 : 6.00 5.40 10.00 10.00 9.00
OR-West :
1996 : 9.60 9.00 8.50
1997 : 10.10 9.70 10.80
1998 : 11.30 10.90 12.80 14.20
WA :
1996 : 11.70 10.90 9.30 8.30 8.10
1997 : 12.00 8.90 7.70 8.65 9.60
1998 : 11.00 10.00 11.20 12.40 13.80
:
: Summer Onions
: Storage
:
US :
1993 : 10.90 15.00 13.30 12.10 18.70 24.50
1994 : 10.30 9.31 9.32 10.60 12.20 12.70
1995 : 11.40 8.24 10.00 9.83 9.48 10.10
1996 : 9.59 12.00 12.70 11.50 10.40 10.20
1997 : 14.10 14.00 10.20 9.21 9.87 10.90
1998 : 20.20 13.60 12.80 12.70 14.00 15.90
:
: All Summer Onions
:
US :
1993 : 13.00 14.80 13.30 12.10 18.70 24.50
1994 : 12.70 9.54 9.32 10.60 12.20 12.70
1995 : 14.00 9.56 10.00 9.83 9.48 10.10
1996 : 12.50 12.60 12.70 11.50 10.40 10.20
1997 : 14.20 13.60 10.20 9.19 9.86 10.90
1998 : 19.00 14.30 12.80 12.70 14.00 15.90
:
: All Onions
:
US :
1993 : 12.70 14.80 13.30 12.10 18.70 24.50
1994 : 12.30 9.54 9.32 10.60 12.20 12.70
1995 : 13.60 9.56 10.00 9.83 9.48 10.10
1996 : 12.10 12.60 12.70 11.50 10.40 10.20
1997 : 14.20 13.60 10.20 9.19 9.86 10.90
1998 : 19.10 14.30 12.80 12.70 14.00 15.90
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Winter Strawberries
:
FL :
1993 : 88.00 91.00 59.00 52.00
1994 : 80.90 59.00 47.40 40.30
1995 : 131.00 92.00 56.00 42.00
1996 : 93.00 78.00 51.00 51.00
1997 : 97.00 71.00 69.00
1998 : 103.00 108.00 72.00 85.00
:
: Spring Strawberries
:
CA :
1996 : 80.30 76.70 38.50 45.60 65.00
1997 : 116.00 98.30 85.80 42.70 54.30 74.80
1998 : 120.00 147.00 86.50 67.50 67.40 54.60
MI :
1996 : 78.00
1997 : 80.00
1998 : 79.00
US :
1993 : 102.00 80.20 57.70 42.40 38.30 46.10
1994 : 77.90 99.00 94.40 57.50 56.40 52.30
1995 : 65.50 67.00 65.60 57.60 66.90 54.00
1996 : 80.30 76.70 38.50 45.60 65.40
1997 : 116.00 98.30 85.80 42.70 54.30 75.10
1998 : 120.00 147.00 86.50 67.50 67.40 55.50
:
: All Strawberries
:
US :
1993 : 90.70 88.50 58.40 43.80 38.30 46.10
1994 : 79.50 71.90 67.90 56.70 56.40 52.30
1995 : 87.60 80.20 59.20 54.30 66.90 54.00
1996 : 93.00 79.40 65.90 39.30 45.60 65.40
1997 : 102.00 78.40 80.40 42.70 54.30 75.10
1998 : 103.00 119.00 78.00 70.00 67.00 55.00
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Winter Strawberries
:
FL :
1993 : 150.00 141.00
1994 : 129.00
1995 : 144.00
1996 : 160.00
1997 : 184.00
1998 : 108.00
:
: Spring Strawberries
:
CA :
1996 : 44.10 54.80 61.50 40.70
1997 : 56.20 53.10 67.50 69.80
1998 : 56.30 65.00 59.00 80.20 116.00
MI :
1996 : 78.00
1997 : 80.00
1998 : 79.00
US :
1993 : 32.80 46.90 48.90 64.20 93.70
1994 : 49.50 49.00 46.60 82.40 89.90
1995 : 50.70 63.30 41.50 49.70 115.00
1996 : 44.70 54.80 61.50 40.70
1997 : 56.60 53.10 67.50 69.80
1998 : 56.50 65.00 59.00 80.20 116.00
:
: All Strawberries
:
US :
1993 : 32.80 46.90 48.90 64.20 95.70 141.00
1994 : 49.50 49.00 46.60 82.40 89.90 129.00
1995 : 50.70 63.30 41.50 49.70 115.00 144.00
1996 : 44.70 54.80 61.50 40.70 160.00
1997 : 56.60 53.10 67.50 69.80 184.00
1998 : 56.00 65.00 59.00 80.00 116.00 108.00
------------------------------------------------------------------------------
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jan : Feb : Mar : Apr : May : Jun
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Tomatoes
AR :
1996 : 37.00
1997 : 40.00
1998 : 33.30
CA :
1996 : 35.90 26.80
1997 : 36.90 27.30
1998 : 29.20 25.70
FL :
1996 : 18.40 40.00 81.70 50.50 23.60 20.30
1997 : 33.50 47.30 58.80 26.30 32.40 37.80
1998 : 26.40 44.00 34.00 37.20 37.10 10.40
MI :
1996 :
1997 :
1998 :
NJ :
1996 :
1997 :
1998 :
NY :
1996 :
1997 :
1998 :
SC :
1996 : 29.30
1997 : 59.90
1998 : 24.90
VA :
1996 :
1997 :
1998 :
US :
1993 : 38.30 21.90 21.20 45.20 58.10 22.90
1994 : 41.50 19.30 24.50 16.50 20.60 31.30
1995 : 41.10 29.80 37.10 20.50 14.70 35.70
1996 : 18.40 40.00 81.70 50.50 24.40 24.20
1997 : 33.50 47.30 58.80 26.30 3340 32.60
1998 : 26.40 44.00 34.00 37.20 36.50 17.80
------------------------------------------------------------------------------
-- continued
Vegetables for Fresh Market: Prices Received Monthly,
by State, 1996-98, and United States, 1993-98
------------------------------------------------------------------------------
State : : : : : :
and : Jul : Aug : Sep : Oct : Nov : Dec
Year : : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
: Tomatoes
AR :
1996 : 40.00 40.00
1997 : 32.00 32.00
1998 : 44.30
CA :
1996 : 23.50 20.60 22.40 27.60 29.40 25.30
1997 : 25.40 25.40 23.20 23.30 41.10
1998 : 43.10 20.40 26.60 43.10 35.80
FL :
1996 : 29.30 29.70 30.70
1997 : 31.00 48.10 48.80
1998 : 55.90 46.30 47.70
MI :
1996 : 24.20 24.20 24.20
1997 : 24.20 24.20 24.20
1998 : 38.50 38.50 38.50
NJ :
1996 : 46.00 28.00 28.70 44.00 43.20
1997 : 58.40 31.50 27.40 30.90
1998 : 50.00 36.60 32.60 50.00
NY :
1996 : 100.00 40.00 17.50 20.00
1997 : 30.00 30.00 28.30 29.10
1998 : 80.00 31.40 22.80
SC :
1996 : 30.20 28.30 28.90 37.60 32.80
1997 : 27.50 27.90 33.00
1998 : 28.70 24.40
VA :
1996 : 23.00 24.00 26.00 25.50
1997 : 36.00 35.00 34.00 30.00 30.00
1998 : 41.00 34.50 32.50 31.00
US :
1993 : 23.30 32.70 29.80 19.40 31.60 57.60
1994 : 26.90 30.60 22.70 28.50 31.20 37.40
1995 : 24.40 19.60 19.50 22.50 33.10 25.00
1996 : 26.00 22.10 23.40 28.30 29.70 30.40
1997 : 28.60 27.30 25.20 27.40 45.40 48.80
1998 : 40.60 25.50 28.60 44.90 43.60 47.70
------------------------------------------------------------------------------
Cows 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 43.00 37.60 42.10 39.40 38.40 34.50
AR : 33.90 34.80 34.80 35.30 34.40 34.70
CA : 32.50 33.50 34.50 35.50 35.50 34.50
CO : 35.60 36.90 36.80 37.00 36.60 36.50
FL : 35.00 37.40 36.10 37.30 37.10 35.60
GA : 34.70 36.10 35.50 36.20 36.10 35.40
ID : 31.80 34.00 33.20 34.60 34.60 34.30
IL : 34.70 35.10 34.90 35.60 37.50 36.20
IA : 36.80 38.30 38.20 37.80 38.90 37.70
KS : 36.10 37.20 36.90 36.50 36.10 35.60
KY : 35.00 37.00 37.00 38.00 38.00 37.00
LA : 35.30 37.30 37.30 36.40 34.90 34.80
MI : 34.70 34.40 37.30 37.20 36.50 37.50
MN : 33.00 36.70 35.60 35.60 38.80 37.10
MO : 34.50 36.00 35.80 36.30 37.50 37.20
MT : 35.30 37.30 38.10 39.90 37.20 37.10
NE : 37.30 37.70 38.30 3590 35.60 36.50
NM : 38.50 40.10 40.60 40.80 39.40 39.00
ND : 36.60 38.50 38.30 38.90 39.30 39.00
OH : 32.60 34.90 33.80 35.30 35.70 35.70
OK : 37.10 36.80 36.50 36.50 35.40 34.90
OR : 38.10 37.80 38.30 38.90 39.90 37.80
PA : 34.20 36.00 35.30 36.70 37.70 37.50
SD : 32.40 34.00 34.50 37.40 36.90 38.80
TN : 34.80 35.90 35.10 36.80 36.80 37.40
TX : 33.70 35.30 36.40 35.30 33.20 34.20
VA : 32.10 32.40 32.00 33.70 34.90 35.00
WI : 35.40 36.80 36.00 36.60 37.20 36.30
WY : 35.80 37.00 38.60 38.50 38.20 38.40
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 34.50 36.00 36.00 36.20 36.40 36.10
1997 : 30.00 33.30 36.90 38.20 38.20 37.50
1996 : 32.00 32.10 31.40 29.40 30.40 30.60
1995 : 38.70 41.50 39.90 38.00 36.80 38.20
1994 : 45.50 47.00 47.40 47.20 45.90 43.60
1993 : 47.80 49.20 48.30 48.50 49.80 50.20
------------------------------------------------------------------------------
continued
Cows 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998 (continued)
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 34.50 36.50 34.20 29.50 26.90 30.50
AR : 34.60 32.20 28.60 26.70 26.20 25.90
CA : 33.00 34.50 33.50 30.00 29.50 30.30
CO : 35.50 35.10 33.10 30.30 30.40 30.60
FL : 34.00 33.70 30.70 28.30 30.00 30.30
GA : 33.80 32.70 30.40 29.10 29.00 30.20
ID : 32.90 33.30 30.70 28.10 27.70 29.60
IL : 35.50 34.70 33.00 31.10 28.70 28.70
IA : 36.80 35.10 33.10 30.60 29.80 32.40
KS : 34.50 33.30 31.50 28.30 27.30 28.70
KY : 36.00 35.00 33.00 30.00 30.00 30.00
LA : 33.40 33.00 31.10 28.70 29.60 30.10
MI : 34.10 36.70 31.80 31.00 29.80 31.00
MN : 36.20 35.50 33.20 32.30 31.00 32.40
MO : 35.30 34.70 32.40 29.80 29.00 29.80
MT : 37.60 37.20 32.90 31.40 30.10 30.60
NE : 34.50 32.90 32.50 31.90 29.50 29.60
NM : 36.60 36.20 34.20 31.80 31.60 32.40
ND : 36.50 35.60 32.20 29.60 28.30 32.10
OH : 34.90 32.80 32.10 27.90 28.70 31.90
OK : 32.90 32.70 30.10 28.70 29.00 29.60
OR : 35.30 36.10 34.60 30.90 30.50 30.90
PA : 36.20 35.70 33.90 31.30 31.30 32.20
SD : 37.10 37.60 35.50 31.20 29.50 30.30
TN : 34.40 33.80 29.20 27.80 27.80 28.30
TX : 32.50 31.80 30.50 29.30 28.40 29.10
VA : 32.60 32.30 29.20 27.80 26.30 27.90
WI : 35.70 35.20 33.70 31.10 30.40 31.80
WY : 36.70 35.50 32.50 31.40 31.90 33.10
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 34.70 3420 32.60 30.50 29.70 30.80
1997 : 38.20 36.40 34.40 33.10 31.90 33.00
1996 : 31.00 31.80 30.80 30.30 28.00 28.30
1995 : 35.90 35.80 33.90 32.20 29.60 30.40
1994 : 43.80 43.10 41.50 38.40 37.00 37.40
1993 : 49.90 48.90 47.10 45.10 44.10 44.00
------------------------------------------------------------------------------
1/ Beef Cows and cull Dairy Cows sold for slaughter.
Steers & Heifers: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 64.30 60.80 62.00 64.30 65.80 66.00
AR : 69.70 71.90 72.50 72.60 70.40 65.20
CA : 65.00 63.50 64.00 64.00 64.00 62.00
CO : 66.90 62.20 64.40 66.60 66.10 64.80
FL : 71.80 73.80 72.00 74.10 68.70 64.20
GA : 68.50 69.60 71.60 71.50 67.90 64.40
ID : 67.30 64.90 66.70 69.10 66.70 64.10
IL : 63.20 61.70 62.10 64.20 64.90 63.30
IA : 66.40 64.10 61.90 63.70 66.00 63.60
KS : 65.40 62.70 64.70 68.10 66.80 65.20
KY : 70.00 71.00 72.00 73.00 73.00 70.00
LA : 72.50 76.10 75.80 74.70 69.50 63.60
MI : 57.80 60.80 59.00 54.90 53.60 55.30
MN : 63.60 62.20 61.80 63.30 64.00 64.50
MO : 74.00 75.00 75.80 78.00 77.60 73.60
MT : 81.50 79.80 78.20 79.00 75.90 71.50
NE : 65.90 62.50 63.90 65.60 66.60 64.60
NM : 79.80 78.00 76.50 76.90 72.40 72.50
ND : 75.10 73.00 73.40 74.30 69.60 64.00
OH : 62.30 62.90 60.40 63.50 67.60 6200
OK : 76.70 76.40 75.10 75.10 72.50 70.30
OR : 74.20 74.90 77.20 76.30 77.20 70.50
PA : 62.90 61.30 60.10 60.70 61.70 60.90
SD : 76.10 71.90 71.80 71.10 66.90 65.70
TN : 73.10 74.10 74.20 76.50 73.30 69.90
TX : 67.80 65.70 66.10 67.20 67.00 65.00
VA : 67.00 67.80 66.30 70.60 71.90 67.50
WI : 62.20 59.40 59.60 61.20 62.00 60.20
WY : 77.80 77.80 73.90 76.00 76.10 73.30
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 66.10 63.30 64.30 66.30 66.30 64.50
1997 : 65.20 65.20 67.90 67.90 68.30 64.90
1996 : 62.60 61.10 60.20 58.10 57.60 59.60
1995 : 71.40 72.10 70.30 66.60 63.60 63.30
1994 : 73.00 73.10 75.40 75.40 69.70 64.70
1993 : 78.70 79.50 81.40 81.70 80.80 77.60
------------------------------------------------------------------------------
continued
Steers & Heifers: Monthly Prices Received by States, 1998,
and United States, 1993-1998 (continued)
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 59.30 58.60 57.90 59.90 61.70 59.50
AR : 65.10 59.70 57.40 59.00 59.90 61.20
CA : 60.00 59.00 58.00 60.00 61.00 60.00
CO : 60.10 58.80 58.90 62.90 65.50 60.80
FL : 59.50 58.60 56.30 55.30 57.20 60.60
GA : 59.20 56.90 54.30 55.60 54.50 57.00
ID : 60.40 58.10 57.20 60.00 61.30 60.90
IL : 59.30 57.80 56.80 58.30 58.80 58.00
IA : 59.30 59.70 58.70 59.00 60.70 60.60
KS : 61.20 60.20 59.10 63.20 62.80 60.10
KY : 64.00 63.00 60.00 61.00 61.00 61.00
LA : 59.00 58.90 56.00 58.20 58.80 62.30
MI : 52.90 54.30 53.70 55.00 53.50 54.00
MN : 63.60 59.80 58.90 58.90 59.20 57.90
MO : 68.20 67.70 65.30 65.50 64.80 64.10
MT : 69.40 65.60 64.70 69.30 71.00 71.40
NE : 61.10 60.10 59.40 61.00 62.20 60.60
NM : 67.00 63.90 63.40 65.50 68.10 66.90
ND : 57.10 62.70 63.20 65.70 67.10 65.60
OH : 60.70 59.90 58.30 58.60 59.30 61.50
OK : 67.60 66.10 65.40 67.70 68.20 69.30
OR : 63.90 61.40 61.90 62.70 62.10 61.70
PA : 59.30 58.40 57.50 57.40 58.40 58.10
SD : 57.80 59.30 61.00 67.90 68.20 69.90
TN : 63.90 63.40 60.20 60.80 59.70 60.50
TX : 62.20 60.30 59.20 61.30 63.10 61.70
VA : 58.40 61.10 57.10 58.60 57.30 57.90
WI : 55.50 56.30 56.00 57.00 56.60 54.50
WY : 67.90 65.00 65.40 69.50 71.70 71.00
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 61.00 59.70 58.90 61.40 62.30 60.30
1997 : 65.40 66.60 67.00 67.30 68.00 66.80
1996 : 62.10 64.30 67.90 68.10 68.70 65.50
1995 : 61.90 61.70 62.00 62.30 65.20 64.70
1994 : 65.00 68.30 66.10 66.10 68.40 68.00
1993 : 75.10 75.20 74.50 72.40 72.90 72.00
------------------------------------------------------------------------------
Beef Cattle 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 62.80 59.20 60.40 62.60 65.00 65.10
AR : 56.70 59.30 59.70 59.90 55.70 53.30
CA : 48.40 48.50 49.80 50.30 51.20 49.90
CO : 64.40 60.40 63.10 64.80 64.00 63.40
FL : 37.90 41.80 40.40 40.60 39.30 39.00
GA : 46.50 49.50 49.90 48.60 47.00 45.30
ID : 57.70 58.10 58.70 60.80 59.00 57.60
IL : 62.60 61.20 61.60 63.70 64.40 62.80
IA : 62.30 60.70 60.00 61.90 63.80 63.00
KS : 64.20 61.90 63.90 66.80 65.60 64.90
KY : 61.60 63.10 63.60 64.60 64.50 62.10
LA : 46.50 48.20 48.10 47.50 45.60 43.70
MI : 48.60 50.20 50.30 47.80 48.50 50.00
MN : 60.70 59.60 57.70 59.00 59.50 59.50
MO : 65.70 66.40 66.20 67.60 66.40 64.50
MT : 66.30 66.60 69.80 72.00 54.60 47.40
NE : 64.90 61.60 63.00 64.70 65.60 63.70
NM : 61.20 61.70 63.60 64.60 61.50 60.80
ND : 68.60 67.80 67.80 66.80 56.90 49.70
OH : 59.30 60.10 57.70 60.70 64.40 59.40
OK : 70.80 74.20 74.00 72.50 70.20 66.70
OR : 63.40 63.80 65.50 65.10 66.00 60.70
PA : 55.40 54.70 53.70 54.50 55.50 54.80
SD : 68.70 65.10 68.10 66.70 61.50 59.50
TN : 57.80 58.80 58.60 60.60 58.70 56.90
TX : 65.40 63.30 63.70 64.30 64.00 62.80
VA : 52.00 54.70 57.00 62.10 57.80 55.20
WI : 46.70 46.30 45.90 46.90 47.60 46.30
WY : 68.60 69.20 69.70 71.90 68.10 63.90
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 62.50 60.40 61.30 63.00 63.00 61.80
1997 : 61.40 61.90 64.80 64.80 65.10 62.30
1996 : 59.00 57.90 56.80 54.90 54.70 56.40
1995 : 67.60 68.80 66.90 63.30 60.80 60.90
1994 : 69.90 70.10 72.30 72.00 67.20 62.70
1993 : 75.10 75.80 77.20 77.30 77.10 74.50
------------------------------------------------------------------------------
continued
Beef Cattle 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998 (continued)
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 58.80 58.20 57.40 59.30 61.00 58.90
AR : 53.30 49.00 45.30 46.40 46.80 49.90
CA : 47.00 47.20 45.80 46.00 46.00 44.50
CO : 58.90 57.90 57.90 61.30 61.60 58.40
FL : 43.20 39.40 38.90 34.00 37.60 37.60
GA : 42.20 41.20 38.30 38.10 36.70 38.80
ID : 54.10 53.60 51.40 51.10 50.20 52.10
IL : 58.80 57.40 56.30 57.70 58.20 57.40
IA : 57.70 58.00 56.70 57.30 59.20 57.80
KS : 60.90 59.90 58.50 62.20 61.70 59.20
KY : 57.30 56.30 53.30 53.60 53.60 53.60
LA : 42.10 4260 40.30 39.60 40.10 40.40
MI : 47.30 49.00 44.90 45.40 44.00 44.80
MN : 58.90 56.70 55.20 54.30 54.20 54.60
MO : 61.00 60.40 58.10 58.40 57.30 53.80
MT : 48.40 58.50 59.90 61.30 60.40 57.50
NE : 60.50 59.40 58.60 60.20 61.10 59.50
NM : 55.80 53.10 52.00 51.00 52.40 51.40
ND : 43.30 53.20 57.00 59.20 57.00 53.90
OH : 58.10 57.20 55.70 55.70 56.20 58.50
OK : 62.20 60.70 57.70 58.10 58.90 58.90
OR : 55.30 53.80 53.70 53.20 52.60 52.50
PA : 53.30 52.50 51.40 50.60 51.30 51.40
SD : 52.60 55.80 57.90 63.90 61.20 59.60
TN : 52.10 51.60 47.80 47.60 46.90 47.60
TX : 60.10 58.30 56.00 58.10 59.60 58.80
VA : 49.40 52.20 51.00 52.10 49.20 45.00
WI : 44.00 44.10 43.10 42.00 41.40 41.30
WY : 54.50 62.90 63.40 66.50 60.20 55.80
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 58.40 57.40 56.10 58.00 58.10 56.80
1997 : 62.80 63.90 63.60 63.30 63.30 62.90
1996 : 59.10 61.30 63.80 63.30 63.40 61.00
1995 : 59.50 59.40 59.10 58.80 60.70 60.60
1994 : 62.90 65.90 63.50 62.90 64.40 64.40
1993 : 72.50 72.70 71.40 69.10 69.30 68.50
------------------------------------------------------------------------------
1/ "Cows" and "Steers and Heifers" combined.
Calves: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 91.20 93.20 95.30 92.50 88.50 75.50
AR : 82.00 81.80 86.10 85.70 80.20 73.90
CA : 72.00 74.00 73.00 75.00 73.50 70.00
CO : 91.80 91.10 94.50 95.00 93.00 81.80
FL : 87.20 89.50 90.80 94.20 87.00 76.50
GA : 80.90 84.40 86.70 87.10 79.50 73.30
ID : 81.00 82.00 84.00 83.00 83.00 79.00
IL : 102.00 103.00 104.00 105.00 104.00 100.00
IA : 80.90 80.10 79.40 80.50 84.50 75.70
KS : 90.00 93.00 96.00 98.00 96.00 86.00
KY : 77.00 80.00 84.00 87.00 83.00 77.00
LA : 83.60 86.40 87.60 87.20 80.70 75.10
MI : 52.00 55.00 55.00 55.00 55.00 52.50
MN : 71.00 7400 70.40 72.50 78.20 72.60
MO : 82.50 86.80 88.00 90.80 89.00 82.00
MT : 91.10 89.60 89.00 88.90 87.00 79.70
NE : 88.80 89.30 90.60 92.60 92.00 86.10
NM : 90.10 93.20 92.60 94.30 90.00 85.00
ND : 87.60 84.90 83.50 87.70 80.60 76.30
OH : 72.00 69.80 71.50 78.00 76.80 68.30
OK : 89.20 90.40 92.60 92.40 88.20 77.50
OR : 78.90 81.60 87.50 84.60 85.50 77.50
PA : 78.00 80.00 75.00 80.00 85.00 76.10
SD : 93.50 90.10 90.30 90.00 83.30 83.10
TN : 81.50 83.80 85.10 88.10 81.70 74.80
TX : 89.10 94.00 95.10 94.30 88.00 81.90
VA : 74.10 79.40 82.30 82.90 84.70 75.40
WI : 100.20 99.20 102.00 99.80 103.00 96.00
WY : 93.40 92.20 93.90 94.30 91.00 85.20
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 86.60 88.70 89.80 90.80 88.90 81.70
1997 : 68.10 74.90 80.00 82.20 84.30 85.40
1996 : 60.50 60.20 59.40 55.10 54.40 55.10
1995 : 85.00 86.90 84.40 81.80 77.00 76.90
1994 : 93.90 94.90 97.60 95.80 89.40 84.80
1993 : 94.70 96.00 98.60 99.60 99.20 99.10
------------------------------------------------------------------------------
continued
Calves: Monthly Prices Received by States, 1998,
and United States, 1993-1998 (continued)
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AZ : 75.50 78.10 72.60 72.30 74.40 72.50
AR : 73.90 73.50 71.20 68.90 70.30 72.80
CA : 68.00 68.00 63.50 70.00 72.50 73.30
CO : 71.90 75.20 74.40 77.10 79.50 82.70
FL : 71.00 71.90 66.60 66.00 69.70 75.00
GA : 67.20 66.70 63.50 65.90 68.40 72.30
ID : 75.00 73.00 70.00 72.00 74.00 75.00
IL : 97.00 97.00 94.00 95.00 95.00 95.00
IA : 65.00 67.70 71.30 69.00 68.80 70.50
KS : 83.00 79.00 74.00 78.00 81.00 81.00
KY : 69.00 70.00 65.00 66.00 66.00 68.00
LA : 68.00 68.20 65.60 68.20 70.90 75.20
MI : 54.00 54.00 48.60 47.00 45.00 50.00
MN : 63.80 66.80 62.60 65.20 60.60 68.70
MO : 75.50 75.50 72.20 71.60 71.50 74.50
MT : 74.80 76.60 76.80 75.80 76.40 77.70
NE : 75.00 74.70 74.60 79.50 76.60 84.40
NM : 75.30 75.10 70.60 71.00 76.90 76.80
ND : 72.60 71.30 70.90 73.70 74.30 73.40
OH : 62.60 61.40 58.40 57.80 55.20 61.40
OK : 72.30 73.50 71.10 74.40 79.80 82.20
OR : 70.00 67.30 68.10 70.60 70.20 70.00
PA : 78.00 83.00 75.50 80.40 82.10 83.00
SD : 83.10 83.10 79.50 81.90 80.80 80.10
TN : 67.70 68.10 63.80 64.60 65.70 69.30
TX : 76.50 76.50 75.10 75.00 79.40 81.10
VA : 64.20 64.60 62.80 64.50 63.20 66.20
WI : 92.70 96.10 94.80 95.50 96.60 99.50
WY : 85.20 83.30 78.00 78.40 78.90 79.70
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 76.60 76.90 74.10 75.70 77.50 80.20
1997 : 86.90 88.00 86.90 84.30 82.90 83.30
1996 : 56.80 59.30 61.00 60.10 61.20 61.80
1995 : 72.00 70.90 68.50 66.20 64.10 63.30
1994 : 83.80 84.40 80.00 78.20 81.00 81.90
1993 : 96.90 95.10 93.50 93.90 91.60 92.80
------------------------------------------------------------------------------
Milk Cows 1/: Quarterly Prices Received by States, 1998,
and United States, 1993-1998
-------------------------------------------------------------------------------
: : : :
State : Jan : Apr : Jul : Oct
: : : :
-------------------------------------------------------------------------------
: Dollars per Head
:
AL : 1090 1080 1100 1150
AZ : 1170 1260 1240 1280
AR : 980 1020 1020 1030
CA : 1220 1260 1290 1310
CO : 1130 1200 1200 1300
FL : 1200 1150 1160 1270
GA : 1090 1150 1150 1200
ID : 1100 1170 1180 1180
IL : 1060 1140 1150 1170
IN : 1000 1060 1080 1120
IA : 1020 1090 1100 1200
KS : 1070 1120 1100 1120
KY : 1000 1000 1040 1090
LA : 990 1050 1060 1100
MD : 1080 1150 1110 1200
MI : 1080 1110 1120 1190
MN : 990 1050 1030 1110
MS : 1020 1020 1040 1080
MO : 920 930 1000 1075
NE : 1150 1130 1130 1160
NM : 1130 1190 1200 1240
NY : 980 1000 1020 1050
NC : 1110 1140 1140 1170
ND : 940 1020 1020 1080
OH : 1030 1000 1070 1200
OK : 1020 1050 1060 1080
OR : 1120 1150 1150 1230
PA : 1030 1080 1160 1180
TN : 1020 1060 1060 1100
TX : 1070 1110 1120 1200
UT : 1050 1100 1140 1160
VT : 1050 1060 1070 1120
VA : 1160 1180 1140 1170
WA : 1150 1170 1200 1250
WI : 1030 1060 1060 1140
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 1070 1110 1120 1180
1997 : 1090 1110 1100 1090
1996 : 1060 1070 1090 1130
1995 : 1150 1140 1130 1090
1994 : 1170 1190 1160 1160
1993 : 1140 1160 1170 1170
-------------------------------------------------------------------------------
1/ Cows sold for dairy herd replacement.
Hogs 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Dec 2/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Cwt
:
GA : 37.70 32.50 33.60 34.50 34.90 39.00
IL : 39.70 34.30 33.90 33.50 34.20 41.30
IN : 39.10 34.10 34.20 33.70 34.50 41.60
IA : 43.60 37.70 37.40 36.50 37.10 44.10
KS : 39.00 34.80 33.10 33.00 33.50 39.30
KY : 40.80 33.70 36.60 35.60 35.60 44.30
MI : 41.90 36.40 36.30 36.50 36.50 42.20
MN : 43.10 36.30 37.30 35.40 35.40 42.40
MO : 38.20 33.60 33.30 33.00 33.60 39.60
NE : 44.50 39.00 38.70 37.40 37.70 43.70
NC : 41.50 36.30 35.00 33.50 35.30 42.20
OH : 40.70 35.10 37.00 36.10 36.50 43.40
PA : 40.10 33.80 34.10 32.60 32.70 38.80
SC : 37.10 32.70 33.70 34.30 34.30 40.80
SD : 42.00 36.60 36.60 35.80 36.40 42.50
TN : 39.90 34.00 33.70 33.20 33.70 40.80
TX : 38.90 32.60 31.70 30.10 31.20 36.10
VA : 41.30 35.30 34.30 34.40 36.40 44.40
WI : 38.30 34.70 32.80 32.40 32.60 39.40
:
US :
1998 : 41.60 36.00 35.90 34.90 35.60 42.30
1997 : 55.60 53.80 52.80 49.40 53.80 58.20
1996 : 43.50 42.60 46.50 48.70 49.70 56.80
1995 : 30.90 36.80 39.10 37.80 35.60 37.10
1994 : 40.40 43.50 47.90 44.40 42.70 42.70
1993 : 41.70 41.20 44.00 46.50 45.40 46.90
:----------------------------------------------------------------------
: Jun : Jul : Aug : Sep : Oct : Nov
:----------------------------------------------------------------------
: Dollars per Cwt
:
GA : 41.40 34.90 33.10 26.40 23.70 17.80
IL : 41.10 35.00 33.60 27.70 25.30 16.20
IN : 41.10 35.50 32.70 27.20 25.60 16.30
IA : 43.80 38.20 37.20 31.70 29.80 20.80
KS : 39.50 34.50 33.00 27.90 25.10 16.70
KY : 44.30 38.50 35.40 30.50 27.70 19.80
MI : 40.80 35.30 33.40 27.20 26.20 17.00
MN : 43.50 38.20 36.70 30.30 29.00 19.30
MO : 39.20 33.80 31.60 26.20 24.10 14.10
NE : 44.30 39.60 37.90 32.10 31.40 22.30
NC : 42.00 36.50 35.10 29.40 26.50 18.20
OH : 43.10 0 75.80 76.40 77.70
NE : 75.00 74.70 74.60 79.50 76.60 84.40
NM : 75.30 75.10 70.60 71.00 76.90 76.80
ND : 72.60 71.30 70.90 73.70 74.30 73.40
OH : 62.60 61.40 58.40 57.80 55.20 61.40
OK : 72.30 73.50 71.10 74.40 79.80 82.20
OR : 70.00 67.30 68.10 70.60 70.20 70.00
PA : 78.00 83.00 75.50 80.40 82.10 83.00
SD : 83.10 83.10 79.50 81.90 80.80 80.10
TN : 67.70 68.10 63.80 64.60 65.70 69.30
TX : 76.50 76.50 75.10 75.00 79.40 81.10
VA : 64.20 64.60 62.80 64.50 63.20 66.20
WI : 92.70 96.10 94.80 95.50 96.60 99.50
WY : 85.20 83.30 78.00 78.40 78.90 79.70
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 76.60 76.90 74.10 75.70 77.50 80.20
1997 : 86.90 88.00 86.90 84.30 82.90 83.30
1996 : 56.80 59.30 61.00 60.10 61.20 61.80
1995 : 72.00 70.90 68.50 66.20 64.10 63.30
1994 : 83.80 84.40 80.00 78.20 81.00 81.90
1993 : 96.90 95.10 93.50 93.90 91.60 92.80
------------------------------------------------------------------------------
Milk Cows 1/: Quarterly Prices Received by States, 1998,
and United States, 1993-1998
-------------------------------------------------------------------------------
: : : :
State : Jan : Apr : Jul : Oct
: : : :
-------------------------------------------------------------------------------
: Dollars per Head
:
AL : 1090 1080 1100 1150
AZ : 1170 1260 1240 1280
AR : 980 1020 1020 1030
CA : 1220 1260 1290 1310
CO : 1130 1200 1200 1300
FL : 1200 1150 1160 1270
GA : 1090 1150 1150 1200
ID : 1100 1170 1180 1180
IL : 1060 1140 1150 1170
IN : 1000 1060 1080 1120
IA : 1020 1090 1100 1200
KS : 1070 1120 1100 1120
KY : 1000 1000 1040 1090
LA : 990 1050 1060 1100
MD : 1080 1150 1110 1200
MI : 1080 1110 1120 1190
MN : 990 1050 1030 1110
MS : 1020 1020 1040 1080
MO : 920 930 1000 1075
NE : 1150 1130 1130 1160
NM : 1130 1190 1200 1240
NY : 980 1000 1020 1050
NC : 1110 1140 1140 1170
ND : 940 1020 1020 1080
OH : 1030 1000 1070 1200
OK : 1020 1050 1060 1080
OR : 1120 1150 1150 1230
PA : 1030 1080 1160 1180
TN : 1020 1060 1060 1100
TX : 1070 1110 1120 1200
UT : 1050 1100 1140 1160
VT : 1050 1060 1070 1120
VA : 1160 1180 1140 1170
WA : 1150 1170 1200 1250
WI : 1030 1060 1060 1140
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : 1070 1110 1120 1180
1997 : 1090 1110 1100 1090
1996 : 1060 1070 1090 1130
1995 : 1150 1140 1130 1090
1994 : 1170 1190 1160 1160
1993 : 1140 1160 1170 1170
-------------------------------------------------------------------------------
1/ Cows sold for dairy herd replacement.
Hogs 1/: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Dec 2/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Cwt
:
GA : 37.70 32.50 33.60 34.50 34.90 39.00
IL : 39.70 34.30 33.90 33.50 34.20 41.30
IN : 39.10 34.10 34.20 33.70 34.50 41.60
IA : 43.60 37.70 37.40 36.50 37.10 44.10
KS : 39.00 34.80 33.10 33.00 33.50 39.30
KY : 40.80 33.70 36.60 35.60 35.60 44.30
MI : 41.90 36.40 36.30 36.50 36.50 42.20
MN : 43.10 36.30 37.30 35.40 35.40 42.40
MO : 38.20 33.60 33.30 33.00 33.60 39.60
NE : 44.50 39.00 38.70 37.40 37.70 43.70
NC : 41.50 36.30 35.00 33.50 35.30 42.20
OH : 40.70 35.10 37.00 36.10 36.50 43.40
PA : 40.10 33.80 34.10 32.60 32.70 38.80
SC : 37.10 32.70 33.70 34.30 34.30 40.80
SD : 42.00 36.60 36.60 35.80 36.40 42.50
TN : 39.90 34.00 33.70 33.20 33.70 40.80
TX : 38.90 32.60 31.70 30.10 31.20 36.10
VA : 41.30 35.30 34.30 34.40 36.40 44.40
WI : 38.30 34.70 32.80 32.40 32.60 39.40
:
US :
1998 : 41.60 36.00 35.90 34.90 35.60 42.30
1997 : 55.60 53.80 52.80 49.40 53.80 58.20
1996 : 43.50 42.60 46.50 48.70 49.70 56.80
1995 : 30.90 36.80 39.10 37.80 35.60 37.10
1994 : 40.40 43.50 47.90 44.40 42.70 42.70
1993 : 41.70 41.20 44.00 46.50 45.40 46.90
:----------------------------------------------------------------------
: Jun : Jul : Aug : Sep : Oct : Nov
:----------------------------------------------------------------------
: Dollars per Cwt
:
GA : 41.40 34.90 33.10 26.40 23.70 17.80
IL : 41.10 35.00 33.60 27.70 25.30 16.20
IN : 41.10 35.50 32.70 27.20 25.60 16.30
IA : 43.80 38.20 37.20 31.70 29.80 20.80
KS : 39.50 34.50 33.00 27.90 25.10 16.70
KY : 44.30 38.50 35.40 30.50 27.70 19.80
MI : 40.80 35.30 33.40 27.20 26.20 17.00
MN : 43.50 38.20 36.70 30.30 29.00 19.30
MO : 39.20 33.80 31.60 26.20 24.10 14.10
NE : 44.30 39.60 37.90 32.10 31.40 22.30
NC : 42.00 36.50 35.10 29.40 26.50 18.20
OH : 43.10 38.30 35.60 29.40 28.60 20.10
PA : 39.60 35.10 32.60 25.00 24.40 17.00
SC : 41.20 36.10 33.70 26.40 24.00 16.40
SD : 42.40 37.70 35.00 30.90 30.00 21.50
TN : 40.50 35.10 33.00 26.70 25.70 17.70
TX : 36.90 30.70 29.80 27.50 23.60 25.60
VA : 41.60 35.90 34.60 29.20 28.00 18.30
WI : 39.30 34.10 32.00 26.50 25.20 15.70
:
US :
1998 : 42.40 36.90 35.20 29.50 27.80 18.80
1997 : 57.80 58.90 55.30 50.40 47.30 45.10
1996 : 56.40 58.60 59.70 54.70 55.60 54.40
1995 : 42.20 46.30 48.60 48.40 45.70 39.90
1994 : 42.70 42.20 41.80 35.40 31.80 28.00
1993 : 48.10 45.70 47.30 47.80 46.90 42.50
------------------------------------------------------------------------------
1/ "Sows" and "Barrows and Gilts" combined. 2/ Preceding year.
Barrows and Gilts: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Dec 1/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Cwt
:
GA : 38.10 33.30 34.50 35.40 35.80 43.30
IL : 40.30 35.10 34.70 34.10 34.80 42.40
IN : 39.70 35.00 35.10 34.50 35.30 43.10
IA : 43.80 37.90 37.50 36.70 37.30 44.40
KS : 39.80 36.00 33.90 33.70 34.40 40.90
KY : 41.00 34.00 37.00 36.00 36.00 45.00
MI : 42.70 37.20 37.00 37.40 37.50 45.00
MN : 43.40 36.60 37.60 35.70 35.70 42.90
MO : 38.60 34.20 33.90 33.50 34.40 40.50
NE : 44.60 39.10 38.80 37.50 37.80 43.90
NC : 41.60 36.40 35.10 33.60 35.40 42.30
OH : 41.20 35.60 37.30 36.40 37.00 44.40
PA : 41.40 35.00 35.40 33.90 34.30 41.10
SC : 37.30 32.80 34.10 34.80 34.80 41.60
SD : 43.30 38.10 38.00 36.80 37.50 44.10
TN : 40.60 34.90 34.50 34.00 34.60 42.20
TX : 40.60 34.00 32.80 30.90 32.50 38.10
VA : 41.50 35.40 34.50 34.60 36.60 44.70
WI : 39.50 36.50 34.10 33.50 33.80 41.50
:
US :
1998 : 42.00 36.50 36.30 35.30 36.00 43.10
1997 : 56.10 54.10 53.00 49.60 54.40 58.80
1996 : 44.30 43.20 47.30 49.50 50.60 57.70
1995 : 31.70 37.60 39.80 38.20 35.90 37.50
1994 : 41.00 44.10 48.40 44.80 43.00 43.10
1993 : 42.50 41.90 44.70 47.00 45.80 47.50
:----------------------------------------------------------------------
: Jun : Jul : Aug : Sep : Oct : Nov
:----------------------------------------------------------------------
: Dollars per Cwt
:
GA : 42.40 35.80 34.50 27.20 24.40 18.10
IL : 42.20 35.90 34.60 28.60 26.00 16.40
IN : 42.60 36.60 34.00 28.20 26.40 16.40
IA : 44.30 38.50 37.50 31.90 30.00 21.00
KS : 41.00 35.60 34.40 29.10 25.70 16.90
KY : 45.00 39.00 36.00 31.00 28.00 20.00
MI : 45.10 38.80 35.80 29.20 27.90 17.50
MN : 44.10 38.70 37.10 30.80 29.30 19.40
MO : 40.50 34.70 32.70 26.90 24.50 14.10
NE : 44.50 39.80 38.10 32.30 31.50 22.40
NC : 42.10 36.60 35.20 29.50 26.60 18.20
OH : 44.10 39.00 36.10 29.70 28.90 20.20
PA : 42.00 36.90 34.60 26.60 26.50 17.30
SC : 42.00 36.70 34.40 26.90 24.30 16.10
SD : 44.00 39.40 37.00 32.50 31.30 22.60
TN : 41.80 36.00 34.20 27.70 26.50 18.00
TX : 39.90 31.70 31.10 28.50 24.20 26.80
VA : 41.90 36.20 34.90 29.50 28.20 18.40
WI : 41.40 35.60 33.90 28.20 26.50 16.20
:
US :
1998 : 43.20 37.60 35.90 30.10 28.20 19.00
1997 : 58.40 59.70 55.90 50.90 47.80 45.60
1996 : 57.10 59.40 60.30 55.10 56.00 54.60
1995 : 43.20 47.40 49.60 49.20 46.10 40.40
1994 : 43.40 43.20 42.80 36.00 32.30 28.60
1993 : 48.90 46.60 48.30 48.50 47.50 43.20
------------------------------------------------------------------------------
1/ Preceding year.
Sows: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Dec 1/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Cwt
:
GA : 34.00 25.40 25.30 26.00 27.10 28.80
IL : 32.70 25.10 25.40 26.00 26.20 28.40
IN : 33.40 25.80 25.70 26.40 27.10 28.10
IA : 34.00 29.10 28.80 28.70 28.20 31.80
KS : 32.90 27.10 27.80 27.10 27.90 29.90
KY : 35.00 26.00 27.00 27.00 27.00 28.00
MI : 32.30 26.00 26.00 25.10 25.50 26.50
MN : 34.10 27.70 28.30 27.90 27.90 30.20
MO : 33.20 26.50 27.00 26.40 26.70 27.30
NE : 33.80 27.70 28.40 28.10 28.10 29.80
NC : 34.80 28.00 28.00 27.70 28.70 29.40
OH : 33.70 26.80 26.00 26.00 26.60 28.40
PA : 32.90 26.90 26.50 25.20 23.80 25.60
SC : 35.00 30.90 28.60 27.30 26.80 28.00
SD : 31.60 26.90 27.50 26.90 26.60 29.60
TN : 33.20 25.40 26.00 26.20 26.00 28.50
TX : 31.00 24.90 24.30 24.50 23.40 25.80
VA : 31.30 27.90 24.50 26.40 26.20 27.20
WI : 30.30 22.80 23.90 24.80 24.30 25.60
:
US :
1998 : 33.20 26.50 26.60 26.70 26.70 28.60
1997 : 48.40 46.60 47.20 45.20 44.80 48.40
1996 : 31.60 31.60 33.00 35.20 36.10 41.40
1995 : 19.40 24.80 29.10 31.10 29.40 28.50
1994 : 31.20 34.30 37.70 38.70 38.00 35.60
1993 : 31.00 31.70 34.60 39.00 39.40 38.00
:----------------------------------------------------------------------
: Jun : Jul : Aug : Sep : Oct : Nov
:----------------------------------------------------------------------
: Dollars per Cwt
:
GA : 29.30 27.20 20.30 18.20 17.80 15.40
IL : 28.00 25.20 21.50 17.10 18.20 13.70
IN : 27.10 26.00 20.60 18.40 18.50 15.50
IA : 32.40 27.00 23.80 20.20 20.70 16.50
KS : 29.80 26.80 22.80 19.50 20.70 15.20
KY : 28.00 26.00 22.00 18.00 20.00 16.00
MI : 26.40 23.40 18.50 14.70 15.70 11.50
MN : 30.40 27.00 25.40 20.00 20.20 16.50
MO : 27.60 26.50 20.30 16.20 17.60 14.00
NE : 27.80 26.50 23.20 19.70 21.00 16.10
NC : 29.40 27.60 23.30 20.30 20.90 18.50
OH : 27.70 25.90 21.70 17.80 18.50 16.80
PA : 25.90 24.90 21.20 16.60 17.20 15.80
SC : 28.90 26.80 22.10 19.30 19.50 18.50
SD : 30.40 27.90 22.80 19.10 20.10 14.40
TN : 28.30 26.90 22.40 18.00 18.50 15.20
TX : 24.70 23.60 22.40 21.50 18.40 19.00
VA : 26.20 23.20 18.50 15.50 16.50 11.90
WI : 25.60 23.80 19.00 14.80 16.20 12.00
:
US :
1998 : 28.80 26.00 21.80 18.20 18.80 15.50
1997 : 46.20 45.90 44.40 40.30 38.20 35.10
1996 : 44.90 46.70 48.90 47.00 49.10 50.00
1995 : 28.60 28.90 34.00 35.30 38.20 32.10
1994 : 32.70 29.60 29.80 26.80 24.20 19.30
1993 : 36.90 34.70 35.30 37.20 36.80 35.00
------------------------------------------------------------------------------
1/ Preceding year.
Lambs: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Cwt
:
CA : 81.50 78.00 71.00 69.00 63.00 90.00
CO : 81.60 76.10 69.90 62.80 59.60 89.60
ID : 74.20 63.00 61.00 57.00 61.00 82.00
IA : 75.00 68.00 66.20 61.30 65.40 88.00
KS : 73.00 69.00 69.00 63.00 60.00 90.00
MN : 76.40 71.00 69.10 65.00 71.40 92.60
MT : 87.80 77.10 70.90 70.30 71.00 89.70
NE : 73.00 67.00 70.30 78.00 88.40 91.50
OH : 78.40 74.10 76.40 77.90 76.00 86.20
OR : 77.00 71.00 65.30 64.90 67.40 73.60
SD : 79.00 71.30 68.00 66.90 63.40 92.00
TX : 74.30 75.30 71.70 67.30 63.80 89.30
UT : 77.00 76.00 71.00 70.00 70.00 82.00
WY : 76.00 73.50 70.30 65.60 6130 92.00
:
US :
1998 : 78.80 75.00 70.10 66.00 63.00 88.90
1997 : 94.50 99.80 99.70 96.40 90.80 86.50
1996 : 76.20 84.30 86.60 85.90 90.30 100.70
1995 : 68.20 70.50 74.80 74.60 80.40 85.70
1994 : 60.60 59.40 58.60 54.50 54.50 63.00
1993 : 67.30 72.70 76.00 68.10 61.50 55.70
:----------------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec
:----------------------------------------------------------------------
: Dollars per Cwt
:
CA : 84.00 79.00 78.00 71.00 64.00 66.00
CO : 84.70 85.50 77.90 71.70 62.60 63.50
ID : 76.00 71.30 60.00 65.00 59.30 60.80
IA : 81.40 81.80 70.10 60.10 56.90 58.40
KS : 85.00 86.00 79.00 72.00 63.00 64.00
MN : 78.70 78.50 71.20 64.50 58.30 61.80
MT : 80.80 79.40 69.00 67.00 68.60 71.60
NE : 81.00 79.20 67.30 64.40 54.70 61.30
OH : 74.30 73.80 71.60 66.50 63.20 65.30
OR : 66.50 64.00 62.20 62.00 61.30 62.50
SD : 81.60 78.30 72.10 68.90 67.60 68.90
TX : 83.00 84.00 74.30 69.70 63.70 67.00
UT : 78.00 78.00 68.00 62.00 59.00 65.00
WY : 84.00 80.10 71.50 69.30 63.00 66.10
:
US :
1998 : 81.30 80.10 71.80 67.60 62.60 64.70
1997 : 81.10 92.70 90.20 87.20 83.10 83.90
1996 : 98.30 89.10 88.50 87.00 84.60 88.20
1995 : 85.70 85.60 82.70 77.60 77.10 76.50
1994 : 72.80 75.50 71.20 68.00 70.60 69.10
1993 : 53.90 59.20 64.50 64.50 65.80 66.00
------------------------------------------------------------------------------
Sheep: Monthly Prices Received by States, 1998,
and United States, 1993-1998
------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
------------------------------------------------------------------------------
: Dollars per Cwt
:
CA : 35.50 33.00 36.50 35.50 30.00 32.00
CO : 41.50 40.60 39.90 33.90 30.00 31.20
ID : 31.70 34.00 37.00 39.30 35.00 32.00
IA : 38.60 36.90 38.50 30.40 31.40 24.70
KS : 36.00 38.00 39.00 30.00 26.00 22.00
MN : 38.20 38.70 37.50 30.20 26.90 22.80
MT : 39.00 39.90 41.90 35.10 26.70 26.60
NE : 42.00 37.70 35.60 29.90 27.70 28.30
OH : 40.50 36.60 39.60 32.20 28.40 25.60
OR : 32.00 33.50 32.00 34.40 30.40 28.00
SD : 44.50 40.70 41.40 33.40 26.80 24.50
TX : 46.00 45.50 47.90 41.80 32.20 33.30
UT : 40.00 37.00 37.00 37.00 35.00 29.00
WY : 45.10 42.90 43.90 33.20 27.70 31.00
:
US :
1998 : 40.70 39.60 41.00 34.40 30.30 30.20
1997 : 41.50 41.30 42.50 37.50 34.00 36.60
1996 : 34.20 33.80 34.00 27.30 25.30 26.60
1995 : 32.50 37.10 31.70 29.50 27.90 28.30
1994 : 35.10 37.00 34.30 29.60 29.30 33.60
1993 : 33.10 35.20 36.10 27.30 29.10 28.90
:----------------------------------------------------------------------
: Jul : Aug : Sep : Oct : Nov : Dec
:----------------------------------------------------------------------
: Dollars per Cwt
:
CA : 29.00 29.00 27.50 26.50 25.50 28.50
CO : 31.70 29.30 25.70 24.60 26.70 31.40
ID : 29.00 29.80 27.00 27.00 24.30 29.40
IA : 26.40 23.80 27.40 25.20 29.80 37.10
KS : 24.00 22.00 23.00 22.00 24.00 29.00
MN : 23.70 23.00 23.90 21.60 20.50 27.10
MT : 29.90 28.50 25.40 24.80 25.50 32.70
NE : 29.40 29.60 29.40 25.90 27.80 27.50
OH : 29.80 33.10 28.50 28.20 31.60 31.90
OR : 27.00 30.70 30.00 29.00 29.00 29.00
SD : 31.30 26.60 29.40 25.70 28.50 25.70
TX : 34.00 30.90 32.20 28.80 32.50 41.80
UT : 26.00 26.00 20.00 20.00 21.00 25.00
WY : 30.00 25.90 25.70 28.00 26.40 29.70
:
US :
1998 : 29.40 28.30 26.80 26.10 26.40 30.10
1997 : 39.40 38.40 33.90 35.80 38.90 37.70
1996 : 30.50 29.10 30.20 28.80 29.80 34.20
1995 : 28.60 27.00 26.00 24.50 23.80 26.00
1994 : 30.10 29.40 27.90 27.30 30.50 34.70
1993 : 29.00 28.50 25.80 24.60 25.70 30.30
------------------------------------------------------------------------------
Broilers: Prices Received by Month, States, 1998;
and United States, 1993-98 1/
-----------------------------------------------------------------------------
State : Dec 2/ : Jan : Feb : Mar : Apr : May
-----------------------------------------------------------------------------
: Dollars Per Pound
:
AL : .330 .345 .355 .365 .370 .390
AR : .320 .310 .310 .330 .350 .350
CA : 355 .355 .355 .360 .365 .375
DE : .300 .320 .330 .345 .365 .395
GA : .330 .345 .360 .375 .375 .390
MD : .300 .320 .330 .345 .365 .395
MS : .315 .335 .355 .360 .365 .385
NC : .340 .350 .370 .370 .375 .370
PA : .300 .340 .330 .340 .360 .370
TX : .330 .320 .320 .330 .340 .350
VA : .310 .330 .340 .350 .360 .370
-----------------------------------------------------------------------------
Year : United States
-----------------------------------------------------------------------------
1998 : .324 .336 .343 .354 .364 .375
1997 : .407 .390 .377 .369 .367 .368
1996 : .362 .372 .353 .341 .349 .378
1995 : .325 .324 .325 .327 .323 .319
1994 : .339 .337 .344 .353 .356 .376
1993 : .315 .318 .322 .330 .338 .352
-----------------------------------------------------------------------------
State : Jun : Jul : Aug : Sep : Oct : Nov
-----------------------------------------------------------------------------
AL : .420 .455 .470 .460 .435 .410
AR : .390 .420 .460 .470 .430 .420
CA : .400 .435 .465 .460 .450 .430
DE : .440 .450 .485 .450 .410 .390
GA : .420 .455 .475 .465 .445 .415
MD : .440 .450 .485 .450 .410 .390
MS : .415 .445 .465 .450 .425 .405
NC : .380 .440 .465 .455 .430 .410
PA : .430 .435 .475 .435 .420 .390
TX : .380 .420 .460 .470 .460 .440
VA : .400 .430 .470 .440 .430 .400
-----------------------------------------------------------------------------
Year : United States
-----------------------------------------------------------------------------
1998 : .406 .440 .468 .459 .434 .413
1997 .374 .400 .399 .382 .347 .337
1996 : .406 .405 .403 .402 .395 .404
1995 : .332 .347 .374 .381 .368 .376
1994 : .375 .364 .351 .351 .339 .323
1993 : .350 .355 .364 .365 .350 .348
-----------------------------------------------------------------------------
1/ Equivalent liveweight returns to producers. Derived from ready-to-cook
(RTC) prices using the following formula: (RTC price minus processing
cost) * (dressing percentage) = equivalent liveweight price.
2/ December preceding year.
Turkeys: Prices Received, Monthly by State, 1998;
United States, 1993-98 1/
-------------------------------------------------------------------------------
State : Jan : Feb : Mar : Apr : May : Jun
-------------------------------------------------------------------------------
: Dollars per Pound
:
AR : .36 .33 .34 .37 .36 .37
CA : .40 .40 .37 .37 .37 .37
IN : .36 .36 .36 .37 .37 .38
IA : .39 .39 .39 .39 .39 .39
MN : .36 .36 .37 .36 .35 .34
MO : .34 .33 .34 .36 .36 .37
NC : .34 .31 .32 .34 .34 .35
PA : .34 .33 .35 .35 .35 .35
VA : .34 .31 .33 .34 .34 .35
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : .355 .341 .347 .357 .355 .359
1997 : .388 .369 .381 .397 .413 .416
1996 : .409 .420 .418 .422 .432 .444
1995 : .396 .374 .383 .383 .384 .393
1994 : .370 .373 .384 .392 .399 .403
1993 : .356 .357 .376 .376 .377 .376
-------------------------------------------------------------------------------
State : Jul : Aug : Sep : Oct : Nov : Dec
-------------------------------------------------------------------------------
: Dollars per Pound
:
AR : .41 .41 .43 .47 .49 .43
CA : .37 .40 .42 .45 .46 .45
IN : .39 .40 .40 .42 .44 .40
IA : .37 .37 .38 .38 .38 .37
MN : .34 .34 .35 .34 .33 .33
MO : .41 .41 .44 .48 .50 .45
NC : .37 .40 .41 .46 .47 .42
PA : .38 .40 .41 .43 .43 .42
VA : .38 .40 .42 .46 .48 .41
-------------------------------------------------------------------------------
Year : United States
-------------------------------------------------------------------------------
1998 : .375 .386 .402 .427 .438 .403
1997 : .411 .410 .411 .410 .419 .387
1996 : .450 .443 .442 .451 .455 .432
1995 : .396 .419 .436 .452 .473 .440
1994 : .406 .421 .431 .445 .443 .422
1993 : .387 .396 .411 .432 .427 .408
-------------------------------------------------------------------------------
1/ IN, IA, MN and PA are actual liveweight prices. All other State prices are
equivalent liveweight returns to producers. Derived from ready-to-cook
(RTC) prices using the following formula: (RTC price minus processing cost)
* (dressing percentage) = equivalent liveweight price.
Market Eggs: Prices Received by Month by State 1998,
and United States, 1993-1998 1/
------------------------------------------------------------------------------
State : Dec 2/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Dozen
:
AL : .620 .590 .460 .580 .460 .380
AR : .630 .590 .400 .550 .390 .340
CA : .720 .692 .550 .550 .545 .370
CT : .690 .640 .520 .610 .520 .370
FL : .690 .560 .520 .540 .470 .340
GA : .687 .607 .514 .574 .466 .388
IN : .700 .650 .570 .620 .560 .460
IA : .584 .534 .362 .515 .361 .263
ME : .750 .700 .580 .660 .560 .440
MI : .660 .570 .440 .570 .440 .320
MN : .600 .500 .430 .510 .430 .330
MS : .780 .650 .590 .660 .540 .450
MO : .581 .539 .370 .508 .330 .260
NY : .723 .703 .573 .653 .564 .460
NC : .664 .561 .427 .572 .397 .310
OH : .717 .680 .585 .598 .564 .458
PA : .720 .700 .580 .600 .570 .460
SC : .630 .558 .524 .519 .509 .440
TX : .680 .575 .490 .590 .460 .350
WA : .695 .698 .515 .515 .505 .440
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : .680 .626 .511 .572 .495 .387
1997 : .798 .661 .654 .608 .530 .507
1996 : .692 .681 .647 .692 .649 .569
1995 : .508 .491 .486 .486 .486 .419
1994 : .523 .505 .522 .547 .487 .454
1993 : .544 .530 .513 .603 .559 .483
------------------------------------------------------------------------------
See footnotes at end of table. (continued)
Market Eggs: Prices Received by Month by State 1998,
and United States, 1993-1998 1/ (continued)
------------------------------------------------------------------------------
State : Jun : Jul : Aug : Sep : Oct : Nov
------------------------------------------------------------------------------
: Dollars per Dozen
:
AL : .410 .420 .430 .450 .500 .550
AR : .390 .370 .390 .410 .500 .570
CA : .492 .425 .550 .520 .540 .610
CT : .460 .480 .560 .590 .620 .670
FL : .390 .370 .500 .440 .470 .550
GA : .449 .425 .508 .503 .541 .613
IN : .490 .470 .590 .540 .580 .660
IA : .372 .336 .398 .387 .425 .501
ME : .510 .520 .600 .640 .680 .730
MI : .410 .450 .500 .480 .520 .560
MN : .390 .400 .440 .430 .470 .510
MS : .540 .490 .560 .620 .610 .690
MO : .330 .370 .380 .370 .450 .500
NY : .520 .530 .600 .652 .616 .692
NC : .416 .387 .431 .424 .464 .518
OH : .466 .446 .517 .508 .540 .663
PA : .460 .480 .590 .540 .560 .660
SC : .403 .440 .480 .480 .536 .575
TX : .467 .460 .549 .496 .574 .643
WA : .557 .580 .580 .615 .645 .710
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : .448 .434 .516 .496 .532 .610
1997 : .449 .525 .498 .575 .531 .711
1996 : .583 .577 .626 .651 .627 .726
1995 : .436 .479 .505 .545 .544 .658
1994 : .439 .445 .470 .477 .444 .503
1993 : .517 .468 .510 .447 .491 .521
------------------------------------------------------------------------------
1/ 1994-1997 revised.
2/ December preceding year.
All Eggs: Prices Received by Month, United States, 1993-98 1/
------------------------------------------------------------------------------
Year : Dec 2/ : Jan : Feb : Mar : Apr : May
------------------------------------------------------------------------------
: Dollars per Dozen
:
1998 : .787 .743 .649 .699 .637 .549
1997 3/ : .879 .765 .761 .723 .660 .642
1996 3/ : .790 .782 .757 .791 .758 .693
1995 3/ : .620 .611 .607 .604 .608 .555
1994 3/ : .636 .623 .640 .657 .613 .587
1993 : .641 .635 .620 .696 .692 .633
:--------------------------------------------------------------------
: Jun : Jul : Aug : Sep : Oct : Nov
:--------------------------------------------------------------------
1998 : .596 .582 .650 .633 .663 .728
1997 3/ : .594 .656 .631 .696 .659 .808
1996 3/ : .707 .698 .737 .758 .735 .820
1995 3/ : .573 .609 .629 .664 .663 .757
1994 3/ : .577 .584 .603 .608 .577 .617
1993 : .663 .577 .611 .555 .600 .630
------------------------------------------------------------------------------
1/ Includes hatching and market eggs.
2/ December preceding year.
3/ Revised.
Milk, Sold to Plants, Eligible for Fluid Market 1/: Prices Received, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 16.10 16.20 16.00 15.90 15.40 15.10
AZ : 14.30 14.50 14.10 13.60 12.50 13.50
AR : 15.00 15.30 15.00 14.70 14.00 14.20
CA : 13.56 14.03 13.39 13.15 12.96 13.94
CO : 14.30 14.50 14.40 13.90 13.00 13.60
FL : 17.40 17.70 17.30 17.00 16.70 16.80
GA : 16.00 16.40 16.30 16.40 15.90 15.10
ID : 13.40 13.70 13.00 12.30 11.30 13.40
IL : 14.90 15.10 14.80 14.30 13.10 14.00
IN : 14.50 14.70 14.50 14.30 13.70 13.50
IA : 15.70 14.80 14.60 13.60 12.70 14.40
KS : 14.40 14.50 14.30 13.50 12.60 13.40
KY : 15.00 15.40 15.20 14.80 14.40 14.10
LA : 15.40 15.70 15.70 15.70 15.30 15.00
MD : 14.90 15.30 15.00 14.90 14.40 14.50
MI : 14.70 15.10 14.80 14.50 13.80 13.80
MN : 14.93 14.94 14.39 13.52 12.59 14.32
MS : 15.40 15.70 15.70 15.70 15.30 15.00
MO : 15.20 15.40 15.10 15.20 13.70 14.10
NE : 14.50 14.80 14.60 13.70 12.80 13.60
NM : 14.10 14.10 13.70 13.10 12.70 13.40
NY : 14.70 14.90 14.70 14.20 13.40 14.00
NC : 16.30 16.70 16.50 16.40 15.70 15.40
ND : 14.50 14.30 13.90 14.10 12.30 13.60
OH : 14.90 15.00 15.00 14.60 13.80 13.50
OK : 15.10 15.30 14.80 14.50 13.50 14.00
OR : 14.20 14.60 14.50 14.00 13.50 14.70
PA : 15.40 15.50 15.40 15.20 14.20 14.50
TN : 15.40 15.80 15.60 14.90 14.80 14.50
TX : 15.40 15.40 14.70 14.60 14.00 14.10
UT : 13.80 14.00 13.10 13.00 12.70 13.10
VT : 15.20 15.20 15.20 14.90 14.60 15.10
VA : 15.90 16.60 15.80 15.90 15.40 15.20
WA : 14.30 14.20 14.60 14.00 13.50 14.40
WI : 14.81 14.81 14.38 13.54 12.45 14.30
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.70 14.80 14.50 14.00 13.30 14.10
1997 : 13.50 13.50 13.60 13.20 12.80 12.30
1996 : 14.20 14.00 13.90 13.90 14.30 14.90
1995 : 12.60 12.60 12.60 12.30 12.30 12.20
1994 : 13.60 13.50 13.50 13.50 12.90 12.70
1993 : 12.60 12.30 12.20 12.70 13.00 13.10
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, Eligible for Fluid Market 1/: Prices Received, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 14.50 16.50 18.00 18.20 18.40 19.00
AZ : 13.80 15.10 16.00 16.80 16.30 15.60
AR : 13.60 15.60 17.00 17.40 17.60 18.40
CA : 14.39 15.62 16.68 18.08 17.22 17.17
CO : 13.10 15.00 16.30 17.20 17.50 18.00
FL : 15.90 18.30 20.00 20.20 20.70 21.30
GA : 13.80 16.20 17.90 18.10 18.20 19.10
ID : 14.10 14.40 15.60 16.70 17.70 17.80
IL : 13.70 14.90 15.70 16.80 17.10 18.10
IN : 12.50 14.60 16.20 16.70 16.80 17.70
IA : 14.40 15.50 16.30 17.90 17.80 17.80
KS : 12.60 14.50 16.00 16.80 17.00 17.30
KY : 12.90 15.10 16.80 17.40 17.50 18.20
LA : 14.30 16.20 17.60 17.90 18.10 18.80
MD : 13.80 15.60 17.20 17.50 17.80 17.90
MI : 13.40 14.80 16.40 17.40 17.60 17.70
MN : 15.19 15.69 16.86 18.15 18.74 18.95
MS : 14.30 16.20 17.60 17.90 18.10 18.80
MO : 13.40 15.30 16.90 17.60 17.90 18.50
NE : 14.10 15.20 16.30 17.20 17.60 18.00
NM : 13.50 15.00 16.00 16.90 17.10 17.50
NY : 14.00 15.30 16.60 17.50 17.70 18.20
NC : 14.20 16.70 18.50 18.90 19.90 19.70
ND : 14.20 14.70 16.00 17.10 17.70 18.10
OH : 13.10 15.10 16.70 17.40 17.80 18.00
OK : 13.80 15.20 16.70 17.30 17.80 18.60
OR : 15.20 15.60 17.50 17.80 17.30 17.30
PA : 13.80 15.60 17.20 18.00 18.00 18.30
TN : 13.30 15.60 17.50 17.90 17.90 18.70
TX : 13.50 15.60 17.20 17.60 17.90 18.20
UT : 13.30 14.70 16.00 16.70 17.10 17.70
VT : 14.80 15.90 17.30 17.90 17.70 18.00
VA : 14.30 16.20 16.90 18.60 18.70 18.90
WA : 14.60 15.60 17.50 17.80 17.30 17.30
WI : 15.08 15.87 16.66 18.07 18.49 18.68
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.20 15.50 16.80 17.80 17.80 18.10
1997 : 12.20 12.80 13.10 14.10 14.70 14.80
1996 : 15.50 16.00 16.60 16.40 15.30 14.40
1995 : 12.10 12.50 12.80 13.40 14.00 14.00
1994 : 12.20 12.50 12.80 13.10 13.10 12.90
1993 : 12.80 12.50 12.80 13.10 13.60 13.60
------------------------------------------------------------------------------
1/ Includes surplus fluid grade milk diverted to manufacturing.
Milk, Sold to Plants, Eligible for Fluid Market 1/: Fat Test, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Percent
:
AL : 3.75 3.70 3.62 3.59 3.57 3.63
AZ : 3.66 3.63 3.59 3.57 3.51 3.50
AR : 3.75 3.75 3.70 3.55 3.50 3.49
CA : 3.82 3.83 3.72 3.68 3.62 3.57
CO : 3.68 3.64 3.62 3.55 3.52 3.51
FL : 3.62 3.64 3.58 3.49 3.50 3.51
GA : 3.72 3.66 3.62 3.53 3.54 3.51
ID : 3.62 3.58 3.56 3.54 3.47 3.36
IL : 3.83 3.77 3.78 3.72 3.60 3.59
IN : 3.79 3.76 3.74 3.64 3.54 3.55
IA : 3.84 3.78 3.81 3.73 3.61 3.60
KS : 3.82 3.72 3.76 3.62 3.49 3.49
KY : 3.75 3.71 3.68 3.55 3.53 3.51
LA : 3.51 3.46 3.43 3.38 3.40 3.44
MD : 3.80 3.74 3.77 3.67 3.62 3.61
MI : 3.74 3.70 3.70 3.64 3.55 352
MN : 3.78 3.73 3.74 3.69 3.60 3.60
MS : 3.63 3.62 3.57 3.51 3.53 3.56
MO : 3.78 3.70 3.72 3.61 3.51 3.50
NE : 3.81 3.74 3.79 3.71 3.57 3.57
NM : 3.75 3.63 3.60 3.52 3.41 3.37
NY : 3.73 3.73 3.74 3.69 3.62 3.57
NC : 3.77 3.75 3.71 3.65 3.60 3.57
ND : 3.79 3.71 3.73 3.68 3.55 3.52
OH : 3.80 3.77 3.70 3.68 3.59 3.57
OK : 3.75 3.61 3.62 3.54 3.42 3.40
OR : 3.78 3.67 3.65 3.64 3.57 3.57
PA : 3.73 3.71 3.71 3.65 3.59 3.56
TN : 3.77 3.75 3.70 3.57 3.50 3.50
TX : 3.74 3.66 3.64 3.52 3.46 3.43
UT : 3.72 3.66 3.64 3.58 3.54 3.49
VT : 3.79 3.77 3.77 3.72 3.66 3.61
VA : 3.73 3.74 3.71 3.61 3.57 3.52
WA : 3.77 3.78 3.67 3.64 3.57 3.57
WI : 3.82 3.79 3.80 3.75 3.65 3.61
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 3.77 3.74 3.71 3.65 3.58 3.55
1997 : 3.77 3.73 3.68 3.65 3.59 3.53
1996 : 3.80 3.78 3.74 3.69 3.62 3.56
1995 : 3.76 3.72 3.69 3.65 3.60 3.53
1994 : 3.79 3.75 3.70 3.64 3.59 3.53
1993 : 3.78 3.73 3.71 3.65 3.57 3.53
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, Eligible for Fluid Market 1/: Fat Test, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Percent
:
AL : 3.61 3.64 3.65 3.67 3.76 3.71
AZ : 3.49 3.46 3.45 3.58 3.67 3.70
AR : 3.45 3.53 3.55 3.58 3.72 3.73
CA : 3.52 3.47 3.52 3.68 3.70 3.79
CO : 3.47 3.53 3.57 3.71 3.77 3.83
FL : 3.57 3.61 3.59 3.62 3.62 3.60
GA : 3.49 3.51 3.56 3.63 3.77 3.70
ID : 3.46 3.42 3.58 3.67 3.73 3.75
IL : 3.51 3.54 3.56 3.74 3.84 3.82
IN : 3.46 3.51 3.57 3.74 3.84 3.83
IA : 3.53 3.56 3.65 3.83 3.89 3.86
KS : 3.46 3.49 3.57 3.70 3.82 3.77
KY : 3.47 3.49 3.54 3.64 3.75 3.75
LA : 3.45 3.45 3.50 3.51 3.54 3.53
MD : 3.54 3.56 3.60 3.72 3.85 3.80
MI : 3.43 3.45 3.53 3.73 3.83 3.82
MN : 3.55 3.57 3.64 3.80 3.84 3.80
MS : 3.58 3.59 3.64 3.66 3.69 3.67
MO : 3.47 3.51 3.57 3.68 3.76 3.77
NE : 3.54 3.54 3.57 3.76 3.85 3.81
NM : 3.33 3.37 3.40 3.50 3.65 3.67
NY : 3.52 3.53 3.59 3.72 3.80 3.75
NC : 3.52 3.55 3.61 3.70 3.80 3.79
ND : 3.46 3.48 3.60 3.79 3.83 3.80
OH : 3.53 3.55 3.62 3.73 3.86 3.87
OK : 3.35 3.42 3.48 3.62 3.73 3.68
OR : 3.56 3.50 3.60 3.73 3.76 3.77
PA : 3.55 3.53 3.54 3.72 3.81 3.78
TN : 3.52 3.54 3.59 3.68 3.77 3.77
TX : 3.41 3.44 3.51 3.58 3.71 3.71
UT : 3.46 3.52 3.57 3.69 3.76 3.80
VT : 3.58 3.56 3.62 3.72 3.80 3.77
VA : 3.50 3.46 3.57 3.69 3.70 3.78
WA : 3.56 3.50 3.60 3.73 3.76 3.77
WI : 3.54 3.56 3.63 3.82 3.87 3.84
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 3.51 3.51 3.57 3.71 3.78 3.78
1997 : 3.51 3.52 3.58 3.70 3.79 3.80
1996 : 3.55 3.56 3.64 3.73 3.78 3.77
1995 : 3.49 3.49 3.59 3.72 3.80 3.81
1994 : 3.50 3.53 3.60 3.69 3.76 3.78
1993 : 3.51 3.52 3.60 3.72 3.79 3.79
------------------------------------------------------------------------------
1/ Includes surplus fluid grade milk diverted to manufacturing.
Milk, Sold to Plants, Manufacturing Grade: Prices Received, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
CA : 14.71 13.85 13.20 12.39 12.13 13.91
ID : 13.38 13.59 12.85 11.82 11.07 13.23
IL : 14.00 14.10 13.60 12.70 11.80 13.50
IN : 12.60 12.60 12.20 11.30 11.20 11.50
IA : 13.70 13.60 13.00 12.10 11.00 13.20
KS : 13.40 13.40 12.90 12.00 10.80 12.30
KY : 12.70 12.70 12.10 11.50 10.50 12.40
MI : 12.50 12.60 12.20 11.30 10.00 11.80
MN : 13.50 13.48 12.92 11.99 11.05 13.04
MO : 13.70 13.60 12.70 12.00 10.70 13.00
NE : 13.70 13.80 13.30 12.40 11.00 13.20
NC : 13.00 13.00 12.30 11.30 10.70 12.30
ND : 12.80 12.70 12.40 11.70 11.10 12.00
OH : 12.20 12.40 12.00 11.60 11.40 12.30
OR : 14.40 14.50 13.80 12.70 11.90 14.80
PA : 13.50 13.50 13.10 12.00 11.20 13.30
TN : 12.70 12.80 12.20 11.30 10.40 12.40
UT : 13.00 13.20 12.40 11.80 10.90 12.40
VA : 14.50 14.90 14.70 14.70 14.20 13.40
WI : 13.87 13.79 13.32 12.38 11.65 13.67
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 13.50 13.50 12.90 12.10 11.30 13.10
1997 : 12.10 12.50 12.40 11.60 10.90 10.80
1996 : 12.80 12.60 12.60 12.90 13.40 13.60
1995 : 11.40 11.70 11.70 11.20 11.00 11.10
1994 : 12.30 12.20 12.40 12.50 11.40 11.00
1993 : 11.10 10.90 11.20 12.00 12.30 11.90
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, Manufacturing Grade: Prices Received, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
CA : 15.07 15.77 16.90 18.32 18.65 19.01
ID : 14.08 14.38 15.57 17.52 18.22 18.54
IL : 14.80 15.30 15.90 17.60 18.00 18.30
IN : 12.00 14.20 13.70 14.40 15.20 15.40
IA : 14.10 14.90 15.00 15.90 16.60 16.40
KS : 13.90 14.20 14.60 16.50 16.70 17.00
KY : 12.90 14.20 14.80 15.60 15.40 16.00
MI : 14.00 14.70 14.80 16.40 17.20 17.30
MN : 14.08 14.54 15.45 16.95 17.53 17.70
MO : 14.40 15.10 15.60 16.20 17.00 16.70
NE : 14.70 14.90 15.30 17.00 17.60 17.80
NC : 13.10 14.60 15.10 16.40 17.40 17.30
ND : 12.50 13.00 13.80 15.00 15.60 16.00
OH : 13.00 13.20 14.00 14.60 15.20 15.50
OR : 14.70 14.60 15.20 18.20 19.30 19.60
PA : 14.60 14.90 15.60 16.70 17.40 17.60
TN : 12.80 14.30 14.80 15.80 16.00 16.10
UT : 13.80 14.60 15.20 16.50 17.10 17.30
VA : 12.20 14.40 16.10 16.00 15.80 15.00
WI : 14.56 15.03 15.89 17.60 18.02 17.96
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.10 14.60 15.40 16.80 17.30 17.40
1997 : 10.80 11.90 12.70 13.20 13.60 13.60
1996 : 14.00 14.60 15.30 14.60 12.40 11.80
1995 : 11.00 11.30 12.10 12.80 13.10 12.90
1994 : 11.10 11.40 11.90 12.20 12.00 11.50
1993 : 11.20 11.00 11.90 12.40 12.70 12.50
------------------------------------------------------------------------------
Milk, Sold to Plants, Manufacturing Grade: Fat Test, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Percent
:
CA : 4.22 4.16 3.99 4.00 3.94 3.87
ID : 3.86 3.75 3.70 3.64 3.58 3.53
IL : 3.88 3.83 3.85 3.76 3.62 3.60
IN : 3.86 3.83 3.81 3.69 3.53 3.52
IA : 3.93 3.83 3.86 3.77 3.66 3.59
KS : 3.95 3.80 3.86 3.68 3.58 3.46
KY : 3.88 3.82 3.74 3.63 3.58 3.58
MI : 3.82 3.76 3.79 3.73 3.55 3.46
MN : 3.83 3.78 3.78 3.72 3.59 3.56
MO : 3.98 3.84 3.84 3.62 3.57 3.63
NE : 3.94 3.84 3.90 3.76 3.51 3.54
NC : 4.05 4.04 3.90 3.84 3.78 3.83
ND : 3.82 3.75 3.76 3.68 3.53 3.53
OH : 3.85 3.84 3.83 3.75 3.69 3.58
OR : 4.50 4.35 4.28 4.26 4.08 4.12
PA : 3.88 3.83 3.93 3.93 3.86 3.65
TN : 3.90 3.86 3.74 3.64 3.59 3.59
UT : 3.85 3.77 3.73 3.69 3.60 3.56
VA : 4.05 4.16 4.21 4.04 3.90 3.92
WI : 3.91 3.87 3.89 3.84 3.72 3.67
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 391 3.86 3.85 3.78 3.67 3.63
1997 : 3.93 3.87 3.84 3.79 3.72 3.60
1996 : 3.93 3.88 3.85 3.78 3.74 3.63
1995 : 3.88 3.83 3.80 3.76 3.71 3.60
1994 : 3.93 3.87 3.81 3.75 3.66 3.57
1993 : 3.89 3.83 3.82 3.76 3.68 3.63
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, Manufacturing Grade: Fat Test, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Percent
:
CA : 3.84 3.84 3.94 4.05 4.13 4.28
ID : 3.47 3.50 3.73 3.88 3.89 3.93
IL : 3.48 3.50 3.57 3.73 3.77 3.76
IN : 3.44 3.54 3.61 3.79 3.95 3.98
IA : 3.51 3.54 3.67 3.89 4.02 3.95
KS : 3.42 3.49 3.54 3.77 3.89 3.90
KY : 3.55 3.60 3.78 3.93 3.87 3.95
MI : 3.45 3.48 3.52 3.75 3.90 3.85
MN : 3.51 3.53 3.63 3.86 3.91 3.80
MO : 3.59 3.63 3.73 3.83 3.94 3.94
NE : 3.45 3.48 3.56 3.82 3.94 3.89
NC : 3.64 3.92 3.92 4.16 4.18 4.00
ND : 3.49 3.51 3.62 3.83 3.90 3.88
OH : 3.60 3.62 3.69 3.81 3.87 3.94
OR : 3.89 3.80 4.01 4.34 4.16 4.40
PA : 3.57 3.53 3.61 3.66 3.84 3.86
TN : 3.57 3.59 3.77 3.93 3.96 3.95
UT : 3.47 3.52 3.67 3.81 3.84 3.84
VA : 3.79 3.80 3.97 3.95 3.97 4.24
WI : 3.58 3.62 3.71 3.95 4.01 3.96
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 3.56 3.59 3.69 3.89 3.96 3.93
1997 : 3.58 3.62 3.73 3.86 3.98 3.96
1996 : 3.57 3.59 3.71 3.85 3.95 3.94
1995 : 3.56 3.57 3.70 3.87 3.94 3.94
1994 : 3.57 3.61 3.73 3.86 3.93 3.95
1993 : 3.60 3.60 3.74 3.88 3.96 3.94
------------------------------------------------------------------------------
Milk, Sold to Plants, All: Prices Received, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 16.10 16.20 16.00 15.90 15.40 15.10
AZ : 14.30 14.50 14.10 13.60 12.50 13.50
AR : 15.00 15.30 15.00 14.70 14.00 14.20
CA : 13.58 14.03 13.39 13.14 12.95 13.94
CO : 14.30 14.50 14.40 13.90 13.00 13.60
FL : 17.40 17.70 17.30 17.00 16.70 16.80
GA : 16.00 16.40 16.30 16.40 15.90 15.10
ID : 13.40 13.70 13.00 12.30 11.30 13.40
IL : 14.90 15.10 14.70 14.20 13.10 13.90
IN : 14.40 14.60 14.40 14.10 13.50 13.40
IA : 15.60 14.70 14.50 13.50 12.60 14.30
KS : 14.40 14.50 14.30 13.50 12.50 13.40
KY : 15.00 15.30 15.10 14.70 14.30 14.10
LA : 15.40 15.70 15.70 15.70 15.30 15.00
MD : 14.90 15.30 15.00 14.90 14.40 14.50
MI : 14.70 15.10 14.80 14.50 13.80 13.80
MN : 14.83 14.84 14.28 13.41 12.47 14.22
MS : 15.40 15.70 15.70 15.70 15.30 15.00
MO : 15.10 15.30 15.00 15.00 13.60 14.00
NE : 14.40 14.70 14.50 13.60 12.70 13.60
NM : 14.10 14.10 13.70 13.10 12.70 13.40
NY : 14.70 14.90 14.70 14.20 13.40 14.00
NC : 16.30 16.70 16.50 16.30 15.70 15.40
ND : 13.90 13.80 13.40 13.10 11.90 13.00
OH : 14.70 14.80 14.80 14.40 13.60 13.40
OK : 15.10 15.30 14.80 14.50 13.50 14.00
OR : 14.20 14.60 14.50 14.00 13.50 14.70
PA : 15.30 15.50 15.40 15.20 14.10 14.40
TN : 15.40 15.80 15.60 14.90 14.70 14.50
TX : 15.40 15.40 14.70 14.60 14.00 14.10
UT : 13.80 14.00 13.10 12.90 12.50 13.10
VT : 15.20 15.20 15.20 14.90 14.60 15.10
VA : 15.90 16.60 15.80 15.90 15.40 15.20
WA : 14.30 14.20 14.60 14.00 13.50 14.40
WI : 14.75 14.75 14.31 13.47 12.40 14.26
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.60 14.80 14.40 14.00 13.30 14.10
1997 : 13.50 13.40 13.60 13.20 12.70 12.20
1996 : 14.10 13.90 13.80 13.90 14.30 14.80
1995 : 12.60 12.50 12.60 12.30 12.30 12.10
1994 : 13.60 13.40 13.50 13.40 12.80 12.60
1993 : 12.50 12.20 12.20 12.60 12.90 13.00
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, All: Prices Received, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 14.50 16.50 18.00 18.20 18.40 19.00
AZ : 13.80 15.10 16.00 16.80 16.30 15.60
AR : 13.60 15.60 17.00 17.40 17.60 18.40
CA : 14.40 15.62 16.68 18.08 17.24 17.19
CO : 13.10 15.00 16.30 17.20 17.50 18.00
FL : 15.90 18.30 20.00 20.20 20.70 21.30
GA : 13.80 16.20 17.90 18.10 18.20 19.10
ID : 14.10 14.40 15.60 16.70 17.70 17.80
IL : 13.70 14.90 15.70 16.80 17.10 18.10
IN : 12.40 14.60 16.10 16.60 16.70 17.60
IA : 14.40 15.40 16.20 17.80 17.70 17.70
KS : 12.60 14.50 16.00 16.80 17.00 17.30
KY : 12.90 15.10 16.80 17.40 17.50 18.20
LA : 14.30 16.20 17.60 17.90 18.10 18.80
MD : 13.80 15.60 17.20 17.50 17.80 17.90
MI : 13.40 14.80 16.40 17.40 17.60 17.70
MN : 15.11 15.61 16.76 18.07 18.66 18.86
MS : 14.30 16.20 17.60 17.90 18.10 18.80
MO : 13.50 15.30 16.80 17.50 17.90 18.40
NE : 14.10 15.20 16.20 17.20 17.60 18.00
NM : 13.50 15.00 16.00 16.90 17.10 17.50
NY : 14.00 15.30 16.60 17.50 17.70 18.20
NC : 14.20 16.70 18.50 18.90 19.90 19.70
ND : 13.60 14.10 15.20 16.40 17.00 17.40
OH : 13.10 14.90 16.50 17.20 17.60 17.80
OK : 13.80 15.20 16.70 17.30 17.80 18.60
OR : 15.20 15.60 17.50 17.80 17.30 17.30
PA : 13.80 15.60 17.10 18.00 18.00 18.30
TN : 13.30 15.60 17.50 17.90 17.90 18.70
TX : 13.50 15.60 17.20 17.60 17.90 18.20
UT : 13.30 14.60 15.90 16.70 17.10 17.60
VT : 14.80 15.90 17.30 17.90 17.70 18.00
VA : 14.30 16.20 16.90 18.60 18.70 15.80
WA : 14.60 15.60 17.50 17.80 17.30 17.30
WI : 15.05 15.81 16.61 18.04 18.46 18.64
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.20 15.50 16.70 17.70 17.80 18.00
1997 : 12.10 12.70 13.10 14.10 14.70 14.80
1996 : 15.40 15.90 16.50 16.40 15.20 14.30
1995 : 12.00 12.40 12.80 13.40 14.00 13.90
1994 : 12.20 12.40 12.80 13.00 13.10 12.80
1993 : 12.80 12.40 12.80 13.10 13.60 13.50
------------------------------------------------------------------------------
Milk, Sold to Plants, All: Fat Test, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Percent
:
AL : 3.75 3.70 3.62 3.59 3.57 3.63
AZ : 3.66 3.63 3.59 3.57 3.51 3.50
AR : 3.75 3.75 3.70 3.55 3.50 3.49
CA : 3.83 3.84 3.72 3.69 3.63 3.58
CO : 3.68 3.64 3.62 3.55 3.52 3.51
FL : 3.62 3.64 3.58 3.49 3.50 3.51
GA : 3.72 3.66 3.62 3.53 3.54 3.51
ID : 3.63 3.59 3.57 3.54 3.47 3.37
IL : 3.83 3.77 3.78 3.72 3.60 3.59
IN : 3.79 3.76 374 3.64 3.54 3.54
IA : 3.84 3.79 3.81 3.74 3.62 3.60
KS : 3.82 3.74 3.76 3.62 3.49 3.49
KY : 3.75 3.71 3.68 3.55 3.53 3.51
LA : 3.51 3.46 3.43 3.38 3.40 3.44
MD : 3.80 3.74 3.77 3.67 3.62 3.61
MI : 3.74 3.70 3.70 3.64 3.55 3.52
MN : 3.78 3.73 3.74 3.69 3.60 3.60
MS : 3.63 3.62 3.57 3.51 3.53 3.56
MO : 3.79 3.71 3.73 3.61 3.51 3.51
NE : 3.82 3.75 3.80 3.71 3.57 3.57
NM : 3.75 3.63 3.60 6.80
GA : 16.00 16.40 16.30 16.40 15.90 15.10
ID : 13.40 13.70 13.00 12.30 11.30 13.40
IL : 14.90 15.10 14.70 14.20 13.10 13.90
IN : 14.40 14.60 14.40 14.10 13.50 13.40
IA : 15.60 14.70 14.50 13.50 12.60 14.30
KS : 14.40 14.50 14.30 13.50 12.50 13.40
KY : 15.00 15.30 15.10 14.70 14.30 14.10
LA : 15.40 15.70 15.70 15.70 15.30 15.00
MD : 14.90 15.30 15.00 14.90 14.40 14.50
MI : 14.70 15.10 14.80 14.50 13.80 13.80
MN : 14.83 14.84 14.28 13.41 12.47 14.22
MS : 15.40 15.70 15.70 15.70 15.30 15.00
MO : 15.10 15.30 15.00 15.00 13.60 14.00
NE : 14.40 14.70 14.50 13.60 12.70 13.60
NM : 14.10 14.10 13.70 13.10 12.70 13.40
NY : 14.70 14.90 14.70 14.20 13.40 14.00
NC : 16.30 16.70 16.50 16.30 15.70 15.40
ND : 13.90 13.80 13.40 13.10 11.90 13.00
OH : 14.70 14.80 14.80 14.40 13.60 13.40
OK : 15.10 15.30 14.80 14.50 13.50 14.00
OR : 14.20 14.60 14.50 14.00 13.50 14.70
PA : 15.30 15.50 15.40 15.20 14.10 14.40
TN : 15.40 15.80 15.60 14.90 14.70 14.50
TX : 15.40 15.40 14.70 14.60 14.00 14.10
UT : 13.80 14.00 13.10 12.90 12.50 13.10
VT : 15.20 15.20 15.20 14.90 14.60 15.10
VA : 15.90 16.60 15.80 15.90 15.40 15.20
WA : 14.30 14.20 14.60 14.00 13.50 14.40
WI : 14.75 14.75 14.31 13.47 12.40 14.26
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.60 14.80 14.40 14.00 13.30 14.10
1997 : 13.50 13.40 13.60 13.20 12.70 12.20
1996 : 14.10 13.90 13.80 13.90 14.30 14.80
1995 : 12.60 12.50 12.60 12.30 12.30 12.10
1994 : 13.60 13.40 13.50 13.40 12.80 12.60
1993 : 12.50 12.20 12.20 12.60 12.90 13.00
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, All: Prices Received, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Dollars per Cwt
:
AL : 14.50 16.50 18.00 18.20 18.40 19.00
AZ : 13.80 15.10 16.00 16.80 16.30 15.60
AR : 13.60 15.60 17.00 17.40 17.60 18.40
CA : 14.40 15.62 16.68 18.08 17.24 17.19
CO : 13.10 15.00 16.30 17.20 17.50 18.00
FL : 15.90 18.30 20.00 20.20 20.70 21.30
GA : 13.80 16.20 17.90 18.10 18.20 19.10
ID : 14.10 14.40 15.60 16.70 17.70 17.80
IL : 13.70 14.90 15.70 16.80 17.10 18.10
IN : 12.40 14.60 16.10 16.60 16.70 17.60
IA : 14.40 15.40 16.20 17.80 17.70 17.70
KS : 12.60 14.50 16.00 16.80 17.00 17.30
KY : 12.90 15.10 16.80 17.40 17.50 18.20
LA : 14.30 16.20 17.60 17.90 18.10 18.80
MD : 13.80 15.60 17.20 17.50 17.80 17.90
MI : 13.40 14.80 16.40 17.40 17.60 17.70
MN : 15.11 15.61 16.76 18.07 18.66 18.86
MS : 14.30 16.20 17.60 17.90 18.10 18.80
MO : 13.50 15.30 16.80 17.50 17.90 18.40
NE : 14.10 15.20 16.20 17.20 17.60 18.00
NM : 13.50 15.00 16.00 16.90 17.10 17.50
NY : 14.00 15.30 16.60 17.50 17.70 18.20
NC : 14.20 16.70 18.50 18.90 19.90 19.70
ND : 13.60 14.10 15.20 16.40 17.00 17.40
OH : 13.10 14.90 16.50 17.20 17.60 17.80
OK : 13.80 15.20 16.70 17.30 17.80 18.60
OR : 15.20 15.60 17.50 17.80 17.30 17.30
PA : 13.80 15.60 17.10 18.00 18.00 18.30
TN : 13.30 15.60 17.50 17.90 17.90 18.70
TX : 13.50 15.60 17.20 17.60 17.90 18.20
UT : 13.30 14.60 15.90 16.70 17.10 17.60
VT : 14.80 15.90 17.30 17.90 17.70 18.00
VA : 14.30 16.20 16.90 18.60 18.70 15.80
WA : 14.60 15.60 17.50 17.80 17.30 17.30
WI : 15.05 15.81 16.61 18.04 18.46 18.64
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 14.20 15.50 16.70 17.70 17.80 18.00
1997 : 12.10 12.70 13.10 14.10 14.70 14.80
1996 : 15.40 15.90 16.50 16.40 15.20 14.30
1995 : 12.00 12.40 12.80 13.40 14.00 13.90
1994 : 12.20 12.40 12.80 13.00 13.10 12.80
1993 : 12.80 12.40 12.80 13.10 13.60 13.50
------------------------------------------------------------------------------
Milk, Sold to Plants, All: Fat Test, Monthly,
by States, 1998; United States, 1993-98
------------------------------------------------------------------------------
: : : : : :
State : Jan : Feb : Mar : Apr : May : Jun
: : : : : :
------------------------------------------------------------------------------
: Percent
:
AL : 3.75 3.70 3.62 3.59 3.57 3.63
AZ : 3.66 3.63 3.59 3.57 3.51 3.50
AR : 3.75 3.75 3.70 3.55 3.50 3.49
CA : 3.83 3.84 3.72 3.69 3.63 3.58
CO : 3.68 3.64 3.62 3.55 3.52 3.51
FL : 3.62 3.64 3.58 3.49 3.50 3.51
GA : 3.72 3.66 3.62 3.53 3.54 3.51
ID : 3.63 3.59 3.57 3.54 3.47 3.37
IL : 3.83 3.77 3.78 3.72 3.60 3.59
IN : 3.79 3.76 374 3.64 3.54 3.54
IA : 3.84 3.79 3.81 3.74 3.62 3.60
KS : 3.82 3.74 3.76 3.62 3.49 3.49
KY : 3.75 3.71 3.68 3.55 3.53 3.51
LA : 3.51 3.46 3.43 3.38 3.40 3.44
MD : 3.80 3.74 3.77 3.67 3.62 3.61
MI : 3.74 3.70 3.70 3.64 3.55 3.52
MN : 3.78 3.73 3.74 3.69 3.60 3.60
MS : 3.63 3.62 3.57 3.51 3.53 3.56
MO : 3.79 3.71 3.73 3.61 3.51 3.51
NE : 3.82 3.75 3.80 3.71 3.57 3.57
NM : 3.75 3.63 3.60 3.52 3.41 3.37
NY : 3.73 3.73 3.74 3.69 3.62 3.57
NC : 3.77 3.75 3.71 3.65 3.60 3.57
ND : 3.80 3.73 3.74 3.68 3.54 3.53
OH : 3.80 3.78 3.71 3.69 3.60 3.57
OK : 3.75 3.61 3.62 3.54 3.42 3.40
OR : 3.79 3.68 3.66 3.65 3.56 3.57
PA : 3.73 3.72 3.71 3.65 3.60 3.56
TN : 3.77 3.75 3.70 3.57 3.50 3.50
TX : 3.74 3.66 3.64 3.52 3.46 3.43
UT : 3.74 3.67 3.65 359 3.55 3.50
VT : 3.79 3.77 3.77 3.72 3.66 3.61
VA : 3.74 3.75 3.72 3.62 3.57 3.53
WA : 3.77 3.78 3.67 3.64 3.57 3.57
WI : 3.82 3.79 3.80 3.76 3.66 3.62
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 3.77 3.74 3.71 3.66 3.58 3.55
1997 : 3.79 3.74 3.70 3.66 3.61 3.55
1996 : 3.80 3.78 3.74 3.69 3.62 3.57
1995 : 3.77 3.72 3.70 3.65 3.61 3.54
1994 : 3.80 3.76 3.70 3.64 3.59 3.53
1993 : 3.79 3.74 3.71 3.65 3.58 3.54
------------------------------------------------------------------------------
continued
Milk, Sold to Plants, All: Fat Test, Monthly,
by States, 1998; United States, 1993-98, continued
------------------------------------------------------------------------------
: : : : : :
State : Jul : Aug : Sep : Oct : Nov : Dec
: : : : : :
------------------------------------------------------------------------------
: Percent
:
AL : 3.61 3.64 3.65 3.67 3.76 3.71
AZ : 3.49 3.46 3.45 3.58 3.67 3.70
AR : 3.45 3.53 3.55 3.58 3.72 3.73
CA : 3.53 3.48 3.53 3.68 3.70 3.80
CO : 3.47 3.53 3.57 3.71 3.77 3.83
FL : 3.57 3.61 3.59 3.62 3.62 3.60
GA : 3.49 3.51 3.56 3.63 3.77 3.70
ID : 3.46 3.42 3.58 3.68 3.73 3.76
IL : 3.51 3.54 3.56 3.74 3.84 3.82
IN : 3.46 3.51 3.57 3.74 3.85 3.84
IA : 3.53 3.56 3.65 3.84 3.90 3.87
KS : 3.46 3.49 3.57 3.70 3.82 3.77
KY : 3.47 3.49 3.54 3.65 3.75 3.75
LA : 3.45 3.45 3.50 3.51 3.54 3.53
MD : 3.54 3.56 3.60 3.72 3.85 3.80
MI : 3.43 3.45 3.53 3.73 3.83 3.82
MN : 3.55 3.57 3.64 3.80 3.84 3.80
MS : 3.58 3.59 3.64 3.66 3.69 3.67
MO : 3.48 3.52 3.58 3.69 3.77 3.77
NE : 3.53 3.54 3.57 3.76 3.85 3.81
NM : 3.33 3.37 3.40 3.50 3.65 3.67
NY : 3.52 3.53 3.59 3.72 3.80 3.75
NC : 3.52 3.55 3.61 3.70 3.80 3.79
ND : 3.47 3.49 3.60 3.81 3.85 3.83
OH : 3.53 3.56 3.62 3.73 3.86 3.87
OK : 3.35 3.42 3.48 3.62 3.73 3.68
OR : 3.56 3.50 3.60 3.74 3.76 3.78
PA : 3.56 3.53 3.54 3.72 3.81 3.78
TN : 3.52 3.54 3.59 3.68 3.77 3.77
TX : 3.41 3.44 3.51 3.58 3.71 3.71
UT : 3.46 3.52 3.58 3.70 3.77 3.80
VT : 3.58 3.56 3.62 3.72 3.80 3.77
VA : 3.50 3.47 3.57 3.69 3.70 3.78
WA : 3.56 3.50 3.60 3.73 3.76 3.77
WI : 3.54 3.57 3.63 3.83 3.88 3.85
------------------------------------------------------------------------------
Year : United States
------------------------------------------------------------------------------
1998 : 3.51 3.51 3.57 3.72 3.78 3.79
1997 : 3.52 3.54 3.60 3.71 3.80 3.82
1996 : 3.55 3.56 3.64 3.74 3.78 3.78
1995 : 3.49 3.50 3.60 3.72 3.80 3.81
1994 : 3.50 3.53 3.61 3.70 3.77 3.79
1993 : 3.51 3.52 3.61 3.72 3.80 3.80
------------------------------------------------------------------------------
Annual Summary of Prices Paid
Agricultural Inputs: The Index of Prices Paid by Farmers measures changes in
the prices paid for goods and services used in crop and
livestock production and family living. The index is made up of 5 major
components. In terms of total farm expenditures, the production component
accounts for over 67 percent of the total and the family living component
represented by the Bureau of Labor Statistics' Consumer Price Index (CPI-U)
accounts for less than 18 percent of the index. The remaining three components
are: (1) interest charges per acre on farm real estate debt and interest on
farm non-real estate debt; (2) taxes payable per acre on farm real estate; and
(3) wage rates paid to hired farm labor. Prices Paid Indexes are not seasonally
adjusted and there are no adjustments for quality changes.
The 1910-14=100 base is required under the Agricultural Adjustment Act of 1938,
as amended. The Index of Prices Paid by Farmers for Commodities and Services,
Interest, Taxes, and Farm Wage Rates on the 1910-14=100 base is called the
Parity Index. The Parity Index reflects relative price change but does not take
into account the technological advancements and increased productivity of
American agriculture. Federal regulations require that the National Agricul
tural Statistics Service publish parity prices, the indexes, and relevant price
data monthly in "Agricultural Prices".
In 1995, the National Agricultural Statistics Service reweighted and recon
structed the prices paid and received by farmers indexes. The indexes are now
based on 5-year moving average weights. The changes in the construction of the
indexes simplifies updating component items and reference periods while main
taining appropriate weights. The overall changes to the weighting and construc
tion of the indexes did not have a significant effect on the index levels, and
therefore, had little effect on the level of parity prices. Indexes are newly
published on a 1990-92=100 base using a 1990-92 reference period. As mentioned
above, the 1910-14=100 base is continued for the parity index.
Beginning 1995, the Prices Paid Survey of items purchased by farm establishments
is conducted annually in April. Surveys are conducted for feed, livestock
purchases, seed, fertilizer, ag chemicals, fuel, and farm machinery. The Bureau
of Labor Statistics, (BLS) indexes measure price changes and replace survey
activity for farm supplies and repairs, autos and trucks, building materials,
and marketing containers. The BLS indexes are used monthly to measure price
change when no survey data are collected. Before 1995, quarterly prices paid
surveys were conducted by NASS. About 135 selected items are priced to repre
sent groups of similar items purchased which make up the major production
expenditures categories. The number of input items consumed on farms is so
extensive that it is not feasible to collect price data for all of the inputs.
Items on the questionnaire are described in the simplest way consistent with
definite identification. Firms are requested to report the prices for the item
most commonly sold which meets the general specification criteria. Reported
data are summarized to regional estimates and then weighted to U.S. prices.
Weights are based on available consumption or expenditure information. Average
prices including state and local taxes are used in computing the indexes and are
published in Agricultural Prices in the same month as the survey. Regional
prices are published for feed, fuel, and fertilizer. U.S. prices are published
for the remaining items surveyed.
Revisions: Indexes are recomputed monthly to reflect the most recent price
changes and include any updated prices or indexes. Prices Paid
Indexes including all components and subcomponents are subject to annual
revisions as additional data become available. In April, index revisions
published reflect yearly change for items surveyed annually by the Prices Paid
Survey and adjusted BLS indexes used for the one month time lag between the
reporting and summary date. Annual revisions generally are made in the taxes,
interest, and rent, and farm services components of the index.
Parity Ratio: The Parity Ratio is the ratio of the Prices Received Index,
1910-14=100, to the Index of Prices Paid by Farmers for Commodi
ties and Services, Interest, Taxes, and Wage Rates on a 1910-14=100 base. The
Parity Ratio is a measure of price relationships; not a measure of farm income,
of farmer's total purchasing power, or of farmer's welfare. The well-being of
the farm community depends upon a number of factors other than price relation
ships such as changes in production efficiency and technology, quantities of
farm products sold, and supplementary income, including income from off-farm
jobs, and federal farm programs.
Ratio: The ratio of the Prices Received Index to the Prices Paid Index on the
1990-92 base provides an indication of the change that has occurred in
the prices farmers receive for their commodities relative to the change in the
cost of inputs using the average of 1990-92 as the reference period. When this
ratio is greater than 100 percent, it implies that farm commodity prices have
increased at a faster rate than farm input prices. When the ratio is less than
100 percent, farm input prices are increasing at a more rapid pace than farm
commodity prices.
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Commodities and Services, Interest, Taxes, and Wage Rates
: (PPITW)
:
: 1910-14 = 100
:
1991 :1346 1339 1320 1331 1334
1992 :1345 1346 1349 1350 1348
1993 :1369 1384 1381 1391 1381
1994 :1416 1427 1413 1409 1416
1995 :1444 1443 1446 1447 1447 1451 1453 1454 1457 1462 1467 1479 1454
1996 :1507 1508 1515 1528 1539 1538 1540 1543 1545 1538 1535 1537 1531
1997 :1559 1564 1571 1577 1583 1578 1572 1574 1582 1579 1582 1581 1575
1998 :1582 1579 1569 1565 1563 1557 1550 1541 1529 1540 1542 1538 1555
:
: 1990-92 = 100
:
1991 : 101 101 99 100 100
1992 : 101 101 101 101 101
1993 : 103 104 104 104 104
1994 : 106 107 106 106 106
1995 : 108 108 109 109 109 109 109 109 109 110 110 111 109
1996 : 113 113 114 115 116 115 116 116 116 115 115 115 115
1997 : 117 117 118 118 119 119 118 118 119 119 119 119 118
1998 : 119 119 118 118 117 117 116 116 115 116 116 116 117
:
: Items Used for Production, Interest, Taxes, and Wage Rates
: (PITW)
:
: 1910-14 = 100
:
1991 :1366 1353 1329 1339 1347
1992 :1355 1351 1353 1352 1353
1993 :1372 1388 1383 1392 1384
1994 :1423 1434 1414 1407 1419
1995 :1448 1445 1448 1448 1447 1451 1454 1454 1457 1462 1469 1484 1456
1996 :1516 1516 1524 1537 1551 1549 1552 1554 1556 1546 1541 1544 1540
1997 :1570 1575 1583 1589 1597 1591 1583 1584 1593 1589 1593 1592 1586
1998 :1592 1588 1576 1570 1567 1559 1550 1539 1524 1536 1538 1534 1556
:
: 1990-92 = 100
:
1991 : 102 101 99 100 100
1992 : 101 101 101 101 101
1993 : 102 103 103 104 103
1994 : 106 107 105 105 106
1995 : 108 108 108 108 108 108 108 108 108 109 109 110 108
1996 : 113 113 113 114 115 115 115 116 116 115 115 115 115
1997 : 117 117 118 118 119 118 118 118 119 118 119 118 118
1998 : 119 118 117 117 117 116 115 115 113 114 115 114 116
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Items Used for Production
:
: 1910-14 = 100
:
1991 : 987 978 961 964 973
1992 : 976 978 983 978 979
1993 : 993 1008 1009 1013 1006
1994 :1030 1042 1028 1018 1030
1995 :1042 1040 1042 1047 1046 1050 1047 1047 1050 1057 1063 1077 1051
1996 :1094 1095 1102 1116 1128 1127 1132 1135 1136 1120 1116 1118 1118
1997 :1135 1140 1146 1155 1162 1156 1152 1153 1161 1150 1154 1152 1151
1998 :1144 1140 1129 1126 1123 1116 1113 1103 1090 1094 1096 1093 1114
:
: 1990-92 = 100
:
1991 : 101 101 99 99 100
1992 : 100 101 101 101 101
1993 : 102 104 104 104 104
1994 : 106 107 106 105 106
1995 : 107 107 107 108 108 108 108 108 108 109 110 111 108
1996 : 113 113 114 115 116 116 117 117 117 115 115 115 115
1997 : 117 117 118 119 120 119 119 119 120 119 119 119 119
1998 : 118 117 116 116 116 115 115 114 112 113 113 113 115
:
: Feed
:
: 1910-14 = 100
:
1991 : 481 491 468 480 480
1992 : 488 493 486 471 485
1993 : 487 488 504 508 497
1994 : 547 536 508 481 518
1995 : 472 466 475 488 483 484 493 501 508 528 552 579 502
1996 : 593 599 609 638 673 670 683 678 660 604 583 584 631
1997 : 587 592 617 622 636 621 598 605 625 604 616 621 612
1998 : 599 593 576 554 546 535 542 518 496 489 502 507 538
:
: 1990-92 = 100
:
1991 : 98 101 96 98 98
1992 : 100 101 100 96 99
1993 : 100 100 103 104 102
1994 : 112 110 104 99 106
1995 : 97 95 97 100 99 99 101 103 104 108 113 119 103
1996 : 121 123 125 131 138 137 140 139 135 124 119 120 129
1997 : 120 121 126 127 130 127 122 124 128 124 126 127 125
1998 : 123 122 118 113 112 110 111 106 102 100 103 104 110
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Livestock and Poultry
:
: 1910-14 = 100
:
1991 :1320 1374 1305 1232 1308
1992 :1201 1211 1232 1249 1223
1993 :1316 1360 1321 1313 1327
1994 :1276 1274 1167 1111 1207
1995 :1169 1124 1073 1050 1025 1054 1029 1021 1016 1016 983 1005 1047
1996 : 939 929 917 877 889 930 956 990 1019 1009 1044 1047 962
1997 :1092 1136 1144 1205 1226 1220 1282 1242 1231 1209 1198 1218 1200
1998 :1199 1209 1169 1202 1172 1124 1062 1067 1019 1094 1100 1092 1126
:
: 1990-92 = 100
:
1991 : 103 107 102 96 102
1992 : 94 95 96 98 96
1993 : 103 106 103 103 104
1994 : 100 100 91 87 94
1995 : 91 88 84 82 80 83 80 80 79 80 77 79 82
1996 : 73 73 72 69 70 73 75 77 80 79 82 82 75
1997 : 85 89 89 94 96 95 100 97 96 95 94 95 94
1998 : 94 95 91 94 92 88 83 83 80 86 86 85 88
:
: Seeds
:
: 1910-14 = 100
:
1991 : 996 978 978 978 983
1992 : 978 975 975 975 976
1993 : 975 1011 1011 1011 1002
1994 :1011 1092 1092 1092 1071
1995 :1092 1092 1092 1087 1087 1087 1087 1087 1087 1087 1087 1087 1088
1996 :1087 1087 1087 1161 1161 1161 1161 1161 1161 1161 1161 1161 1142
1997 :1161 1161 1161 1186 1186 1186 1186 1186 1186 1186 1186 1186 1179
1998 :1186 1186 1186 1216 1216 1216 1216 1216 1216 1216 1216 1216 1208
:
: 1990-92 = 100
:
1991 : 101 99 99 99 99
1992 : 99 99 99 99 99
1993 : 99 102 102 102 101
1994 : 102 110 110 110 108
1995 : 110 110 110 110 110 110 110 110 110 110 110 110 110
1996 : 110 110 110 117 117 117 117 117 117 117 117 117 115
1997 : 117 117 117 120 120 120 120 120 120 120 120 120 119
1998 : 120 120 120 123 123 123 123 123 123 123 123 123 122
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Fertilizer
:
: 1910-14 = 100
:
1991 : 383 379 369 374 376
1992 : 371 368 368 356 366
1993 : 359 355 349 346 352
1994 : 364 385 393 404 387
1995 : 420 432 442 462 462 459 448 435 434 436 445 452 444
1996 : 466 471 478 476 468 457 444 440 441 448 449 455 458
1997 : 455 457 457 455 453 446 439 438 437 432 429 423 443
1998 : 426 422 423 416 420 419 416 410 403 401 396 391 412
:
: 1990-92 = 100
:
1991 : 104 103 101 102 103
1992 : 101 100 100 97 100
1993 : 98 97 95 94 96
1994 : 99 105 107 110 105
1995 : 115 118 121 126 126 125 122 119 118 119 121 123 121
1996 : 127 128 130 130 128 125 121 120 120 122 123 124 125
1997 : 124 125 125 124 124 122 120 120 119 118 117 115 121
1998 : 116 115 115 114 115 114 113 112 110 109 108 107 112
:
: Agricultural Chemicals
:
: 1910-14 = 100
:
1991 : 609 631 629 628 624
1992 : 624 642 644 640 638
1993 : 660 672 675 682 672
1994 : 693 693 693 702 695
1995 : 707 713 711 711 712 715 717 719 722 723 725 728 717
1996 : 734 736 738 736 731 731 726 733 743 741 741 742 736
1997 : 744 730 732 740 746 745 743 743 749 754 759 760 745
1998 : 763 760 760 755 755 757 754 760 738 747 745 746 753
:
: 1990-92 = 100
:
1991 : 99 102 102 102 101
1992 : 101 104 104 104 103
1993 : 107 109 109 110 109
1994 : 112 112 112 114 112
1995 : 114 115 115 115 115 116 116 116 117 117 117 118 116
1996 : 119 119 119 119 118 118 117 119 120 120 120 120 119
1997 : 120 118 118 120 121 120 120 120 121 122 123 123 121
1998 : 123 123 123 122 122 122 122 123 119 121 120 121 122
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Fuels
:
: 1910-14 = 100
:
1991 :1014 734 706 753 802
1992 : 732 709 759 758 740
1993 : 678 748 699 743 717
1994 : 602 696 711 745 689
1995 : 714 714 729 709 729 708 662 663 674 662 651 662 690
1996 : 693 670 708 813 821 752 757 766 832 880 884 896 789
1997 : 887 870 808 799 785 775 750 809 825 840 848 790 816
1998 : 733 700 657 686 717 686 675 658 687 698 687 606 682
:
: 1990-92 = 100
:
1991 : 132 95 92 98 104
1992 : 95 92 98 98 96
1993 : 88 97 91 96 93
1994 : 78 90 92 97 89
1995 : 93 92 94 92 94 92 86 86 87 86 84 86 89
1996 : 90 87 92 105 106 97 98 99 108 114 115 116 102
1997 : 115 113 105 104 102 100 97 105 107 109 110 102 106
1998 : 95 91 85 89 93 89 87 85 89 90 89 79 88
:
: Farm Supplies and Repairs
:
: 1910-14 = 100
:
1991 : 700 700 721 729 713
1992 : 723 725 747 749 736
1993 : 745 757 760 765 757
1994 : 762 778 783 782 776
1995 : 787 790 792 795 798 798 800 800 800 805 805 806 798
1996 : 810 811 813 817 814 815 814 817 817 819 820 820 816
1997 : 825 829 831 834 837 836 839 837 838 837 839 838 835
1998 : 838 839 840 845 844 846 848 848 851 855 851 850 846
:
: 1990-92 = 100
:
1991 : 99 99 102 103 100
1992 : 102 102 105 106 104
1993 : 105 107 107 108 107
1994 : 107 110 110 110 109
1995 : 111 111 112 112 112 112 113 113 113 113 113 114 112
1996 : 114 114 115 115 115 115 115 115 115 115 116 116 115
1997 : 116 117 117 117 118 118 118 118 118 118 118 118 118
1998 : 118 118 118 119 119 119 119 120 120 120 120 120 119
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Autos and Trucks
:
: 1910-14 = 100
:
1991 :2625 2651 2658 2653 2647
1992 :2695 2720 2750 2729 2724
1993 :2800 2828 2835 2870 2833
1994 :2922 2948 2967 2993 2958
1995 :3025 3031 3035 3045 3050 3051 3045 3041 3055 3077 3085 3100 3053
1996 :3114 3118 3111 3120 3119 3120 3115 3109 3117 3135 3166 3166 3126
1997 :3176 3188 3186 3180 3164 3154 3148 3135 3134 3152 3158 3160 3161
1998 :3169 3170 3170 3171 3147 3125 3133 3138 3133 3133 3160 3173 3152
:
: 1990-92 = 100
:
1991 : 99 100 100 100 100
1992 : 101 102 103 103 102
1993 : 105 106 107 108 107
1994 : 110 111 112 113 111
1995 : 114 114 114 114 115 115 115 114 115 116 116 117 115
1996 : 117 117 117 117 117 117 117 117 117 118 119 119 118
1997 : 119 120 120 120 119 119 118 118 118 119 119 119 119
1998 : 119 119 119 119 118 118 118 118 118 118 119 119 119
:
: Farm Machinery
:
: 1910-14 = 100
:
1991 :2480 2503 2520 2536 2510
1992 :2573 2607 2600 2614 2599
1993 :2629 2693 2695 2739 2689
1994 :2770 2851 2855 2895 2843
1995 :2977 2978 2980 2986 2991 2995 2998 3002 3012 3039 3072 3073 3009
1996 :3092 3096 3100 3111 3113 3114 3129 3135 3142 3161 3169 3176 3128
1997 :3181 3185 3188 3196 3202 3205 3207 3214 3221 3260 3263 3269 3216
1998 :3274 3279 3288 3300 3309 3321 3328 3339 3350 3389 3391 3399 3331
:
: 1990-92 = 100
:
1991 : 99 100 100 101 100
1992 : 103 104 104 104 104
1993 : 105 107 107 109 107
1994 : 110 114 114 115 113
1995 : 119 119 119 119 119 119 119 120 120 121 122 123 120
1996 : 123 123 124 124 124 124 125 125 125 126 126 127 125
1997 : 127 127 127 127 128 128 128 128 128 130 130 130 128
1998 : 131 131 131 132 132 132 133 133 134 135 135 136 133
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Building Materials
:
: 1910-14 = 100
:
1991 :1350 1351 1368 1363 1358
1992 :1361 1380 1382 1386 1377
1993 :1411 1452 1433 1448 1436
1994 :1476 1477 1490 1508 1488
1995 :1536 1541 1549 1554 1554 1552 1559 1562 1564 1560 1555 1553 1553
1996 :1551 1552 1554 1558 1569 1574 1571 1575 1583 1577 1584 1582 1569
1997 :1585 1593 1598 1605 1609 1607 1609 1608 1605 1600 1602 1600 1602
1998 :1599 1600 1604 1607 1606 1604 1609 1611 1610 1604 1602 1602 1605
:
: 1990-92 = 100
:
1991 : 99 99 101 100 100
1992 : 100 102 102 102 101
1993 : 104 107 105 107 106
1994 : 109 109 110 111 109
1995 : 113 113 114 114 114 114 115 115 115 115 114 114 114
1996 : 114 114 114 115 115 116 116 116 116 116 117 116 115
1997 : 117 117 118 118 118 118 118 118 118 118 118 118 118
1998 : 118 118 118 118 118 118 118 119 119 118 118 118 118
:
: Farm Services and Rent 1/
:
: 1910-14 = 100
:
1991 :1175 1185 1171 1174 1176
1992 :1237 1236 1235 1239 1237
1993 :1258 1257 1269 1266 1262
1994 :1301 1298 1311 1305 1304
1995 :1369 1372 1377 1377 1382 1392 1393 1395 1394 1389 1385 1383 1384
1996 :1441 1439 1440 1438 1438 1444 1449 1449 1449 1442 1438 1437 1442
1997 :1473 1473 1474 1472 1474 1484 1485 1483 1485 1475 1474 1471 1477
1998 :1473 1470 1470 1470 1471 1480 1480 1478 1476 1470 1466 1465 1472
--------------------------------------------------------------------------------
1/ For the 1990-92=100 period, the Farm Services and Rent Index is separated.
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Farm Services
:
: 1990-92 = 100
:
1991 : 98 99 97 98 98
1992 : 103 103 103 104 103
1993 : 109 109 111 111 110
1994 : 110 109 111 111 110
1995 : 113 114 114 114 115 116 117 117 117 116 115 115 115
1996 : 116 115 115 115 115 116 117 117 117 116 115 115 116
1997 : 116 116 116 115 116 117 117 117 117 116 116 115 116
1998 : 117 116 116 116 116 118 118 117 117 116 116 116 117
:
: Rent
:
: 1990-92 = 100
:
1991 : 100 100 100 100 100
1992 : 104 104 104 104 104
1993 : 100 100 100 100 100
1994 : 108 108 108 108 108
1995 : 117 117 117 117 117 117 117 117 117 117 117 117 117
1996 : 128 128 128 128 128 128 128 128 128 128 128 128 128
1997 : 136 136 136 136 136 136 136 136 136 136 136 136 136
1998 : 134 134 134 134 134 134 134 134 134 134 134 134 134
:
: Interest
:
: 1910-14 = 100
:
1991 :2516 2516 2516 2516 2516
1992 :2321 2321 2321 2321 2321
1993 :2191 2191 2191 2191 2191
1994 :2370 2370 2370 2357 2367
1995 :2548 2548 2548 2548 2548 2548 2548 2548 2548 2548 2548 2548 2548
1996 :2652 2652 2652 2652 2652 2652 2652 2652 2652 2652 2652 2652 2652
1997 :2662 2662 2662 2662 2662 2662 2662 2662 2662 2662 2662 2662 2662
1998 :2739 2739 2739 2739 2739 2739 2739 2739 2739 2739 2739 2739 2739
:
: 1990-92 = 100
:
1991 : 100 100 100 100 100
1992 : 93 93 93 93 93
1993 : 87 87 87 87 87
1994 : 95 95 95 94 94
1995 : 102 102 102 102 102 102 102 102 102 102 102 102 102
1996 : 106 106 106 106 106 106 106 106 106 106 106 106 106
1997 : 106 106 106 106 106 106 106 106 106 106 106 106 106
1998 : 109 109 109 109 109 109 109 109 109 109 109 109 109
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Taxes
:
: 1910-14 = 100
:
1991 :2707 2707 2707 2707 2707
1992 :2789 2789 2789 2789 2789
1993 :2886 2886 2886 2886 2886
1994 :2828 2828 2828 2828 2828
1995 :2915 2915 2915 2915 2915 2915 2915 2915 2915 2915 2915 2915 2915
1996 :3001 3001 3001 3001 3001 3001 3001 3001 3001 3001 3001 3001 3001
1997 :3093 3093 3093 3093 3093 3093 3093 3093 3093 3093 3093 3093 3093
1998 :3185 3185 3185 3185 3185 3185 3185 3185 3185 3185 3185 3185 3185
:
: 1990-92 = 100
:
1991 : 101 101 101 101 101
1992 : 104 104 104 104 104
1993 : 108 108 108 108 108
1994 : 106 106 106 106 106
1995 : 109 109 109 109 109 109 109 109 109 109 109 109 109
1996 : 112 112 112 112 112 112 112 112 112 112 112 112 112
1997 : 115 115 115 115 115 115 115 115 115 115 115 115 115
1998 : 119 119 119 119 119 119 119 119 119 119 119 119 119
:
: Wage Rates
:
: 1910-14 = 100
:
1991 :3877 3754 3599 3799 3757
1992 :4116 3909 3760 3935 3930
1993 :4135 4116 3922 4045 4055
1994 :4226 4148 4013 4174 4140
1995 :4349 4349 4349 4161 4161 4161 4349 4349 4349 4252 4252 4252 4278
1996 :4452 4452 4452 4368 4368 4368 4232 4232 4232 4504 4504 4504 4389
1997 :4652 4652 4652 4542 4542 4542 4446 4446 4446 4723 4723 4723 4591
1998 :4917 4917 4917 4840 4840 4840 4678 4678 4678 4911 4911 4911 4836
:
: 1990-92 = 100
:
1991 : 104 100 96 102 100
1992 : 110 104 101 105 105
1993 : 111 110 105 108 108
1994 : 113 111 107 112 111
1995 : 116 116 116 111 111 111 116 116 116 114 114 114 114
1996 : 119 119 119 117 117 117 113 113 113 120 120 120 117
1997 : 124 124 124 121 121 121 119 119 119 126 126 126 123
1998 : 131 131 131 129 129 129 125 125 125 131 131 131 129
--------------------------------------------------------------------------------
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Family Living
:
: 1910-14 = 100
:
1991 :1271 1283 1292 1303 1287
1992 :1310 1323 1332 1342 1327
1993 :1354 1368 1371 1384 1369
1994 :1389 1400 1409 1420 1404
1995 :1428 1433 1438 1443 1446 1448 1448 1452 1455 1460 1459 1458 1447
1996 :1466 1471 1479 1484 1487 1488 1491 1494 1499 1503 1506 1506 1490
1997 :1511 1516 1520 1522 1521 1522 1524 1527 1531 1535 1534 1532 1525
1998 :1535 1538 1541 1543 1546 1548 1550 1552 1554 1558 1558 1557 1548
:
: 1990-92 = 100
:
1991 : 99 100 101 102 101
1992 : 102 103 104 105 104
1993 : 106 107 107 108 107
1994 : 108 109 110 111 110
1995 : 111 112 112 113 113 113 113 113 114 114 114 114 113
1996 : 115 115 116 116 116 116 116 117 117 117 118 118 116
1997 : 118 118 119 119 119 119 119 119 120 120 120 120 119
1998 : 120 120 120 121 121 121 121 121 121 122 122 122 121
:
: Production Items With Farm Origin 1/
:
: 1990-92 = 100
:
1991 : 100 103 98 98 100
1992 : 98 98 98 97 98
1993 : 101 103 103 103 102
1994 : 106 106 100 96 102
1995 : 96 94 94 95 93 94 94 95 96 98 99 103 96
1996 : 102 102 103 106 110 111 113 113 112 106 105 105 107
1997 : 107 109 112 115 117 115 114 114 116 113 114 115 113
1998 : 112 112 109 108 106 104 103 100 97 98 100 100 104
:
: Production Items With Non-Farm Origin 2/
:
: 1990-92 = 100
:
1991 : 102 100 99 100 100
1992 : 102 102 103 103 102
1993 : 103 105 104 105 104
1994 : 106 108 109 110 108
1995 : 113 114 114 115 115 115 115 115 115 115 115 115 115
1996 : 118 118 119 120 119 119 119 119 120 120 120 120 119
1997 : 122 122 121 121 121 121 121 121 122 121 121 121 121
1998 : 121 120 120 120 120 120 120 120 120 120 119 119 120
--------------------------------------------------------------------------------
1/ Feed, livestock and poultry purchases, and seed.
2/ Fertilizer, agricultural chemicals, fuels, farm supplies and repairs, autos
and trucks, farm machinery, building materials, and farm services and rent.
Prices Paid Indexes: Quarterly or Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Crop Sector (PPITW)
:
: 1990-92 = 100
:
:
1991 : 101 100 99 101 100
1992 : 102 102 102 102 102
1993 : 103 104 104 105 104
1994 : 106 108 108 109 108
1995 : 112 112 112 112 113 113 113 113 113 113 113 113 113
1996 : 116 116 117 117 117 117 117 117 117 118 118 118 117
1997 : 120 120 120 120 120 120 119 120 120 120 120 120 120
1998 : 121 120 120 120 120 120 120 120 119 120 120 120 120
:
:
:
: Livestock Sector (PPITW)
:
: 1990-92 = 100
:
:
1991 : 101 101 99 100 100
1992 : 100 101 101 101 101
1993 : 103 104 104 105 104
1994 : 107 107 105 104 105
1995 : 106 105 105 106 105 106 106 106 106 107 108 109 106
1996 : 111 111 111 112 114 114 115 115 115 113 113 113 113
1997 : 114 115 116 117 118 117 117 117 118 117 117 117 117
1998 : 117 117 115 115 114 113 113 112 110 111 112 112 113
:
:
:
: Commodities and Services, Interest, Taxes, and Wage Rates
:
: Adjusted for Productivity
:
: 1910-14 = 100
:
:
1991 : 928 918 907 924 919
1992 : 927 915 910 922 919
1993 : 925 928 917 928 924
1994 : 943 942 933 943 940
1995 : 980 981 982 971 971 973 985 985 987 982 983 985 980
1996 :1013 1014 1017 1015 1017 1017 1010 1010 1012 1028 1028 1028 1017
1997 :1028 1030 1032 1026 1027 1027 1019 1020 1022 1040 1040 1040 1029
1998 :1055 1054 1053 1048 1048 1047 1035 1034 1032 1049 1050 1049 1046
--------------------------------------------------------------------------------
Prices Paid Indexes: Monthly and Annual Average,
United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Parity Ratio 1/
:
: 1910-14 = 100
:
1991 : 47 47 48 48 49 48 47 47 47 47 47 46 47
1992 : 46 47 47 47 47 47 47 47 47 46 45 45 47
1993 : 45 46 46 48 47 46 46 47 47 46 47 47 47
1994 : 47 47 47 46 45 44 44 44 44 43 43 45 45
1995 : 43 43 43 44 44 44 44 45 45 45 46 46 44
1996 : 46 45 46 45 46 49 49 48 48 46 46 45 47
1997 : 44 43 44 43 43 43 43 43 43 43 43 42 43
1998 : 41 41 41 42 42 42 42 42 41 41 41 41 41
:
: Adjusted Parity Ratio 2/
:
: 1910-14 = 100
:
1991 : 49 49 51 51 52 50 49 49 50 49 49 49 50
1992 : 48 49 50 49 49 50 49 50 49 48 48 48 49
1993 : 48 49 50 51 51 50 50 50 51 50 50 51 50
1994 : 49 49 49 48 47 46 46 46 45 45 45 47 47
1995 : 45 45 45 45 46 46 46 47 47 47 47 48 46
1996 : 47 46 48 47 48 51 51 50 50 48 47 46 48
1997 : 45 44 45 44 45 45 45 45 45 45 45 44 45
1998 : 44 43 44 45 45 44 44 45 44 44 44 43 44
:
: Ratio 2/
:
: 1990-92 = 100
:
1991 : 99 99 101 101 103 100 99 99 99 98 98 97 99
1992 : 96 98 99 98 98 99 98 99 98 96 95 95 97
1993 : 94 95 96 100 99 97 97 98 98 97 98 99 97
1994 : 99 98 99 95 94 93 92 92 92 90 90 93 94
1995 : 91 91 91 91 92 92 94 94 95 95 96 97 93
1996 : 96 94 96 94 97 103 103 101 100 97 96 94 98
1997 : 91 90 92 90 91 90 91 92 90 90 90 88 90
1998 : 87 85 86 88 88 87 88 88 87 85 86 85 87
--------------------------------------------------------------------------------
1/ Ratio of prices received by farmers to index of prices paid by farmers for
commodities and services, interest, taxes, and wage rates.
2/ Ratio of the index of prices received by farmers after adjustment for
govenment payments to the index of prices paid for commodities and services,
interest, taxes, and wage rates.
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Feed Sub-Components
:
: Feed Grains
: 1990-92 = 100
:
1991 : 96 103 97 98 99
1992 : 103 106 99 87 99
1993 : 87 92 95 97 93
1994 : 115 112 97 88 103
1995 : 93 95 98 100 103 109 114 113 116 121 125 134 110
1996 : 135 146 152 167 179 178 185 178 150 122 113 111 151
1997 : 114 113 118 118 114 109 104 107 107 108 107 107 111
1998 : 109 109 108 102 99 98 94 82 78 81 82 85 94
:
: Complete Feeds
: 1990-92 = 100
:
1991 : 98 99 98 101 99
1992 : 101 100 102 100 101
1993 : 101 100 103 105 102
1994 : 111 106 105 100 105
1995 : 98 97 98 97 96 97 99 101 102 106 111 116 101
1996 : 121 121 122 125 132 133 134 134 136 128 122 122 128
1997 : 121 122 125 126 129 128 125 125 127 124 125 126 125
1998 : 121 119 118 115 113 112 114 112 106 104 107 109 113
:
: Hay and Forages
: 1990-92 = 100
:
1991 : 104 107 90 89 98
1992 : 89 95 92 91 92
1993 : 100 108 101 106 104
1994 : 112 123 108 111 114
1995 : 108 107 108 111 113 105 105 104 103 103 103 102 106
1996 : 103 103 105 114 123 120 120 118 117 116 117 117 114
1997 : 126 131 135 137 142 134 123 124 125 129 126 122 130
1998 : 123 125 123 122 128 117 114 116 112 110 106 103 116
:
: Concentrates
: 1990-92 = 100
:
1991 : 95 98 96 104 98
1992 : 98 100 104 101 101
1993 : 109 102 118 106 109
1994 : 107 109 106 97 105
1995 : 89 85 87 96 90 90 89 95 97 102 110 114 95
1996 : 119 115 115 120 121 117 121 124 132 118 116 118 120
1997 : 117 120 130 135 148 143 142 145 160 133 146 149 139
1998 : 131 131 122 110 109 110 121 108 104 98 104 104 113
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Supplements
: 1990-92 = 100
:
1991 : 104 100 89 89 96
1992 : 104 101 93 97 99
1993 : 100 101 99 106 101
1994 : 118 108 106 102 108
1995 : 98 93 99 108 102 97 102 102 104 110 114 129 105
1996 : 123 124 124 125 133 134 138 137 131 126 127 128 129
1997 : 126 125 131 127 124 123 115 117 124 129 134 139 126
1998 : 139 133 125 122 117 109 110 109 107 108 114 118 117
:
: Livestock and Poultry Sub-Components
:
: Feeder Cattle
: 1990-92 = 100
:
1991 : 104 106 103 97 103
1992 : 96 94 99 99 97
1993 : 105 106 106 104 105
1994 : 102 98 92 88 95
1995 : 93 88 83 79 76 79 79 78 78 77 73 76 80
1996 : 70 68 66 62 64 69 72 73 75 72 75 75 70
1997 : 80 84 84 89 92 92 98 95 95 94 94 96 91
1998 : 95 95 92 95 92 87 81 82 78 85 86 85 88
:
: Feeder Pigs
: 1990-92 = 100
:
1991 : 107 144 98 85 109
1992 : 65 88 62 76 73
1993 : 83 116 83 95 94
1994 : 73 103 65 49 73
1995 : 61 61 61 84 84 84 60 60 60 73 73 73 70
1996 : 67 73 81 78 73 67 64 86 90 105 111 112 84
1997 : 112 118 121 136 128 119 119 109 97 87 81 77 109
1998 : 68 81 68 70 72 70 65 62 55 55 53 55 65
:
: Milk Cow Replacements
: 1990-92 = 100
:
1991 : 98 96 97 98 97
1992 : 97 99 102 102 100
1993 : 101 103 104 104 103
1994 : 104 105 103 103 104
1995 : 102 102 102 101 101 101 100 100 100 97 97 97 100
1996 : 94 94 94 95 95 95 97 97 97 100 100 100 96
1997 : 97 97 97 98 98 98 98 98 98 97 97 97 97
1998 : 95 95 95 98 98 98 99 99 99 105 105 105 99
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : :
--------------------------------------------------------------------------------
: Poultry
: 1990-92 = 100
:
1991 : 97 98 100 99 98
1992 : 100 103 102 101 101
1993 : 103 106 99 100 102
1994 : 102 103 103 103 103
1995 : 100 100 100 100 100 100 100 100 100 100 100 100 100
1996 : 102 102 102 102 102 102 102 102 102 102 102 102 102
1997 : 106 106 106 106 106 106 106 106 106 106 106 106 106
1998 : 110 110 110 110 110 110 110 110 110 110 110 110 110
:
: Seeds Sub-Components
:
: Field Crops
: 1990-92 = 100
:
1991 : 101 99 99 99 99
1992 : 99 99 99 99 99
1993 : 99 101 101 101 101
1994 : 101 110 110 110 108
1995 : 110 110 110 109 109 109 109 109 109 109 109 109 109
1996 : 109 109 109 117 117 117 117 117 117 117 117 117 115
1997 : 117 117 117 119 119 119 119 119 119 119 119 119 118
1998 : 119 119 119 123 123 123 123 123 123 123 123 123 122
:
: Grasses and Legumes
: 1990-92 = 100
:
1991 : 102 101 101 101 101
1992 : 101 91 91 91 93
1993 : 91 112 112 112 107
1994 : 112 114 114 114 113
1995 : 114 114 114 119 119 119 119 119 119 119 119 119 118
1996 : 119 119 119 120 120 120 120 120 120 120 120 120 120
1997 : 120 120 120 130 130 130 130 130 130 130 130 130 128
1998 : 130 130 130 123 123 123 123 123 123 123 123 123 124
:
: Fertilizer Sub-Components
:
: Mixed Fertilizer
: 1990-92 = 100
:
1991 : 101 104 102 102 102
1992 : 99 100 100 98 99
1993 : 97 92 91 91 92
1994 : 94 100 102 102 99
1995 : 102 104 106 116 117 117 117 117 117 117 118 118 114
1996 : 121 123 124 126 125 125 123 122 122 121 120 119 123
1997 : 119 119 119 118 118 118 117 117 117 116 116 116 117
1998 : 119 118 118 117 116 116 116 116 116 115 115 114 116
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------------
: Nitrogen
: 1990-92 = 100
:
1991 : 108 103 99 103 103
1992 : 104 101 102 98 101
1993 : 101 102 100 98 100
1994 : 104 112 115 121 113
1995 : 130 135 138 143 143 141 135 126 125 126 130 134 134
1996 : 139 139 143 140 137 131 125 123 124 130 130 135 133
1997 : 136 137 136 135 134 130 126 126 125 122 121 117 129
1998 : 115 114 114 111 113 112 110 106 102 101 98 95 108
:
: Potash and Phosphate
: 1990-92 = 100
:
1991 : 104 104 102 102 103
1992 : 99 99 98 94 98
1993 : 92 95 96 95 94
1994 : 103 99 102 105 102
1995 : 108 111 115 107 105 102 101 101 102 103 106 107 106
1996 : 109 111 113 111 108 107 103 104 105 105 107 107 107
1997 : 107 108 109 110 110 108 108 109 109 109 110 111 109
1998 : 111 111 112 114 115 115 115 116 115 118 118 117 115
:
: Agricultural Chemicals Sub-Components
:
: Herbicides
: 1990-92 = 100
:
1991 : 99 102 102 102 101
1992 : 101 103 104 102 102
1993 : 106 106 106 107 106
1994 : 108 111 111 112 110
1995 : 113 113 113 113 113 114 114 114 115 115 116 116 114
1996 : 116 117 117 117 116 116 116 117 119 119 119 118 117
1997 : 117 114 114 116 118 117 117 117 117 119 120 120 117
1998 : 120 119 119 118 117 118 118 120 114 115 115 116 117
:
: Insecticides
: 1990-92 = 100
:
1991 : 99 102 100 101 101
1992 : 101 106 104 105 104
1993 : 107 113 115 118 113
1994 : 122 116 113 117 117
1995 : 117 117 117 121 120 121 121 122 121 122 122 123 120
1996 : 126 126 128 126 125 125 121 123 126 125 125 127 125
1997 : 130 129 129 129 129 130 128 128 132 132 133 134 130
1998 : 135 136 136 136 136 135 133 134 134 139 136 135 135
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------------
: Fungicides and Other
: 1990-92 = 100
:
1991 : 97 100 102 103 101
1992 : 103 105 106 106 105
1993 : 109 112 112 112 111
1994 : 114 113 115 115 114
1995 : 116 121 121 116 117 117 117 117 117 117 117 117 117
1996 : 117 117 117 117 117 117 117 117 118 116 117 117 117
1997 : 118 118 118 120 119 119 120 120 120 120 120 120 119
1998 : 121 120 120 119 120 120 121 117 118 118 119 119 119
:
: Fuels Sub-Components
:
: Diesel
: 1990-92 = 100
:
1991 : 135 93 87 98 103
1992 : 94 90 98 97 95
1993 : 87 94 86 99 91
1994 : 76 88 88 94 86
1995 : 87 85 88 87 89 84 79 82 85 85 86 86 85
1996 : 88 84 88 105 104 92 94 95 108 116 112 112 100
1997 : 108 109 100 100 97 94 90 97 97 103 106 96 100
1998 : 89 85 80 84 85 79 78 79 86 86 85 73 82
:
: Gasoline
: 1990-92 = 100
:
1991 : 121 99 97 96 103
1992 : 90 95 103 99 97
1993 : 88 102 98 96 96
1994 : 80 92 98 100 93
1995 : 97 97 99 97 103 101 94 92 91 86 81 84 93
1996 : 90 87 95 106 112 106 104 103 105 106 110 110 103
1997 : 111 109 108 107 109 108 106 114 118 112 109 105 110
1998 : 98 93 87 92 101 101 100 94 94 98 95 83 95
:
: LP Gas
: 1990-92 = 100
:
1991 : 147 93 96 101 109
1992 : 113 93 89 100 99
1993 : 93 97 92 87 92
1994 : 80 96 92 99 92
1995 : 106 111 109 96 95 98 91 87 87 89 89 90 96
1996 : 97 100 101 105 99 98 100 107 118 128 138 156 112
1997 : 157 142 119 111 104 110 105 111 119 125 129 124 121
1998 : 115 110 104 100 102 96 91 89 86 87 92 92 97
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------------
: Farm Supplies & Repairs Sub-Components
:
: Supplies
: 1990-92 = 100
:
1991 : 100 101 102 102 101
1992 : 103 103 105 104 103
1993 : 105 106 105 106 105
1994 : 106 107 106 107 106
1995 : 108 109 109 109 110 110 110 110 110 112 112 112 110
1996 : 112 113 113 113 113 113 113 113 113 113 113 113 113
1997 : 114 114 114 114 115 115 115 115 115 114 114 114 114
1998 : 114 114 115 115 115 116 116 116 115 116 115 115 115
:
: Repairs
: 1990-92 = 100
:
1991 : 98 98 101 103 100
1992 : 101 102 105 106 104
1993 : 105 107 108 109 107
1994 : 108 111 112 112 111
1995 : 112 112 113 113 114 114 114 114 114 114 114 114 114
1996 : 115 115 115 116 116 116 116 116 116 117 117 117 116
1997 : 118 118 118 119 119 119 120 120 120 120 120 120 119
1998 : 120 120 120 121 121 121 121 121 122 123 122 122 121
:
: Autos and Trucks Sub-Components
:
: Autos
: 1990-92 = 100
:
1991 : 99 99 100 99 99
1992 : 101 101 102 102 101
1993 : 105 105 105 106 105
1994 : 108 108 109 109 109
1995 : 111 111 111 112 112 111 111 110 110 111 112 113 111
1996 : 113 113 113 113 113 113 113 113 113 113 114 114 113
1997 : 114 114 114 114 114 113 113 112 112 113 113 113 113
1998 : 114 113 113 113 113 112 112 112 112 112 113 113 113
:
: Trucks
: 1990-92 = 100
:
1991 : 99 100 100 100 100
1992 : 101 103 104 103 103
1993 : 105 107 107 108 107
1994 : 110 111 112 113 112
1995 : 114 114 115 115 115 115 115 115 116 116 117 117 115
1996 : 118 118 118 118 118 118 118 118 118 119 120 120 118
1997 : 120 121 121 120 120 119 119 119 119 119 120 120 120
1998 : 120 120 120 120 119 118 119 119 119 119 120 120 119
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------------
: Farm Machinery Sub-Components
:
: Tractors
: 1990-92 = 100
:
1991 : 96 100 99 100 99
1992 : 103 104 105 105 104
1993 : 106 108 108 111 108
1994 : 111 114 114 115 114
1995 : 116 116 116 117 117 117 117 117 117 118 119 119 117
1996 : 120 120 119 119 120 120 120 121 122 122 123 124 121
1997 : 124 125 125 125 126 126 126 126 126 129 129 129 126
1998 : 129 129 130 130 130 130 130 130 130 132 132 132 130
:
: Self Propelled
: 1990-92 = 100
:
1991 : 100 99 101 101 100
1992 : 103 103 104 104 104
1993 : 105 107 107 108 107
1994 : 110 115 115 117 114
1995 : 122 122 122 121 122 122 122 122 122 124 126 126 123
1996 : 127 127 127 128 127 127 128 128 127 128 128 128 128
1997 : 128 127 127 127 127 127 127 127 128 129 129 130 128
1998 : 130 130 130 131 131 132 133 133 134 136 136 136 133
:
: Other Machinery
: 1990-92 = 100
:
1991 : 99 100 100 101 100
1992 : 101 104 102 104 103
1993 : 104 108 108 109 107
1994 : 110 112 112 114 112
1995 : 116 116 117 118 118 118 119 119 119 120 99
1992 : 103 104 105 105 104
1993 : 106 108 108 111 108
1994 : 111 114 114 115 114
1995 : 116 116 116 117 117 117 117 117 117 118 119 119 117
1996 : 120 120 119 119 120 120 120 121 122 122 123 124 121
1997 : 124 125 125 125 126 126 126 126 126 129 129 129 126
1998 : 129 129 130 130 130 130 130 130 130 132 132 132 130
:
: Self Propelled
: 1990-92 = 100
:
1991 : 100 99 101 101 100
1992 : 103 103 104 104 104
1993 : 105 107 107 108 107
1994 : 110 115 115 117 114
1995 : 122 122 122 121 122 122 122 122 122 124 126 126 123
1996 : 127 127 127 128 127 127 128 128 127 128 128 128 128
1997 : 128 127 127 127 127 127 127 127 128 129 129 130 128
1998 : 130 130 130 131 131 132 133 133 134 136 136 136 133
:
: Other Machinery
: 1990-92 = 100
:
1991 : 99 100 100 101 100
1992 : 101 104 102 104 103
1993 : 104 108 108 109 107
1994 : 110 112 112 114 112
1995 : 116 116 117 118 118 118 119 119 119 120 121 121 119
1996 : 121 122 122 123 123 123 124 125 125 126 127 127 124
1997 : 127 128 129 129 129 130 130 130 131 131 131 132 130
1998 : 132 132 133 133 134 134 134 135 136 136 137 137 134
:
: Farm Services Sub-Components
:
: Custom Rates
: 1990-92 = 100
:
1991 : 100 100 100 100 100
1992 : 106 105 105 105 105
1993 : 109 109 109 109 109
1994 : 104 104 104 104 104
1995 : 111 111 111 111 111 111 111 111 111 111 111 111 111
1996 : 113 113 113 113 113 113 113 113 113 113 113 113 113
1997 : 115 115 115 115 115 115 115 115 115 115 115 115 115
1998 : 117 117 117 117 117 117 117 117 117 117 117 117 117
--------------------------------------------------------------------------------
Prices Paid Index Sub-Components: Quarterly or Monthly and Annual
Average, United States, 1991-98
--------------------------------------------------------------------------------
: : : : : : : : : : : : :
Year: Jan : Feb : Mar :Apr : May : Jun :Jul : Aug : Sep : Oct : Nov : Dec :Avg
: : : : : : : : : : : : : 1/
--------------------------------------------------------------------------------
: Other Services
: 1990-92 = 100
:
1991 : 98 99 97 98 98
1992 : 103 103 103 104 103
1993 : 109 109 111 111 110
1994 : 111 110 112 112 111
1995 : 113 114 115 115 115 117 117 118 117 117 116 116 116
1996 : 116 116 116 116 115 116 117 117 117 116 115 115 116
1997 : 116 116 116 116 116 117 118 117 118 116 116 115 116
1998 : 117 116 116 116 116 118 118 117 117 116 115 115 117
:
: Rent Sub-Components
:
: Cash
: 1990-92 = 100
:
1991 : 108 108 108 108 108
1992 : 100 100 100 100 100
1993 : 110 110 110 110 110
1994 : 115 115 115 115 115
1995 : 123 123 123 123 123 123 123 123 123 123 123 123 123
1996 : 129 129 129 129 129 129 129 129 129 129 129 129 129
1997 : 135 135 135 135 135 135 135 135 135 135 135 135 135
1998 : 141 141 141 141 141 141 141 141 141 141 141 141 141
:
: Share
: 1990-92 = 100
:
1991 : 94 94 94 94 94
1992 : 108 108 108 108 108
1993 : 92 92 92 92 92
1994 : 103 103 103 102 103
1995 : 113 113 113 113 113 113 113 113 113 113 113 113 113
1996 : 128 128 128 128 128 128 128 128 128 128 128 128 128
1997 : 136 136 136 136 136 136 136 136 136 136 136 136 136
1998 : 129 129 129 129 129 129 129 129 129 129 129 129 129
--------------------------------------------------------------------------------
Feed Price Ratios, Monthly, United States,
January 1988 - December 1998 1/
--------------------------------------------------------------------------------
: :
Year : Jan : Feb: Mar: Apr: May : Jun : Jul : Aug : Sep : Oct: Nov :Dec :Average
: : 2/
--------------------------------------------------------------------------------
: Milk-Feed Ratio 3/
:
1988 : 3.34 3.14 2.98 2.80 2.57 2.28 2.11 2.23 2.40 2.50 2.59 2.59 2.63
1989 : 2.51 2.45 2.30 2.26 2.25 2.38 2.52 2.83 2.97 3.22 3.34 3.39 2.70
1990 : 3.25 3.02 2.84 2.59 2.54 2.72 2.79 2.92 2.93 2.82 2.83 2.59 2.82
1991 : 2.57 2.52 2.42 2.34 2.41 2.54 2.73 2.82 2.94 3.14 3.25 3.19 2 74
1992 : 3.04 2.86 2 77 2.79 2.68 2.81 3.06 3.20 3.22 3.29 3.23 3.13 3.01
1993 : 2.96 2.87 2.77 2.79 2.81 2.91 2.78 2.70 2.80 2.79 2.77 2.65 2.80
1994 : 2.61 2.51 2.52 2.51 2.36 2.42 2.61 2.72 2.81 2.92 2.96 2.81 2.65
1995 : 2.77 2.73 2.71 2.60 2.52 2.48 2.40 2.50 2.56 2.62 2.69 2.56 2.59
1996 : 2.59 2.42 2.35 2.17 2.10 2.17 2.19 2.28 2.64 2.98 2.85 2.70 2.45
1997 : 2.44 2.35 2.27 2.14 2.07 2.12 2.24 2.35 2.44 2.63 2.73 2.80 2.38
1998 : 2.75 2.77 2.73 2.70 2.58 2.89 3.00 3.60 3.98 4.18 4.22 4.27 3.31
:
:
: Turkey - Feed Ratio 4/
:
1988 : 6.2 5.5 5.2 5.0 4.9 4.5 5.3 5.6 6.2 6.7 6.7 5.3 5.6
1989 : 4.8 5.3 5.5 5.9 6.1 6.3 6.1 6.6 6.0 6.4 6.8 6.5 6.0
1990 : 5.9 5.7 6.1 5.9 6.0 6.2 6.4 6.7 7.0 7.6 7.7 6.7 6.5
1991 : 6.0 6.3 6.4 6.5 6.7 6.9 7.2 7.1 7.0 6.5 6.4 6.5 6.6
1992 : 6.0 5.8 6.0 6.0 6.0 6.1 6.5 6.8 6.7 7.1 7.2 7.1 6.4
1993 : 6.3 6.4 6.6 6.5 6.6 6.7 6.4 6.4 6.9 7.2 6.7 6.0 6.5
1994 : 5.4 5.4 5.5 5.8 5.9 6.1 6.9 7.4 7.4 7.9 7.9 7.3 6.6
1995 : 6.8 6.4 6.5 6.4 6.3 6.3 6.0 6.3 6.4 6.4 6.5 5.7 6.3
1996 : 5.3 5.2 5.1 4.8 4.6 4.9 4.9 4.8 5.3 6.2 6.4 6.1 5.3
1997 : 5.4 5.1 5.0 5.1 5.3 5.6 6.0 5.9 6.1 6.2 6.2 5.8 5.7
1998 : 5.4 5.2 5.4 5.7 5.8 6.1 6.5 7.6 8.1 8.3 8.2 7.5 6.7
:
:
: Steer & Heifer-Corn Feed Ratio 5/
:
1988 :39.0 39.0 39.0 39.0 38.0 29.2 24.7 26.4 27.6 28.1 29.1 28.9 32.3
1989 :29.2 29.2 29.7 29.4 28.7 28.5 29.0 32.6 31.4 33.1 33.8 33.4 30.7
1990 :34.1 33.8 32.9 31.5 29.9 29.4 29.2 31.5 34.0 36.6 37.6 36.6 33.1
1991 :36.0 35.0 34.5 33.9 33.4 33.2 32.9 30.6 30.7 32.2 31.6 30.7 32.9
1992 :30.3 31.0 30.7 30.8 30.2 29.8 31.7 34.7 35.0 37.3 38.2 38.7 33.2
1993 :38.8 39.8 38.8 37.8 37.8 37.1 33.8 33.4 33.7 31.8 29.8 27.0 35.0
1994 :27.0 26.2 27.5 28.5 26.8 24.8 28.4 31.6 30.2 32.1 34.4 31.9 29.1
1995 :32.6 32.3 30.6 28.2 26.3 25.2 23.5 23.5 23.0 22.3 22.7 21.1 25.9
1996 :20.3 18.1 17.2 15.1 13.9 14.2 14.0 15.0 191 23.6 25.8 24.9 18.4
1997 :24.2 24.6 24.3 24.3 25.4 25.4 27.0 26.6 26.6 26.5 27.1 26.5 25.7
1998 :25.8 24.8 25.2 27.5 28.3 28.3 27.9 31.6 32.2 32.1 32.3 30.0 28.8
------------------------------------------------------------------------------
1/ Modifications in the calculation of feed price ratio are a result of Prices
Paid program changes initiated in January 1995, using a different procedure.
NASS uses fixed composition rations common to dairy and poultry production
as established by University Animal Nutritionists'. The methodology
utilizes major raw feed component prices from the NASS agricultural
commodity prices published monthly. The major feed components of corn and
soybeans account for 83 to 91 percent of the total ingredients in the
rations. See footnotes 3/, 4/, 7/, and 8/ for Ration Composition per 100
pounds. The contribution for feed additives and antibiotics are held
constant.
2/ Simple average of monthly ratios for calendar year.
Feed Price Ratios, Monthly, United States,
January 1988 - December 1998 1/
--------------------------------------------------------------------------------
: :
Year :Jan :Feb : Mar: Apr : May : Jun : Jul : Aug : Sep : Oct : Nov :Dec:Average
: : 2/
--------------------------------------------------------------------------------
: Hog-Corn Feed Ratio 6/
:
1988 :24.3 25.0 22.7 22.3 23.9 19.5 16.2 16.9 15.7 15.0 14.4 15.7 19.3
1989 :15.7 15.6 15.1 14.4 16.1 17.9 18.6 20.1 19.0 21.0 20.1 21.2 17.9
1990 :20.5 20.8 21.6 21.4 23.4 22.9 23.2 23.3 23.4 25.9 23.2 21.5 22.5
1991 :22.0 22.5 21.5 21.0 22.7 23.7 23.9 22.0 19.9 18.9 16.6 16.6 20.9
1992 :15.3 16.3 15.7 16.5 18.1 18.9 19.1 20.5 19.5 20.5 20.8 21.2 18.5
1993 :20.3 22.0 22.1 21.0 21.9 23.0 20.6 21.0 21.6 20.6 17.3 15.1 20.5
1994 :16.1 17.2 16.2 16.1 16.4 16.4 18.4 19.4 16.2 15.4 14.1 14.5 16.4
1995 :16.8 17.5 16.4 15.1 15.3 16.8 17.6 18.5 18.0 16.4 13.9 14.2 16.4
1996 :13.8 13.8 13.9 12.9 13.7 13.4 13.2 13.9 15.4 19.3 20.5 21.1 15.4
1997 :20.0 19.9 17.7 19.2 21.6 22.6 24.3 22.1 20.0 18.6 18.0 16.5 20.0
1998 :14.1 14.1 13.7 14.8 18.1 18.6 16.8 18.6 16.1 14.6 9.7 7.3 14.7
:
:
: Market Egg-Feed Ratio 7/
:
1988 : 8.2 7.5 8.0 6.9 6.0 5.5 6.9 7.1 8.3 7.7 8.0 8.2 7.3
1989 : 8.3 8.2 11.1 9.0 8.4 8.8 9.2 11.6 11.8 12.1 13.6 14.3 10.5
1990 :14.3 11.5 13.0 11.0 8.5 9.0 7.9 9.9 10.9 12.1 12.4 12.3 11.1
1991 :13.2 11.1 12.6 10.0 8.6 8.8 10.4 9.8 9.4 9.7 9.9 11.2 10.4
1992 : 8.4 7.8 7.4 7.6 6.7 7.0 7.3 8.1 9.6 9.3 11.2 11.1 8.4
1993 :10.5 10.3 11.7 10.6 9.1 9.8 8.2 8.9 8.1 8.8 8.8 8.2 9.4
1994 : 7.9 8.0 8.4 7.7 7.2 7.0 8.0 9.0 9.2 8.9 10.3 9.9 8.5
1995 : 9.4 9.3 9.0 8.9 7.5 7.6 8.0 8.5 8.9 8.6 10.1 10.0 8.8
1996 : 9.8 8.7 9.1 7.9 6.5 6.7 6.3 6.9 8.1 9.3 11.3 12.5 8.6
1997 :10.1 9.9 8.6 7.4 7.1 6.6 8.2 7.8 9.3 8.7 11.4 11.0 8.8
1998 :10.1 8.3 9.4 8.5 6.7 8.0 7.9 10.8 10.7 11.3 12.6 12.8 9.7
:
:
: Broiler-Feed Ratio 8/
:
1988 : 4.6 4.3 4.4 4.4 4.9 4.5 4.7 4.9 4.7 4.5 4.5 4.5 4.6
1989 : 4.3 4.4 4.9 5.0 5.8 5.6 5.3 5.4 5.7 4.9 4.7 4.4 5.0
1990 : 4.7 5.3 5.6 4.9 5.1 5.0 5.3 4.8 5.2 4.4 4.4 4.6 4.9
1991 : 4.8 4.8 4.6 4.7 4.8 5.0 5.3 5.1 5.0 5.0 4.8 4.7 4.9
1992 : 4.7 4.6 4.6 4.5 4.9 4.7 5.4 5.7 5.3 5.7 5.7 5.4 5.1
1993 : 5.3 5.4 5.4 5.4 5.6 5.6 5.2 5.3 5.5 5.3 5.0 4.6 5.3
1994 : 4.5 4.5 4.7 4.8 5.1 5.1 5.6 5.7 5.8 5.8 5.6 5.4 5.2
1995 : 5.3 5.3 5.2 5.1 5.0 5.0 5.1 5.5 5.5 5.1 5.0 4.6 5.1
1996 : 4.7 4.2 4.0 3.8 3.9 4.3 4.1 4.1 4.4 5.0 5.3 5.4 4.4
1997 : 5.0 4.8 4.4 42 4.2 4.5 5.1 5.2 5.2 4.8 4.6 4.4 4.7
1998 : 4.6 4.7 5.0 5.3 5.5 6.1 6.7 8.1 8.2 7.7 7.1 6.7 6.3
--------------------------------------------------------------------------------
3/ Number of pounds of 16 percent protein mixed dairy feed (corn-51 pounds,
soybeans-8 pounds, alfalfa hay-41 pounds) equal in value to one pound of all
milk.
4/ Number of pounds of turkey grower feed (corn-51 pounds, soybeans-28 pounds,
all wheat-21 pounds) equal in value to one pound of turkey, live weight.
5/ Number bushels of corn equal in value to 100 pounds of steer & heifers, live
weight.
6/ Number of bushels of corn equal in value to 100 pounds of all hogs, live
weight.
7/ Number of pounds of laying feed (corn-75 pounds, soybeans-25 pounds) equal
in value to one dozen market eggs.
8/ Number of pounds of broiler grower feed (corn-58 pounds, soybeans-42 pounds)
equal in value to one pound of broiler, live weight.
Prices Paid: Fuels, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Gasoline, Unleaded 2/
:-----------------------------------------------------------
Region 1/ : Pumped at Service Station : Bulk Delivery
:-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Gallon
:
Appalachian : 1.11 1.20 1.21 1.03 1.09 1.24 1.24 1.06
Corn Belt : 1.10 1.20 1.17 1.03 1.11 1.27 1.25 1.10
Delta States : 1.10 1.18 1.21 1.03 1.05 1.20 1.20 1.04
Lake States : 1.15 1.27 1.22 1.09 1.16 1.32 1.30 1.16
Mountain : 1.19 1.27 1.32 1.16 1.18 1.29 1.34 1.17
Northeast : 1.15 1.23 1.26 1.08 1.17 1.30 1.33 1.17
Northern Plains : 1.15 1.26 1.26 1.08 1.12 1.31 1.30 1.13
Pacific : 1.22 1.36 1.41 1.18 1.19 1.43 1.46 1.23
Southeast : 1.10 1.20 1.21 1.03 1.09 1.18 1.19 1.02
Southern Plains : 1.10 1.20 1.20 1.03 1.07 1.22 1.22 1.05
--------------------------------------------------------------------------------
United States : 1.12 1.22 1.23 1.06 1.11 1.26 1.26 1.09
--------------------------------------------------------------------------------
Prices Paid: Fuels, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Diesel Fuel, : L.P. Gas (Propane, Butane,
: Bulk Delivery, 3/ 4/ : etc.), Bulk Delivery, 3/ 4/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Gallon
:
Appalachian : 0.770 0.880 0.890 0.760 0.960 0.990 1.01 0.900
Corn Belt : 0.780 0.940 0.880 0.750 0.700 0.790 0.800 0.730
Delta States : 0.670 0.820 0.760 0.650 0.880 0.930 0.990 0.900
Lake States : 0.830 0.980 0.910 0.790 0.720 0.800 0.840 0.740
Mountain : 0.770 0.890 0.940 0.770 0.700 0.760 0.810 0.720
Northeast : 0.850 1.02 0.960 0.810 1.10 1.17 1.21 1.05
Northern Plains : 0.740 0.920 0.840 0.710 0.570 0.660 0.690 0.620
Pacific : 0.810 1.00 1.04 0.820 0.980 1.00 1.16 0.920
Southeast : 0.780 0.900 0.830 0.720 0.710 0.810 1.02 0.900
Southern Plains : 0.700 0.860 0.790 0.680 0.720 0.770 0.810 0.740
--------------------------------------------------------------------------------
United States : 0.766 0.920 0.874 0.740 0.734 0.804 0.852 0.764
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
2/ Includes Federal, State, and local per gallon taxes.
3/ Excludes state road taxes, but includes applicable state and local per
gallon taxes.
4/ Excludes federal excise tax.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Alfalfa Meal : Alfalfa Pellets
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Cwt
:
Appalachian : 12.50 14.20 14.70 15.70 13.50 15.10 15.30 15.70
Corn Belt : 11.80 11.80 13.30 13.50 11.60 12.00 13.10 13.40
Delta States : 11.40 11.40 13.00 13.70 12.50 12.80 13.00 13.00
Lake States : 11.70 12.10 13.40 13.40 12.00 12.30 13.40 13.60
Mountain : 10.60 12.30 13.50 14.20 11.00 11.50 12.50 12.60
Northeast : 12.80 13.90 15.70 16.10 13.90 14.60 16.30 16.50
Northern Plains : 9.80 9.90 11.40 11.40 9.50 9.70 10.80 10.80
Pacific : 14.20 15.20 16.70 16.40 13.50 13.40 14.50 14.60
Southeast : 12.30 13.50 13.10 13.90 13.20 13.80 14.40 14.80
Southern Plains : 12.10 12.00 13.40 13.30 11.70 12.20 12.90 12.90
--------------------------------------------------------------------------------
United States : 11.80 12.30 13.60 13.80 12.00 12.40 13.40 13.60
--------------------------------------------------------------------------------
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: : Beef Cattle Concentrate,
: Bran : 32-36% Protein
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: ----- Dollars per Cwt ----- ---- Dollars per Ton ----
:
Appalachian : 11.80 13.60 13.90 13.80 273 328 321 276
Corn Belt : 10.30 11.90 13.70 13.10 270 331 360 303
Delta States : 12.30 13.30 13.80 14.00 246 262 263 258
Lake States : 9.70 11.80 12.90 12.80 266 339 364 305
Mountain : 12.90 13.40 14.90 14.10 253 326 321 282
Northeast : 10.00 12.50 13.20 12.60 255 287 324 293
Northern Plains : 10.20 12.30 13.10 13.20 251 304 310 286
Pacific : 14.80 15.70 17.20 17.10 242 334 343 340
Southeast : 13.00 15.60 16.10 15.40 242 315 293 288
Southern Plains : 12.00 15.00 15.40 15.10 225 282 272 262
--------------------------------------------------------------------------------
United States : 11.20 13.00 14.20 13.80 251 316 325 292
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: : Cottonseed Meal,
: Corn Meal : 41% Protein
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Cwt
:
Appalachian : 7.70 10.30 9.20 8.60 13.60 16.30 17.00 15.90
Corn Belt : 6.80 9.90 8.50 7.20 14.80 16.60 17.10 15.50
Delta States : 8.50 11.50 9.70 9.10 12.00 14.40 14.50 13.90
Lake States : 6.30 8.70 7.30 6.70 17.40 17.10 16.70 17.60
Mountain : 9.90 11.50 10.30 10.90 16.30 18.40 18.50 18.80
Northeast : 8.40 11.30 10.90 10.20 11.00 13.50 13.50 11.50
Northern Plains : 6.40 9.70 7.80 7.60 11.90 13.20 14.50 12.80
Pacific : 12.00 13.40 12.90 12.50 17.90 21.10 22.10 20.30
Southeast : 9.80 11.80 10.60 10.10 13.70 16.30 16.60 15.00
Southern Plains : 8.60 11.80 10.60 9.40 12.00 14.30 14.90 13.70
--------------------------------------------------------------------------------
United States : 7.86 10.60 9.30 8.57 14.20 16.80 17.20 16.00
--------------------------------------------------------------------------------
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Dairy Feed, : Dairy Feed,
: 14% Protein 2/ : 16% Protein 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
Appalachian : 174 211 209 185
Corn Belt : 173 222 206 180 181 240 229 203
Delta States : 157 203 187 173 168 212 203 185
Lake States : 161 218 200 182 172 226 212 190
Mountain : 181 247 238 209 195 252 251 228
Northeast : 175 226 216 199
Northern Plains : 148 217 212 192 168 235 221 202
Pacific : 155 202 187 182 162 210 187 174
Southeast : 144 192 190 179 169 239 246 209
Southern Plains : 164 223 221 204 190 227 226 209
--------------------------------------------------------------------------------
United States : 162 216 202 186 174 225 215 194
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
2/ Complete ration feed, fed without mixing or supplementation.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Dairy Feed, : Dairy Feed,
: 18% Protein 2/ : 20% Protein 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
Appalachian : 177 220 229 192 181 221 217 188
Corn Belt : 194 262 247 224 201 262 265 225
Delta States : 178 216 213 202 183 209 209 196
Lake States :
Mountain :
Northeast : 183 236 229 204 187 243 243 211
Northern Plains :
Pacific :
Southeast : 178 238 216 202 173 224 212 192
Southern Plains :
--------------------------------------------------------------------------------
United States : 183 238 230 206 186 239 238 207
--------------------------------------------------------------------------------
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Dairy Concentrate : Hog Feed,
: 32% Protein : 14-18% Protein 2/ 3/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
Appalachian : 277 312 338 298 228 268 262 255
Corn Belt : 295 357 379 321 209 248 250 221
Delta States : 241 290 311 262 214 263 244 230
Lake States : 284 353 379 309 199 241 243 213
Mountain : 264 305 361 318 242 272 284 270
Northeast : 255 289 334 278 207 254 256 241
Northern Plains : 288 336 362 314 182 262 246 234
Pacific : 251 278 293 290 200 254 243 224
Southeast : 241 309 306 278 235 290 280 262
Southern Plains : 211 261 277 248 222 264 273 255
--------------------------------------------------------------------------------
United States : 276 333 362 302 210 252 252 227
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
2/ Complete ration feed, fed without mixing or supplementation.
3/ Excluding pig starter.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Hog Concentrate :
: 38-42% Protein : Stock Salt
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: ---- Dollars per Ton ---- ---- Dollars per 50 LB ----
:
Appalachian : 320 357 386 349 4.50 4.60 4.60 4.80
Corn Belt : 288 352 389 306 3.70 3.80 4.00 3.90
Delta States : 290 345 366 321 3.30 3.30 3.30 3.30
Lake States : 287 339 393 300 3.80 3.90 3.90 3.90
Mountain : 338 384 438 401 3.60 3.70 3.70 3.80
Northeast : 298 356 407 366 5.30 5.10 5.40 5.50
Northern Plains : 280 340 371 333 2.70 2.80 2.80 2.80
Pacific : 296 326 343 333 3.70 3.80 4.00 4.10
Southeast : 311 368 403 372 4.10 4.20 4.20 4.10
Southern Plains : 300 349 377 351 3.50 3.50 3.50 3.50
--------------------------------------------------------------------------------
United States : 292 351 389 317 3.76 3.82 3.92 3.91
--------------------------------------------------------------------------------
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: :
: Liquid Molasses : Broiler Grower 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: ----- Dollars per Cwt ----- ---- Dollars per Ton ----
:
Appalachian : 11.10 13.20 13.00 12.90 208 264 283 284
Corn Belt : 13.40 13.70 14.90 14.20 251 315 297 264
Delta States : 9.00 9.40 9.10 9.00 198 261 240 240
Lake States : 11.50 11.60 11.50 12.00 242 307 319 276
Mountain : 11.80 13.80 13.40 12.80
Northeast : 9.20 9.40 9.40 9.40 199 291 293 273
Northern Plains : 9.20 9.70 10.40 9.90
Pacific : 15.40 15.80 14.40 14.20 190 299 286 271
Southeast : 9.30 9.60 10.20 10.20 170 238 258 246
Southern Plains : 8.10 8.50 8.80 8.70 247 309 351 291
--------------------------------------------------------------------------------
United States : 11.30 11.80 12.20 11.90 195 265 270 257
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
2/ Complete ration feed, fed without mixing or supplementation.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: :
: Chick Starter 2/ : Laying Feed 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
Appalachian : 237 315 272 262 197 243 223 214
Corn Belt : 251 322 322 284 207 272 273 225
Delta States : 211 285 265 245 169 238 224 184
Lake States : 261 326 324 285 204 279 273 237
Mountain : 235 273 271 256
Northeast : 199 293 297 280 199 243 260 216
Northern Plains : 215 266 251 240
Pacific : 181 309 304 299 184 282 240 236
Southeast : 202 246 283 269 192 234 239 226
Southern Plains : 236 286 304 296 204 276 266 245
--------------------------------------------------------------------------------
United States : 212 280 284 268 195 258 251 224
--------------------------------------------------------------------------------
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: : Soybean Meal,
: Turkey Grower 2/ : 44% Protein
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: ---- Dollars per Ton ---- ----- Dollars per Cwt -----
:
Appalachian : 223 280 264 241 13.50 16.60 18.50 17.10
Corn Belt : 236 313 314 272 10.80 14.50 16.70 12.00
Delta States : 248 335 311 310 13.40 15.70 17.70 16.20
Lake States : 252 296 297 263 10.10 14.40 16.40 11.50
Mountain : 261 317 319 283 18.00 19.80 22.70 21.30
Northeast : 238 299 287 269 12.80 15.80 18.00 14.20
Northern Plains : 248 329 302 262 11.10 14.50 16.50 13.00
Pacific : 238 335 309 283 20.60 22.00 24.00 21.90
Southeast : 251 294 305 313 15.20 17.50 19.70 17.40
Southern Plains : 254 353 356 363 14.20 16.70 18.40 17.20
--------------------------------------------------------------------------------
United States : 242 312 305 278 12.40 15.60 17.70 14.30
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
2/ Complete ration feed, fed without mixing or supplementation.
Prices Paid: Feed, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Trace Mineral Blocks
Region 1/ :--------------------------------------------------------------
: 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per 50 Lb.
:
Appalachian : 5.20 5.20 5.30 5.30
Corn Belt : 4.90 5.00 5.40 5.10
Delta States : 4.50 4.60 4.50 4.50
Lake States : 4.80 4.80 4.90 4.90
Mountain : 4.50 4.50 4.70 4.90
Northeast : 6.70 6.60 6.70 6.60
Northern Plains : 4.10 4.20 4.20 4.20
Pacific : 4.60 4.70 4.70 4.90
Southeast : 4.70 4.80 4.80 4.70
Southern Plains : 4.60 4.60 4.50 4.60
--------------------------------------------------------------------------------
United States : 4.85 4.90 5.05 4.98
--------------------------------------------------------------------------------
1/ Description of farm production regions on page B-53.
Prices Paid: Feed, United States, April 1993-98
--------------------------------------------------------------------------------
Item : Unit : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: : Dollars
: :
Alfalfa Meal : Cwt : 11.10 12.00 11.80 12.30 13.60 13.80
Alfalfa Pellets : Cwt : 11.20 12.20 12.00 12.40 13.40 13.60
Bran : Cwt : 10.90 11.30 11.20 13.00 14.20 13.80
Beef Cattle Conc. : :
32-36% Protein : Ton :261 275 251 316 325 292
Corn Meal : Cwt : 7.18 8.03 7.86 10.60 9.30 8.57
Cottonseed Meal, 41% : Cwt : 14.60 15.70 14.20 16.80 17.20 16.00
: :
Dairy Feed : :
14% Protein 1/ : Ton :167 171 162 216 202 186
16% Protein 1/ : Ton :179 187 174 225 215 194
18% Protein 1/ : Ton :184 197 183 238 230 206
20% Protein 1/ : Ton :187 198 186 239 238 207
32% Protein Conc. : Ton :285 304 276 333 362 302
: :
Hog Feed : :
14-18% Protein 1/ 2/ : Ton :198 219 210 252 252 227
38-42% Protein Conc. : Ton :305 317 292 351 389 317
: :
Molasses, Liquid : Ton : 10.30 11.00 11.30 11.80 12.20 11.90
: :
Poultry Feed : :
Broiler Grower 1/ : Ton :209 224 195 265 270 257
Chick Starter 1/ : Ton :224 234 212 280 284 268
Laying Feed 1/ : Ton :201 215 195 258 251 224
Turkey Grower 1/ : Ton :248 257 242 312 305 278
: :
Soybean Meal, 44% : Cwt : 13.20 14.10 12.40 15.60 17.70 14.30
Stock Salt : 50 Lb: 3.57 3.74 3.76 3.82 3.92 3.91
Trace Mineral Blocks : 50 Lb: 3/ 4.78 4.85 4.90 5.05 4.98
--------------------------------------------------------------------------------
1/ Complete ration feed, fed without mixing or supplementation.
2/ Excluding pig starter.
3/ Not surveyed.
Prices Paid: Chicks and Turkey Poults, By Type,
United States, Annual Average 1993-98
------------------------------------------------------------------------------
: Chicks :
:-------------------------------------------: Turkey
Year : Broiler Type : Egg-Type : Poults
: Straight-Run : Pullets :
-------------:----------------------------------------------------------------
: Dollars Per 100 Dollars Per Poult
:
1993 : 18.60 53.80 1.05
1994 : 19.30 49.70 1.06
1995 : 18.60 49.80 1.06
1996 : 18.60 53.80 1.10
1997 : 19.70 53.10 1.08
1998 : 20.40 54.50 1.15
-----------------------------------------------------------------------------
Prices Paid : Feeder and Stocker Cattle and Calves,
United States, 1993-98
-------------------------------------------------------------------------------
Year : Jan : Feb : Mar : Apr : May : Jun : Jul : Aug : Sep : Oct : Nov : Dec
-------------------------------------------------------------------------------
: Dollars per Cwt
:
1993 :89.00 89.60 89.50 87.70
1994 :86.30 83.30 77.80 74.30
1995 :78.60 74.80 70.40 66.50 64.40 66.90 66.90 66.30 65.80 65.00 62.20 64.00
1996 :59.10 57.70 56.00 52.70 54.20 58.20 60.60 61.50 63.70 61.20 63.60 63.80
1997 :67.70 70.90 71.30 75.00 77.50 77.80 83.20 80.60 80.70 79.80 79.40 81.50
1998 :80.50 80.30 78.00 80.30 77.50 73.70 68.70 69.40 66.00 71.80 72.50 71.70
-------------------------------------------------------------------------------
Prices Paid: Feeder Pigs,
United States, 1993-98
--------------------------------------------------------------------------------
Year : Jan : Feb : Mar : Apr : May : Jun : Jul : Aug : Sep : Oct : Nov : Dec
--------------------------------------------------------------------------------
: Dollars per Cwt
:
1993 : 76.50 107 76.00 87.00
1994 : 67.50 95.00 59.50 45.50
1995 : 56.00 77.50 55.00 67.50
1996 : 61.50 67.00 74.00 72.00 67.00 62.00 58.50 79.00 82.50 96.50 102 103
1997 :103 108 111 125 118 109 109 100 89.00 80.00 74.50 70.50
1998 : 62.50 74.00 62.50 64.00 66.50 64.00 1/
--------------------------------------------------------------------------------
1/Monthly Feeder pig price discontinued.
Prices Paid: Feeder Pigs, Major States 1/, 1996-98 2/
--------------------------------------------------------------------------------
: 1996 : 1997 : 1998 3/
:----------------------------------------------------------------------------
: Feb : May : Aug : Nov : Feb : May : Aug : Nov : Feb : May : Aug : Nov
--------------------------------------------------------------------------------
: Dollars Per Cwt
:
GA :60.00 56.50 61.00 81.50 78.50 83.50 66.00 76.00 65.00 58.00 41.00 35.00
IL :71.00 77.00 85.00 99.00 115.00 121.00 107.00 90.00 82.50 79.50 59.00 42.50
IN :76.50 83.50 88.00 102.00 122.00 122.00 106.00 91.00 82.50 80.00 66.00 48.00
IA :79.00 81.00 92.50 106.00 115.00 128.00 111.00 95.50 91.00 81.00 67.00 52.00
:
KS :60.50 78.50 89.00 100.00 115.00 134.00 106.00 73.50 70.50 83.00 49.00 33.50
KY :58.00 50.00 72.50 79.00 117.00 110.00 85.50 68.00 59.00 58.00 39.00 22.00
MI :79.50 83.00 74.50 88.00 101.00 102.00 97.50 89.50 85.00 87.00 66.50 53.00
MN :76.50 93.00 97.00 108.00 122.00 131.00 110.00 97.00 94.00 88.50 64.50 63.00
:
MO :64.00 57.00 73.00 83.50 107.00 114.00 96.00 73.00 86.00 66.00 60.00 36.00
NE :81.00 83.50 93.00 98.00 120.00 122.00 113.00 92.50 81.00 82.50 68.50 46.00
NC :75.50 75.50 73.50 78.50 95.50 103.00 91.00 78.50 85.00 79.00 64.00 35.00
OH :64.50 69.00 82.00 95.50 117.00 119.00 102.00 88.50 86.50 82.00 58.00 50.00
:
PA :84.50 96.00 97.00 109.00 106.00 115.00 99.00 86.00 76.00 75.00 70.00 37.00
SD :70.00 76.00 87.00 102.00 106.00 110.00 107.00 92.50 80.00 72.00 59.00 48.00
WI :72.50 78.00 78.00 90.00 117.00 118.00 97.00 86.00 75.50 74.00 50.00 32.00
--------------------------------------------------------------------------------
1/ Based on survey data reported by producers, except Kentucky where
administrative data are used.
2/ Entire month.
3/ Data series discontinued for 1999.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 0-15-40 2/ : 0-18-36 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 177 184 180 190
Mountain :
North Central : 179 186 182 189
Northeast :
Northern Plains :
Northwest :
South Central : 177 182 180 192
Southeast :
Southwest :
--------------------------------------------------------------------------------
United States : 179 186 182 189 177 183 180 191
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 0-20-20 2/ : 3-10-30 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 190 198 184 198
Mountain :
North Central : 167 170 164 165
Northeast : 193 198 204 205
Northern Plains :
Northwest :
South Central : 180 195 196 187
Southeast : 161 176 174 184
Southwest :
--------------------------------------------------------------------------------
United States : 184 194 185 195 167 170 164 165
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 5-10-10 2/ : 5-10-15 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 164 172 163 167
Mountain :
North Central :
Northeast : 165 179 158 158
Northern Plains :
Northwest :
South Central :
Southeast : 147 151 152 146 157 171 157 167
Southwest :
--------------------------------------------------------------------------------
United States : 150 155 153 148 159 171 159 167
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 5-10-30 2/ : 5-20-20 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 179 196 185 190
Mountain :
North Central :
Northeast :
Northern Plains :
Northwest :
South Central :
Southeast : 170 181 174 177
Southwest :
--------------------------------------------------------------------------------
United States : 170 181 174 177 179 196 185 190
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 6-6-6 2/ : 6-6-18 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain :
North Central :
Northeast :
Northern Plains :
Northwest :
South Central :
Southeast : 192 175 178 188 197 193 193 214
Southwest :
--------------------------------------------------------------------------------
United States : 192 175 178 188 197 193 193 214
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 6-12-12 2/ : 6-24-24 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 159 167 159 156 220 221 206 217
Mountain :
North Central : 218 232 225 228
Northeast : 232 236 234 243
Northern Plains :
Northwest :
South Central :
Southeast :
Southwest :
--------------------------------------------------------------------------------
United States : 159 167 159 156 219 232 224 228
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 8-8-8 2/ : 8-20-5 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain :
North Central :
Northeast :
Northern Plains : 202 215 218 218
Northwest :
South Central :
Southeast : 155 161 160 155
Southwest : 217 217 220 230
--------------------------------------------------------------------------------
United States : 155 161 160 155 213 217 219 226
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 8-32-16 2/ : 9-23-30 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain :
North Central : 235 249 240 235 207 220 210 214
Northeast :
Northern Plains : 233 265 236 242
Northwest :
South Central :
Southeast :
Southwest :
--------------------------------------------------------------------------------
United States : 235 251 239 236 207 220 210 214
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 10-3-3 2/ : 10-6-4 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain : 110 146 146 3/
North Central :
Northeast : 163 181 180 164
Northern Plains :
Northwest :
South Central :
Southeast :
Southwest :
--------------------------------------------------------------------------------
United States : 110 146 146 3/ 163 181 180 164
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 10-10-10 2/ : 10-20-10 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 151 148 148 145
Mountain :
North Central : 196 207 217 206
Northeast : 179 178 178 176 220 227 217 217
Northern Plains :
Northwest :
South Central : 195 212 203 192
Southeast : 177 180 179 179
Southwest :
--------------------------------------------------------------------------------
United States : 172 176 173 172 204 217 209 202
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
3/ Insufficient data.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 10-20-20 2/ : 10-34-0 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain : 261 257 263 270
North Central : 246 252 251 254
Northeast : 223 228 225 225 287 288 260 275
Northern Plains : 247 247 247 253
Northwest : 304 301 296 314
South Central : 239 236 229 238
Southeast : 218 223 221 217
Southwest : 268 283 281 291
--------------------------------------------------------------------------------
United States : 221 226 224 222 252 255 253 260
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 11-52-0 2/ : 13-13-13 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 200 207 195 201
Mountain : 272 305 286 278
North Central : 269 307 278 273 214 223 223 210
Northeast : 289 301 286 279
Northern Plains : 261 294 269 263
Northwest : 302 332 318 315
South Central : 193 194 188 183
Southeast :
Southwest : 320 349 342 334
--------------------------------------------------------------------------------
United States : 278 310 289 283 200 205 196 197
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 15-15-15 2/ : 16-0-13 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 201 209 201 198
Mountain :
North Central : 165 171 175 160
Northeast : 229 233 230 220
Northern Plains :
Northwest :
South Central :
Southeast :
Southwest : 334 348 356 345
--------------------------------------------------------------------------------
United States : 235 242 239 231 165 171 175 160
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 16-4-8 2/ : 16-6-12 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain :
North Central :
Northeast :
Northern Plains :
Northwest :
South Central : 186 184 177 170
Southeast : 226 231 230 236
Southwest :
--------------------------------------------------------------------------------
United States : 226 231 230 236 186 184 177 170
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 16-16-16 2/ : 16-20-0 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central :
Mountain : 216 232 216 215
North Central :
Northeast :
Northern Plains : 220 241 251 256
Northwest : 266 290 272 279 243 259 244 251
South Central : 220 216 210 203
Southeast :
Southwest : 259 290 278 280
--------------------------------------------------------------------------------
United States : 266 290 272 279 242 259 247 250
--------------------------------------------------------------------------------
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 17-17-17 2/ : 18-46-0 (DAP)
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 265 286 265 264
Mountain : 273 303 289 283
North Central : 262 297 277 266
Northeast : 284 297 283 271
Northern Plains : 258 283 257 253
Northwest : 320 357 304 308
South Central : 217 224 211 202 254 278 250 247
Southeast : 224 240 232 221 272 302 278 274
Southwest : 321 358 340 334
--------------------------------------------------------------------------------
United States : 222 236 226 216 263 294 272 264
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer Blends, Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: 19-19-19 2/ : 24-8-0 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 229 239 223 218
Mountain :
North Central : 234 244 232 218
Northeast : 255 243 255 246
Northern Plains :
Northwest :
South Central : 207 189 180 162
Southeast :
Southwest :
--------------------------------------------------------------------------------
United States : 240 242 233 222 207 189 180 162
--------------------------------------------------------------------------------
Prices Paid: Nitrogenous Fertilizer Materials,
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Ammonium Nitrate, : Anhydrous Ammonia,
: 33.5% Nitrogen : 82% Nitrogen 2/
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 220 235 222 191 335 309 301 249
Mountain : 223 229 233 199 335 319 313 261
North Central : 218 220 218 179 335 309 314 256
Northeast : 259 263 270 217
Northern Plains : 206 225 226 181 323 287 288 237
Northwest : 235 253 244 201 446 419 391 381
South Central : 214 216 211 180 298 267 266 222
Southeast : 236 249 242 222 368 340 307 252
Southwest : 254 284 286 259 327 381 359 353
--------------------------------------------------------------------------------
United States : 223 233 227 193 330 303 303 253
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Nitrogenous Fertilizer Materials and Soil Conditioner,
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Aqua Ammonia, : Limestone, Ground,
Region 1/ : 22%-25% Nitrogen : Spread on field
:-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 21.20 21.90 20.70 21.00
Mountain :
North Central : 13.40 13.00 13.70 13.70
Northeast : 22.30 23.30 27.60 29.80
Northern Plains :
Northwest : 123 117 110 121
South Central : 24.40 23.90 25.70 26.60
Southeast : 28.10 25.70 26.30 27.10
Southwest : 101 111 111 116
--------------------------------------------------------------------------------
United States : 109 113 111 118 17.90 17.50 18.20 18.50
--------------------------------------------------------------------------------
Prices Paid: Potash and Nitrogenous Fertilizer Materials
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Muriate of Potash, :
: (Potassium Chloride) 2/ : Nitrate of Soda, 2/
Region 1/ : 60-62% K2O : 16% Nitrogen
:-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 167 159 153 167 251 259 266 276
Mountain : 165 163 162 167
North Central : 152 151 150 161
Northeast :
Northern Plains : 157 153 154 160
Northwest : 188 185 181 198
South Central : 151 147 147 159
Southeast : 170 167 166 180 247 255 265 264
Southwest :
--------------------------------------------------------------------------------
United States : 155 153 152 163 248 256 265 266
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Nitrogenous Fertilizer Materials,
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Nitrogen Solution, 2/ : Nitrogen Solution, 2/
: 28% Nitrogen : 30% Nitrogen
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 158 158 146 125
Mountain :
North Central : 158 171 153 129
Northeast : 202 209 172 144
Northern Plains : 161 158 150 122
Northwest :
South Central : 159 155 151 131
Southeast : 164 177 158 133
Southwest : 206 254 234 206
--------------------------------------------------------------------------------
United States : 162 171 157 133 169 182 160 134
--------------------------------------------------------------------------------
Prices Paid: Nitrogenous Fertilizer Materials
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Nitrogen Solution, 2/ : Sulfate of Ammonia, 2/
: 32% Nitrogen : 20.5%-21.0% Nitrogen
Region 1/ :-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 161 164 151 129
Mountain : 194 192 197 196
North Central : 181 183 176 145 182 182 181 179
Northeast :
Northern Plains : 188 181 174 144
Northwest : 226 233 224 204 187 186 187 202
South Central : 173 171 162 140 171 158 162 153
Southeast : 178 181 160 144
Southwest : 218 237 223 197 183 200 199 195
--------------------------------------------------------------------------------
United States : 183 185 175 148 182 184 185 187
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Phosphate and Nitrogenous Fertilizer Materials,
Regions and United States, April 1995-98
--------------------------------------------------------------------------------
: Triple Superphosphate, : Urea, 2/
Region 1/ : 44%-46% P205 : 45%-46% Nitrogen
:-----------------------------------------------------------
: 1995 : 1996 : 1997 : 1998 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
E South Central : 233 254 244 250 267 271 245 185
Mountain : 251 263 274 267 270 285 272 199
North Central : 230 256 255 248 260 274 257 194
Northeast : 254 265 266 264 316 325 287 221
Northern Plains : 228 266 253 241 267 273 247 183
Northwest : 268 282 267 287 285 312 312 237
South Central : 225 241 238 233 260 265 233 182
Southeast : 232 257 268 267
Southwest : 326 323 337 338 315 351 342 280
--------------------------------------------------------------------------------
United States : 234 258 257 253 266 278 257 195
--------------------------------------------------------------------------------
1/ Description of fertilizer regions on page B-54.
2/ Items left blank were not surveyed.
Prices Paid: Fertilizer and Agricultural Limestone
United States, April 1993-98
--------------------------------------------------------------------------------
Item 1/ : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars per Ton
:
0-15-40 :
0-18-36 : 168 177 183 180 191
0-20-20 : 167 173 184 194 185 195
3-10-30 : 162 167 170 164 165
5-10-10 : 142 140 150 155 153 148
5-10-15 : 146 158 159 171 159 167
5-10-30 : 159 170 181 174 177
:
5-20-20 : 155 167 179 196 185 190
6- 6- 6 : 155 181 192 175 178 188
6- 6-18 : 203 197 193 193 214
6-12-12 : 151 148 159 167 159 156
6-24-24 : 190 200 219 232 224 228
8- 8- 8 : 148 155 161 160 155
8-20- 5 : 241 213 217 219 226
:
8-32-16 : 199 212 235 251 239 236
9-23-30 : 186 207 220 210 214
10- 3- 3 : 130 110 146 146 2/
10- 6- 4 : 173 163 181 180 164
10-10-10 : 154 159 172 176 173 172
10-20-10 : 174 185 204 217 209 202
10-20-20 : 186 191 221 226 224 222
:
10-34- 0 : 217 230 252 255 253 260
11-52- 0 : 217 233 278 310 289 283
13-13-13 : 177 184 200 205 196 197
15-15-15 : 196 205 235 242 239 231
16- 0-13 : 160 165 171 175 160
16- 4- 8 : 214 226 231 230 236
16- 6-12 : 163 186 184 177 170
:
16-16-16 : 241 266 290 272 279
16-20- 0 : 211 224 242 259 247 250
17-17-17 : 202 222 236 226 216
18-46- 0 (DAP) : 199 224 263 294 272 264
19-19-19 : 205 240 242 233 222
24- 8- 0 : 161 207 189 180 162
:
Ammonium Nitrate : 186 196 223 233 227 193
Anhydrous Ammonia : 213 243 330 303 303 253
Aqua Ammonia : 88.90 88.90 109 113 111 118
Limestone, Spread on field: 17.70 17.60 17.90 17.50 18.20 18.50
Muriate of Potash :
60-62% K2O : 146 146 155 153 152 163
Nitrate of Soda : 238 241 248 256 265 266
Nitrogen Solutions :
28% N : 129 138 162 171 157 133
30% N : 137 137 169 182 160 134
32% N : 141 155 183 185 175 148
Sulfate of Ammonia : 157 170 182 184 185 187
Superphosphate, Triple :
44-46% P205 : 190 212 234 258 257 253
Urea 44-46% : 202 207 266 278 257 195
--------------------------------------------------------------------------------
1/ Items with blanks were added in April 1994.
2/ Insufficient Data.
Prices Paid: Agricultural Chemicals, United States,
April 1995-98
--------------------------------------------------------------------------------
Item 1/ :Unit : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: : Dollars
: :
Fungicides : :
Basic Copper Sulfate 53% WP : Lb : 1.24 1.31 1.29 1.28
Benomyl (Benlate), 50% WP : Lb : 18.00 18.30 18.20 18.30
Calcium Polysulfide (Lime Sulfur) Liq.Conc: Gal : 5.96 5.94 6.14 6.39
Captain 50% WP : Lb : 3.31 3.30 3.25 3.36
Chlorothalonil (Bravo), 6#/Gal EC : Gal : 52.50 55.90 57.00 55.80
: :
Copper Hydroxide (KOCIDE 101), 77% WP : Lb : 2.51 2.58 2.56 2.53
Dodine (Cyprex), 65% WP : Lb : 9.18 9.96 9.74 10.40
Ferbam (Carbamate), 76% WP : Lb : 4.08 4.20 4.08 3.88
Fosethyl-al (Aliette), 80% WP : Lb : 15.40 16.10 13.30 12.70
Iprodione (Rovral), 50% WP : Lb : 23.00 23.30 22.80 23.20
: :
Mancozeb (Dithane 80% WP,Manzate 75% DF) : Lb : 3.11 3.23 3.32 3.35
Maneb 80% WP : Lb : 2.70 2.98 3.13 3.11
Metalaxyl (Ridomil), 2#/Gal EC : Gal :170 172 177 180
Myclobutanil (Systhane, Nova, Rally), : :
40% WP : Lb : 69.10 73.90 71.90 70.00
Oxytetraycline (Mycoshield), 17% WP : Lb : 14.70 15.90 16.20 18.00
: :
Rubigan (Fenarimol), 1#/Gal EC : Gal :293 314 301 314
Sulfur 95% WP : Lb : 0.348 0.363 0.335 0.305
Triforine (Funginex), 1.6#/Gal EC : Gal : 86.90 89.90 91.00 92.70
Triadimefon (Bayleton), 50% WP : Lb : 60.10 61.70 63.60 66.70
Ziram 76% WP : Lb : 2.78 2.85 2.98 2.88
: :
Fumigants : :
Methl Bromide (Terr-o-gas 98) : Lb : 2.85 2.96 3.24 3.17
: :
Herbicides : :
2,4-D, 4#/Gal EC : Gal : 14.20 14.80 14.90 14.90
Acetochlor(Harness, Surpass) 6.4-7#/Gal EC: Gal : 2/ 69.20 66.40
Alachlor (Lasso), 4#/Gal EC : Gal : 28.10 28.70 25.30 25.70
Atrazine (AAtrex), 4#/Gal L : Gal : 14.40 14.50 13.80 13.70
Bentazon (Basagran), 4#/Gal EC : Gal : 73.10 74.80 76.30 78.60
Butylate (Sutan), 6.7#/Gal EC : Gal : 18.00 20.80 19.60 21.10
: :
Chlorimuron-ethyl (Classic), 25% DF : Oz : 18.50 18.60 19.00 12.90
Chlorsulfuron (Glean), 75% DF : Oz : 17.80 19.10 17.70 18.20
Cyanazine (Bladex), 4#/Gal EC : Gal : 28.30 29.40 30.00 31.60
DCPA (Dacthal), 75% WP : Lb : 7.40 7.93 8.31 12.10
Dicamba (Banvel), 4#/Gal EC : Gal : 87.50 90.20 93.40 94.10
: :
Diuron (Karmex, Diurex), 80% WP : Lb : 5.14 5.20 5.25 5.26
EPTC (Eptam, Eradicane), 6.7-7#/Gal EC : Gal : 26.60 29.00 30.50 32.30
Glyphosate (Roundup), 4#/Gal EC : Gal : 54.10 55.70 56.70 56.30
Imazaquin (Scepter), 1.5#/Gal EC : Gal :214 210 225 3/
Linuron (Lorox, Linex), 50% DF : Lb : 10.90 11.70 12.00 11.90
: :
MCPA, 4#/Gal EC : Gal : 15.90 16.80 16.80 16.90
Metolachlor (Dual), 8#/Gal EC : Gal : 67.70 69.40 69.50 72.60
Metribuzin (Lexone or Sencor), 75% DF : Lb : 27.50 27.70 27.70 22.00
MSMA (Super Arsonade), 4-6# Gal EC : Gal : 23.80 23.60 24.70 24.30
--------------------------------------------------------------------------------
See footnotes at end of table. --continued
Prices Paid: Agricultural Chemicals, United States,
April 1995-98 (Continued)
--------------------------------------------------------------------------------
Item 1/ :Unit : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: : Dollars
: :
Herbicides (Continued) : :
Napropamide (Devrinol), 50% WP : Lb : 8.17 8.66 8.93 9.21
Paraquat (Gramoxone Extra), 2.5#/Gal EC : Gal : 35.00 36.20 37.80 39.00
Pendimethalin (Prowl), 3.3#/Gal EC : Gal : 28.90 29.20 29.40 29.60
Sethoxydim (Poast), 1.5#/Gal EC : Gal :112 112 101 89.60
Simazine (Princep), 4#/Gal EC : Gal : 18.20 18.40 18.20 18.50
Terbacil (Sinbar), 80% WP : Lb : 26.00 26.70 26.40 27.40
Trifluralin (Treflan), 4#/Gal EC : Gal : 32.80 32.60 31.40 29.90
: :
Insecticides : :
Acephate (Orthene), 75% SP : Lb : 11.60 12.00 12.80 12.50
Aldicarb (Temik), 15% G : Lb : 3.65 3.62 3.70 3.70
Azinphos-Methyl (Guthion), 50% WP : Lb : 8.57 8.66 8.62 8.97
Bt (Dipel 2X), WP : Lb : 13.20 12.50 12.30 12.10
: :
Carbaryl (Sevin), 80% WP : : 4.59 4.64 4.76 4.96
Carbofuran (Furadan), 15% G : Lb : 1.91 1.99 1.99 2.24
Chlorpyrifos (Lorsban), 4#/Gal EC : Gal : 49.30 51.10 50.70 51.00
Cyfluthrin (Baythroid) 2#/Gal EC : Gal :450 489 479 486
Cypermethrin (Ammo, Cymbush), : :
2.5-3#/Gal EC : Gal :260 256 252 264
Diazinon, 4#/Gal EC : Gal : 35.00 36.50 36.10 34.90
Dicofol (Kelthane), 35% WP : Lb : 9.34 9.98 10.20 10.60
Dicrotophos (Bidrin), 8#/Gal EC : Gal : 87.00 87.30 88.60 86.80
Dimethoate (Cygon), 2.67#/Gal EC : Gal : 27.00 31.20 32.90 34.70
Disulfoton (Di-Syston), 8#/Gal EC : Gal : 72.80 75.40 76.30 79.50
: :
Endosulfan (Thiodan, Phaser),3#/Gal EC : Gal : 39.70 40.30 39.10 39.40
Esfenvalerate (Asana XL),.66#/Gal EC : Gal :
Ethion 4#/Gal EC : Gal : 36.80 35.70 38.60 41.60
Fonofos (Dyfonate II), 20% G : Lb : 1.99 1.95 2.04 2.03
Imidacloprid (Admire, Provado), : :
1.6-2#/Gal EC : Gal : 2/ 537 552
Malathion, 5#/Gal EC : Gal : 22.60 23.20 24.10 25.00
Methidathion (Supracide), 2#/Gal EC : Gal : 48.70 52.20 50.60 55.70
Methomyl (Lannate L), 1.81 #/Gal : Gal : 44.10 47.00 48.00 46.70
Methyl Parathion, 4#/Gal EC : Gal : 27.30 27.50 27.30 29.40
Oil : Gal : 5.09 4.99 5.13 5.32
: :
Oxamyl (Vydate-L), 2#/Gal L : Gal : 62.40 61.90 61.80 63.50
Oxydemeton-Methyl (Metasystox-R), : :
2#/Gal EC : Gal : 60.70 64.10 63.10 66.70
Oxthioquinox (Morestan), 25% WP : Lb :
Phorate (Thimet), 20% G : Lb : 1.98 2.03 2.14 2.24
Phosmet (Imidan, Prolate), 50% WP : Lb : 4.91 5.44 5.79 6.22
Propargite (Comite, Omite), 30% WP : Lb : 5.89 6.21 6.49 6.41
Synthetic Pyrethroids, : :
(Pounce, Ambush), 2-3.2 #/Gal EC : Gal :154 156 159 162
Terbufos (Counter), 15% G : Lb : 1.91 2.20 2.31 2.56
Zeta-Cypermethrin (Fury), 1.5 #/Gal EC : Gal : 2/ 280 290
: :
Other : :
Gibberellic Acid (RyzUp,Pro-Gibb)4.0% : Gal :227 208 202 189
Nad Napthalene Acetamide : :
(Amid-Thin W), 8.4% WP : Lb : 56.20 55.80 61.50 62.80
--------------------------------------------------------------------------------
1/ Formulation abbreviations: EC - Emulsifiable Concentrate, DF - Dry
Flowable, DG - Dry Granular, G - Granular, L - Liquid, S - Solution, SP -
Soluble Powder, and WP - Wettable Powder.
2/ Added in 1997.
3/ Discontinued in 1998.
Field Seeds: Prices Paid, United States,
April, 1995-1998
-----------------------------------------------------------------------------
Item : Unit: 1995 : 1996 : 1997 : 1998
-----------------------------------------------------------------------------
: : Dollars
GRASSES : :
Bluegrass, Kentucky : :
Proprietary, Including Merion : Lb : 2.28 2.43 2.24 2.16
Public and Common : Lb : 1.59 1.72 1.53 1.52
Fescue, Tall : Cwt : 88.10 109 148 101
: :
Orchardgrass : Cwt : 148 141 119 116
Rye Grass, Annual : Cwt : 67.60 58.80 57.90 65.30
Sudangrass : Cwt : 51.80 51.90 51.40 53.70
Timothy : Cwt : 71.00 76.00 73.00 71.20
: :
LEGUMES : :
Alfalfa : :
Proprietary : Cwt : 274 277 282 288
Public and Common : Cwt : 168 185 185 205
: :
Clover : :
Ladino : Lb : 3.20 3.18 3.07 3.08
Red : Cwt : 134 172 184 194
: :
Lespedeza : :
Korean : Cwt : 66.00 99.00 90.00 89.00
Striate, Kobe : Cwt : 95.60 125 112 108
Sericea : Cwt : 178 291 220 290
: :
ROW CROPS : :
Corn, Hybrid : 1/ : 77.10 77.70 83.50 86.90
Cottonseed : Cwt : 68.20 73.00 74.90 79.30
Flax : Bu : 8.00 8.14 9.31 10.00
Grain Sorghum, Hybrid : Cwt : 78.70 84.00 92.00 96.00
: :
Peanuts : Cwt : 79.50 82.00 81.75 83.60
Potatoes : Cwt : 7.90 10.30 7.60 9.10
Soybeans : Bu : 13.40 14.80 16.10 17.15
Sunflower : Cwt : 297 313 355 380
: :
SMALL GRAINS : :
Barley, Spring : Bu : 5.37 6.49 6.13 6.04
Oats, Spring : Bu : 4.51 5.19 5.32 5.02
Rice : Cwt : 15.10 17.50 19.00 19.50
Wheat, Spring : Bu : 7.12 8.10 7.30 6.85
Wheat, Winter : Bu : 7.80 8.50 10.00 8.25
------------------------------------------------------------------------------
1/ 80,000 kernels.
Prices Paid: Farm Machinery and Tractors,
United States, April 1993-98
--------------------------------------------------------------------------------
Item and Unit : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars
:
Baler, Square, Pick-Up, :
Square, Automatic Tie, :
Conventional Size Bales :
Under 200 Lbs : 12,200 12,700 13,300 13,800 14,600 15,200
Round, 1200-1500 Lb bale : 15,300 15,900 16,600 17,100 16,900 17,300
Round, 1900-2200 Lb bale : 1/ 21,600 22,300
:
Chisel Plow, Maxiumum 1 Foot :
Depth of Tillage, Chisel or :
Sweep Type, Drawn or Mounted, :
16-20 Foot : 9,160 10,300 9,520 10,300 11,300 11,700
:
Combine, Self Propelled with :
Grain Head, :
Extra-Large capacity : 1/ 155,000 162,000
Large capacity : 1/ 130,000 137,000 135,000 140,000
:
Corn Head for combine, 6-Row : 1/ 20,100 20,800 21,700 22,400
Corn Head for combine, 8-Row : 1/ 28,500 29,000
:
Cotton Picker, Self Propelled, :
with spindle, 4-Row : 1/ 183,000 192,000 195,000 198,000
:
Cultivator, Row Crop, :
Front or Rear Mounted, :
6-Row : 4,600 4,740 4,880 5,410 5,680 5,900
12-Row, Flexible : 9,570 10,200 11,200 11,900 12,500 13,500
:
Disk Harrow, Tandem, Drawn 2/ :
15-17 Foot : 9,460 10,300 10,400 10,900 12,100 12,200
18-20 Foot : 13,200 13,900 14,600 15,700 16,100 16,600
:
Elevator, Portable, Without :
Power Unit, Auger Type, :
8 Inch Diameter, 60 Foot : 1/ 3,590 3,760 3,660 3,660
:
Feed Grinder-Mixer, Trailer :
Mounted, P.T.O. Operated : 10,600 11,300 11,700 11,800 12,200 12,900
:
Field Cultivator, Mounted :
or Drawn, :
17-19 Foot : 6,580 6,980 7,580 8,280 9,060 9,670
20-25 Foot, Flexible : 9,800 10,900 11,400 12,100 12,500 13,500
:
Forage Harvester, P.T.O., Shear :
Bar Type, Class II or III, :
99 2.24
Chlorpyrifos (Lorsban), 4#/Gal EC : Gal : 49.30 51.10 50.70 51.00
Cyfluthrin (Baythroid) 2#/Gal EC : Gal :450 489 479 486
Cypermethrin (Ammo, Cymbush), : :
2.5-3#/Gal EC : Gal :260 256 252 264
Diazinon, 4#/Gal EC : Gal : 35.00 36.50 36.10 34.90
Dicofol (Kelthane), 35% WP : Lb : 9.34 9.98 10.20 10.60
Dicrotophos (Bidrin), 8#/Gal EC : Gal : 87.00 87.30 88.60 86.80
Dimethoate (Cygon), 2.67#/Gal EC : Gal : 27.00 31.20 32.90 34.70
Disulfoton (Di-Syston), 8#/Gal EC : Gal : 72.80 75.40 76.30 79.50
: :
Endosulfan (Thiodan, Phaser),3#/Gal EC : Gal : 39.70 40.30 39.10 39.40
Esfenvalerate (Asana XL),.66#/Gal EC : Gal :
Ethion 4#/Gal EC : Gal : 36.80 35.70 38.60 41.60
Fonofos (Dyfonate II), 20% G : Lb : 1.99 1.95 2.04 2.03
Imidacloprid (Admire, Provado), : :
1.6-2#/Gal EC : Gal : 2/ 537 552
Malathion, 5#/Gal EC : Gal : 22.60 23.20 24.10 25.00
Methidathion (Supracide), 2#/Gal EC : Gal : 48.70 52.20 50.60 55.70
Methomyl (Lannate L), 1.81 #/Gal : Gal : 44.10 47.00 48.00 46.70
Methyl Parathion, 4#/Gal EC : Gal : 27.30 27.50 27.30 29.40
Oil : Gal : 5.09 4.99 5.13 5.32
: :
Oxamyl (Vydate-L), 2#/Gal L : Gal : 62.40 61.90 61.80 63.50
Oxydemeton-Methyl (Metasystox-R), : :
2#/Gal EC : Gal : 60.70 64.10 63.10 66.70
Oxthioquinox (Morestan), 25% WP : Lb :
Phorate (Thimet), 20% G : Lb : 1.98 2.03 2.14 2.24
Phosmet (Imidan, Prolate), 50% WP : Lb : 4.91 5.44 5.79 6.22
Propargite (Comite, Omite), 30% WP : Lb : 5.89 6.21 6.49 6.41
Synthetic Pyrethroids, : :
(Pounce, Ambush), 2-3.2 #/Gal EC : Gal :154 156 159 162
Terbufos (Counter), 15% G : Lb : 1.91 2.20 2.31 2.56
Zeta-Cypermethrin (Fury), 1.5 #/Gal EC : Gal : 2/ 280 290
: :
Other : :
Gibberellic Acid (RyzUp,Pro-Gibb)4.0% : Gal :227 208 202 189
Nad Napthalene Acetamide : :
(Amid-Thin W), 8.4% WP : Lb : 56.20 55.80 61.50 62.80
--------------------------------------------------------------------------------
1/ Formulation abbreviations: EC - Emulsifiable Concentrate, DF - Dry
Flowable, DG - Dry Granular, G - Granular, L - Liquid, S - Solution, SP -
Soluble Powder, and WP - Wettable Powder.
2/ Added in 1997.
3/ Discontinued in 1998.
Field Seeds: Prices Paid, United States,
April, 1995-1998
-----------------------------------------------------------------------------
Item : Unit: 1995 : 1996 : 1997 : 1998
-----------------------------------------------------------------------------
: : Dollars
GRASSES : :
Bluegrass, Kentucky : :
Proprietary, Including Merion : Lb : 2.28 2.43 2.24 2.16
Public and Common : Lb : 1.59 1.72 1.53 1.52
Fescue, Tall : Cwt : 88.10 109 148 101
: :
Orchardgrass : Cwt : 148 141 119 116
Rye Grass, Annual : Cwt : 67.60 58.80 57.90 65.30
Sudangrass : Cwt : 51.80 51.90 51.40 53.70
Timothy : Cwt : 71.00 76.00 73.00 71.20
: :
LEGUMES : :
Alfalfa : :
Proprietary : Cwt : 274 277 282 288
Public and Common : Cwt : 168 185 185 205
: :
Clover : :
Ladino : Lb : 3.20 3.18 3.07 3.08
Red : Cwt : 134 172 184 194
: :
Lespedeza : :
Korean : Cwt : 66.00 99.00 90.00 89.00
Striate, Kobe : Cwt : 95.60 125 112 108
Sericea : Cwt : 178 291 220 290
: :
ROW CROPS : :
Corn, Hybrid : 1/ : 77.10 77.70 83.50 86.90
Cottonseed : Cwt : 68.20 73.00 74.90 79.30
Flax : Bu : 8.00 8.14 9.31 10.00
Grain Sorghum, Hybrid : Cwt : 78.70 84.00 92.00 96.00
: :
Peanuts : Cwt : 79.50 82.00 81.75 83.60
Potatoes : Cwt : 7.90 10.30 7.60 9.10
Soybeans : Bu : 13.40 14.80 16.10 17.15
Sunflower : Cwt : 297 313 355 380
: :
SMALL GRAINS : :
Barley, Spring : Bu : 5.37 6.49 6.13 6.04
Oats, Spring : Bu : 4.51 5.19 5.32 5.02
Rice : Cwt : 15.10 17.50 19.00 19.50
Wheat, Spring : Bu : 7.12 8.10 7.30 6.85
Wheat, Winter : Bu : 7.80 8.50 10.00 8.25
------------------------------------------------------------------------------
1/ 80,000 kernels.
Prices Paid: Farm Machinery and Tractors,
United States, April 1993-98
--------------------------------------------------------------------------------
Item and Unit : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars
:
Baler, Square, Pick-Up, :
Square, Automatic Tie, :
Conventional Size Bales :
Under 200 Lbs : 12,200 12,700 13,300 13,800 14,600 15,200
Round, 1200-1500 Lb bale : 15,300 15,900 16,600 17,100 16,900 17,300
Round, 1900-2200 Lb bale : 1/ 21,600 22,300
:
Chisel Plow, Maxiumum 1 Foot :
Depth of Tillage, Chisel or :
Sweep Type, Drawn or Mounted, :
16-20 Foot : 9,160 10,300 9,520 10,300 11,300 11,700
:
Combine, Self Propelled with :
Grain Head, :
Extra-Large capacity : 1/ 155,000 162,000
Large capacity : 1/ 130,000 137,000 135,000 140,000
:
Corn Head for combine, 6-Row : 1/ 20,100 20,800 21,700 22,400
Corn Head for combine, 8-Row : 1/ 28,500 29,000
:
Cotton Picker, Self Propelled, :
with spindle, 4-Row : 1/ 183,000 192,000 195,000 198,000
:
Cultivator, Row Crop, :
Front or Rear Mounted, :
6-Row : 4,600 4,740 4,880 5,410 5,680 5,900
12-Row, Flexible : 9,570 10,200 11,200 11,900 12,500 13,500
:
Disk Harrow, Tandem, Drawn 2/ :
15-17 Foot : 9,460 10,300 10,400 10,900 12,100 12,200
18-20 Foot : 13,200 13,900 14,600 15,700 16,100 16,600
:
Elevator, Portable, Without :
Power Unit, Auger Type, :
8 Inch Diameter, 60 Foot : 1/ 3,590 3,760 3,660 3,660
:
Feed Grinder-Mixer, Trailer :
Mounted, P.T.O. Operated : 10,600 11,300 11,700 11,800 12,200 12,900
:
Field Cultivator, Mounted :
or Drawn, :
17-19 Foot : 6,580 6,980 7,580 8,280 9,060 9,670
20-25 Foot, Flexible : 9,800 10,900 11,400 12,100 12,500 13,500
:
Forage Harvester, P.T.O., Shear :
Bar Type, Class II or III, :
With Pick-Up Attachment : 21,100 23,000 22,000 22,600 23,500 24,200
With Row Crop Unit, 2-Row : 1/ 24,700 25,100 26,000 26,200
:
Forage Harvester, Self Propelled:
Shear Bar, 4-6 Row Crop : 1/ 177,000 191,000
--------------------------------------------------------------------------------
See footnotes at end of table. --continued
Prices Paid: Farm Machinery and Tractors,
United States, April 1993-98 (Continued)
--------------------------------------------------------------------------------
Item and Unit : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars
:
Front-End Loader, Hydraulic, :
Tractor Mounted 1800-2500 Lb. :
Capacity, 60 Inch Bucket : 1/ 4,680 4,660 4,860 4,910
:
Grain Drill, Most Common Spacing:
Plain, 15-17 Openers : 7,300 7,750 8,830 8,640 10,200 10,600
Press, 23-25 Openers :11,300 11,300 11,500 13,300 14,400 16,300
With Fertilizer Attachment, :
20-24 Openers : 9,350 9,480 9,920 10,500 11,700 12,700
Min/No-Till W/Fert. Attach., :
15 Foot :19,300 23,900 23,300 24,600 25,300 26,200
:
Hayrake, Side-Delivery, or :
Wheel Rake, Traction Drive, :
8-12 Foot Working Width : 3,670 3,780 3,980 4,040 4,240 4,410
:
Hay Tedder, 15-18 Foot : 3,630 3,830 3,890 4,000 4,120 4,130
:
Manure Spreader, Conveyor Type, :
P.T.O. 2-wheel, with Tires :
141-190 Bushel Capacity : 1/ 5,590 5,830 6,250 6,330
225-300 Bushel Capacity : 1/ 7,600 8,090 8,440 8,610
:
Mower-Conditioner, Pull Type, :
PTO, Sickle(Cutter)Bar or Disc:
8-10 Foot :10,700 11,600 11,800 12,000 12,200 12,600
14-16 Foot : 1/ 18,900 19,700
:
Mower, Mounted or Drawn, :
7-8 Foot Sickle (Cutter) Bar : 3,500 3,640 3,990 3,940 4,130 4,220
13-14 Foot Sickle (Cutter) Bar: 1/ 11,600 13,000
:
Planter, Row Crop, :
with Fertilizer Attachment, :
4-Row :11,900 12,300 12,400 13,700 13,300 14,200
8-Row :21,000 22,500 22,700 24,400 25,800 25,700
24-Row : 1/ 89,000 87,200
12-Row, Conservation (for :
No-Till Conditions) :34,600 37,800 38,600 41,100 43,900 44,300
:
Rotary Hoe, 20-25 Foot : 5,320 5,140 5,230 5,260 5,700 5,940
Rotary Cutter, 7-8 Foot : 2,800 2,680 2,760 2,670 2,860 2,810
:
Sprayer, Field Crop, Power, :
Boom Type, (Exclude Self- :
Propelled and Orchard) :
Tractor Mounted, with 300 :
Gallon Spray Tank : 3,300 3,490 3,820 3,880 4,290 4,350
Trailer Type, with 500-700 :
Gallon Spray Tank : 6,000 6,760 7,860 8,560 9,650 9,950
--------------------------------------------------------------------------------
See footnotes at end of table. --continued
Prices Paid: Farm Machinery and Tractors,
United States, April 1993-98 (Continued)
--------------------------------------------------------------------------------
Item and Unit : 1993 : 1994 : 1995 : 1996 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars
:
Tractor, 2 Wheel Drive, :
30-39 P.T.O. horsepower :14,200 14,100 14,400 15,000 15,400 15,300
50-59 P.T.O. horsepower :19,200 19,700 20,100 20,600 21,200 21,800
70-89 P.T.O. horsepower :28,500 29,200 30,700 30,900 31,800 32,800
:
110 - 129 P.T.O. horsepower :51,600 53,600 54,000 55,400 57,400 59,500
140 - 159 P.T.O. horsepower :63,600 68,500 70,000 71,500 74,800 77,100
190 - 220 P.T.O. horsepower : 1/ 102,000 105,000
:
Tractor, 4-Wheel Drive, :
200 - 280 P.T.O. horsepower :94,100 96,100 98,700 100,000 111,000 116,000
:
:
Wagon, Gravity Unload, W/Box :
and Running Gear, and Tires, :
Without Side Extensions, :
200-400 Bushel Capacity : 1/ 3,640 3,520 3,720 3,870
:
Wagon, Running Gear, W/O Box, :
8-10 Ton Capacity : 1/ 1,610 1,620 1,690 1,680
:
Windrower, Self-Propelled, :
14-16 Foot :36,400 44,600 45,800 46,900 52,100 54,500
--------------------------------------------------------------------------------
1/ Not surveyed.
2/ With hydraulic lift, transport wheels, and tires.
****************************************************************************
* The data presented in the folling tables are calculated and published *
* for use by the Forest Service, USDA and the Bureau of Land Management, *
* USDI in computing Public Land Grazing Fees. *
****************************************************************************
1998 Prices Paid Index for Beef Cattle Production (1964-68=100) 1/: 514
1/ The Index of Prices Paid by Farmers and Ranchers for Beef Cattle
Production input items is for the period of November 1997 through
October 1998. The components of this index include the production
indexes of Fuels & Energy, Farm & Motor Supplies, Building & Fencing
Materials, Interest, Farm Wage Rates, and Farm Services. These
components are weighted to the overall index value by their importance
in the cost of producing beef cattle, the weights are unchanged from
a year earlier.
Cattle: Prices Received, Selected States, 1998 1/
------------------------------------------------------------------------------
State : Beef Cattle
------------------------------------------------------------------------------
: Dollars Per Cwt
9 Great Plains States 2/ : 62.75
11 Western States 3/ : 60.01
16 Western States 4/ : 62.15
17 Western States 5/ : 62.12
------------------------------------------------------------------------------
1/ Average for November 1997 through October 1998, except NV, UT, and WA
which are marketing year averages.
2/ CO, KS, NE, NM, ND, OK, SD, TX, and WY.
3/ AZ, CA, CO, ID, MT, NM, NV, OR, UT, WA, AND WY.
4/ Eleven Western States plus KS, NE, ND, OK, and SD.
5/ Sixteen Western States plus TX.
Other Hay, Baled: Prices Received, Selected States,
Marketing Year Average, 1996-1998 1/
-------------------------------------------------------------------------------
Region : 3-Year Avg
-------------------------------------------------------------------------------
: Dollars Per Ton
Appalachia 2/ : 64.30
Corn Belt 3/ : 69.50
Florida : 90.70
Lake States 4/ : 65.90
Northeast 5/ : 98.20
Southeast/Delta 6/ : 55.50
-------------------------------------------------------------------------------
1/ Prices provided to the Forest Service, USDA to compute Eastern National
Forest grazing fees.
2/ KY, NC, TN, VA, and WV.
3/ IL, IN, MO, and OH.
4/ MI, MN, and WI.
5/ ME, NH, NY, PA and VT.
6/ AL, AR, GA, LA, MS, and SC.
Grazing Fee Rates for Cattle by Selected States and Regions
--------------------------------------------------------------------------------
: Survey Average Rates 1/
:-----------------------------------------------------------------
State : Animal Unit 2/ : Cow-Calf : Per Head
:-----------------------------------------------------------------
: 1997 : 1998 : 1997 : 1998 : 1997 : 1998
--------------------------------------------------------------------------------
: Dollars Per Month
:
AZ : 6.50 6.70 8.50 9.50 7.90 8.30
CA : 10.60 11.50 13.00 14.50 12.00 12.90
CO : 11.30 11.80 13.60 13.90 10.60 11.50
ID : 10.40 10.80 12.50 12.80 11.20 11.50
KS : 10.50 12.90 12.80 14.80 9.80 11.90
MT : 12.30 12.60 13.90 14.30 13.20 13.30
NE : 18.80 19.00 22.20 23.00 18.50 19.00
NV : 9.00 9.10 12.00 12.00 9.50 9.70
NM : 8.79 8.80 10.30 9.75 9.00 9.70
ND : 9.30 10.20 11.00 11.40 10.00 11.10
OK : 8.00 9.00 8.70 9.50 7.50 8.00
OR : 10.20 11.10 11.50 12.80 9.85 11.40
SD : 14.00 14.20 16.40 16.50 14.40 14.80
TX : 9.00 9.00 10.00 9.50 8.00 9.00
UT : 9.00 10.00 11.10 11.30 11.00 11.10
WA : 9.00 10.00 9.60 10.50 9.30 10.50
WY : 12.00 11.90 14.00 13.80 12.20 12.30
:
17-State 3/ : 11.00 11.40 12.70 13.00 10.80 11.60
16-State 4/ : 11.70 12.30 13.70 14.30 11.80 12.50
11-State 5/ : 10.70 11.10 12.60 13.00 11.30 11.80
9-State 6/ : 11.00 11.50 12.80 13.00 10.60 11.40
--------------------------------------------------------------------------------
1/ The average rates are estimates (rates over $10.00 are rounded to the
nearest dime) based on survey indications of monthly lease rates for
private, non-irrigated grazing land from the January Agricultural Survey.
2/ Includes animal unit plus cow-calf rates. Cow-calf rate converted to animal
unit (AUM) using (1 aum=cow-calf *0.833).
3/ Seventeen State: All States.
4/ Sixteen State: All States except Texas.
5/ Eleven State: AZ, CA, CO, ID, MT, NV, NM, OR, UT, WA, WY.
6/ Nine State: CO, KS, NE, NM, ND, OK, SD, TX, WY.
Report Features
Listed below are the commodity specialists in the Estimates Division of the
National Agricultural Statistics Service to contact for additional information.
Crops Branch
C. Ray Halley, Chief (202) 720-2127
Field Crops Section
Brad Parks, Head (202) 720-3843
Rhonda Brandt - Corn (202) 720-9526
Herman Ellison - Barley, Peanuts, Rice (202) 720-7688
Lance Honig - Hay, Sorghum (202) 720-3234
Roger Latham - Cotton (202) 720-5944
Mark E. Miller - Oats (202) 720-7621
Jerry Ramirez - Oilseeds (202) 690-7369
Vaughn Siegenthaler - Wheat (202) 720-8068
Fruit and Vegetable Section
Dean Groskurth, Head (202) 720-3843
Arvin Budge - Potatoes (202) 720-4285
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Version 3.00
Updated September 1998
Supersedes Ver 2.50
PRUDENT FOOD STORAGE: Questions & Answers
From the House at Cat's Green
Alan T. Hagan
"In this work, when it shall be found that much is omitted,
let it not be forgotten that much likewise is performed."
Samuel Johnson, 1775, upon
completion of his dictionary.
Courtesy of James T. Stevens
********* SPECIAL NOTE ***** SPECIAL NOTE ***** SPECIAL NOTE ********
This Version 3.0 update of the Prudent Food Storage FAQ includes a
first time event. An increasing number of people have been asking for a
printed and bound copy of the FAQ, apparently as a response to the Year
2000 computer problem and other Millennial concerns. With the aid of my
partner, Bob Hollingsworth, we have formatted, printed and bound Version
3.0 to honor these requests. Naturally, since we have spent a good deal
of our time and a not inconsiderable amount of our cash in doing this we
are not giving it away for free, but are charging $15.00 (US) per copy
plus $3.00 shipping and handling (US Postal Service Priority Mail). My
postal address may be found below and at the end of this file, or you
may e-mail me.
This print edition will be available for only for a limited time.
The reason for this is that I am presently at work on "The Prudent
Pantry: Your Guide to Building A Food Insurance Program", my first
commercial work. When completed it will contain all of the content of
this FAQ plus a good deal more that I don't presently cover such as
storage program planning, inventory control, storage locations, the best
foods to store, grain mills & other equipment, water storage and
purification along with expedient sanitation.
At this time I am not ready to give either a firm publication date
or cover price for *The Prudent Pantry*, but I am hoping for early
spring of 1999. When it is ready to go to press I will stop printing
bound FAQ copies. Due to the ever growing size of the work (presently
over 300k) I can no longer post the FAQ to the Usenet. I will, of
course, continue to make the FAQ updates available online via host sites
on the World Wide Web even after the book hits the street.
CARPE DIEM!
********* SPECIAL NOTE ***** SPECIAL NOTE ***** SPECIAL NOTE **********
ACKNOWLEDGEMENTS: Diana Hagan, my wife, and soon to be co-author,
for copious amounts of genial tolerance and endless editing; Susan
Collingwood for sage advice; BarbaraKE; Gary Chandler; Skipper Clark,
author of *Creating the Complete Food Storage Program*; Denis
DeFigueiredo; Al Durtschi for resources and encouragement; Craig
Ellis; Pyotr Filipivich; Sandon A. Flowers; Amy Gale, editor of the
*rec.food.cooking FAQ*; Geri Guidetti, of the *Ark Institute*; Woody
Harper; Higgins10; Robert Hollingsworth, for the formatting and
publishing of the hard copy edition; Jenny S. Johanssen; Kahless;
James T. Stevens, author of *Making The Best of Basics*; Amy Thompson
(Saco Foods); Patton Turner; Logan VanLeigh; Mark Westphal; a number
of folks who for reasons sufficient unto themselves wish to remain
anonymous; and last, but certainly not least, Leslie Basel, editor of
the *rec.food.preserving FAQ*, without whom I'd never have attempted
this in the first place.
Updated: 9/18/96; 4/16/97; 7/21/97; 10/20/97; 9/15/98
Copyright (c) 1996, 1997, 1998. Alan T. Hagan. All rights reserved.
Excluding contributions attributed to specific individuals all
material in this work is copyrighted to Alan T. Hagan and all rights are
reserved. This work may be copied and distributed freely as long as the
entire text, my and the contributor's names and this copyright notice
remain intact, unless my prior express permission has been obtained.
This FAQ may not be distributed for financial gain, included in
commercial collections or compilations or included as a part of the
content of any web site without prior, express permission from the
author.
======================================================================
DISCLAIMER: Safe and effective food storage requires attention to
detail and proper equipment and ingredients. The author makes no
warranties and assumes no responsibility for errors or omissions in the
text, or damages resulting from the use or misuse of information
contained herein.
Placement of or access to this work on this or any other site does
not mean the author espouses or adopts any political, philosophical or
metaphysical concepts that may also be expressed wherever this work
appears.
======================================================================
PLEASE DIRECT CONTRIBUTIONS, COMMENTS, QUESTIONS AND/OR CRITICISMS
TO:
athagan@sprintmail.com
Orders or written material may be sent to the address below:
A.T. Hagan
P.O.Box 140008
Gainesville, FL 32614-0008
FOREWORD
This work is a compilation of answers to frequently asked questions
(FAQ) concerning long term food storage. Its purpose is to promote an
understanding of the methods and techniques used to extend the nutritive
and palatability shelf lives of those foods most suitable for use in
food storage programs.
There is commonality between food storage and food preservation
even though they are not precisely the same thing. Some of the
information here may be found in greater or lesser detail in the
*rec.food.preserving* (r.f.p) FAQ compiled by Leslie Basel. If you want
the how-to's of drying fruit, making jerky, canning beans, fermenting
pickles or corning beef, I refer you to her work and the good stuff to
be found there.
In this compendium you will be taken through the ins and outs of
how to put away your storage foods and have a reasonable expectation of
getting something edible back out of the container when you finally use
them. Also covered will be food spoilage -- how to recognize it and how
to combat it. A resource list detailing where to find supplies and
further information is included at the end.
This file is updated as sufficient material becomes available. Be
of assistance -- point out mistakes, contribute data or information,
write reviews, or provide us with new sources. As a contributor you
will be cited in this file, unless you wish otherwise.
TABLE OF CONTENTS
0. Acknowledgements, Foreword, and Table of Contents
I. Shelf Lives: Time, Temperature, Moisture, Oxygen and Light
II. The Techniques of Food Storage
A. Grains and Legumes
1. Grain Varieties
2. Legume Varieties
3. Types of Availability of Grains and Legumes
- Moisture Content
- Cleaning It Yourself
4. Storing Grains and Legumes
B. Dry Milks
1. Types of Dry Milks
- Buying Dry Milk Products
2. Storing Dry Milks
- Shelf Life of Dry Milks
C. Canned Goods
1. Canned Milk Types
- Shelf Life of Canned Milks
2. Corrosion Prevention of Canned Goods
D. Sugar, Honey and Other Sweeteners
1. Types of Granulated Sugars
- Storing Granulated Sugars
2. Types of Honey
- Buying Honey
- Storing Honey
Raw Honey and Botulism
- Honey Outgassing
3. Types of Cane Syrups
- Storing Cane Syrups
4. Corn Syrup
5. Maple Syrup
E. Fats and Oils
1. Buying & Storing Oils and Fats
2. Extending Shelf Life By Adding Anti-Oxidants
F. Cooking Staples
1. Baking Powder
2. Baking Soda
3. Herbs & Spices
4. Salt
5. Vinegar
6. Yeast
G. Infant Formula
III. Spoilage
A. Insect Infestations
1. Pests of Stored Grains, Legumes and Dry Foodstuffs
2. Control of Insect Infestations
B. Molds In Foods
1. Minimizing Molds
2. Molds in Canned Goods
3. Molds in Grains and Legumes
- Preventing Molds In Grains and Legumes
C. Bacterial Spoilage
1. Botulism
2. Other Bacterial Spoilers of Food
D. Enzymatic Action In Food Spoilage
IV. Specific Equipment Questions
A. Storage Containers
1. What is Food Grade Packaging?
- Where Can I Find Food Grade Containers?
2. Plastic Packaging
- How Do I Get the Odor Out of Pickle Buckets?
3. Metal Cans
- Pooling Resources: The Church Of Jesus Christ Of
Latter Day Saints
4. Glass Jars
5. Mylar Bags
- How Do I Use Mylar Bags?
6. Reusing Or Recycling Packaging
B. CO2 and Nitrogen
1. Dry Ice
- Dry Ice Suppliers
2. Compressed Nitrogen
- Types of Availability
- Obtaining the Gas and Necessary Equipment
- Putting It All Together
- Putting It Into Use
C. Oxygen Absorbers
1. What Is An Oxygen Absorber?
2. Where Can I Find Oxygen Absorbers?
3. How Are Oxygen Absorbers Used?
D. Desiccants
1. What Is A Desiccant?
2. Types of Desiccants
- Silica Gel
- Clay Desiccant
- Calcium Oxide
- Calcium Sulfate
- Other Desiccants
3. Where Do I Find Desiccants?
4. How Do I Use Desiccants?
E. Diatomaceous Earth
1. What Is Diatomaceous Earth?
2. Where Can I Find DE and What Type Should I Buy?
3. How Do I Use DE In Food Storage?
V. Shelf Lives
A. "Best Used By", "Use By" and Other Food Product Dates
B. Closed Dating Codes Used By Some Food Manufacturers
C. Shelf Lives of Some Common Storage Foods
VI. Resources
A. Books
B. Pamphlets
C. Magazines
D. Phone, voice, non-modem
E. Electronic-online
- Information sources
- Software sources
F. Organizations
1. The Church Of Jesus Christ of Latter Day Saints
- LDS Family Cannery Guidelines
G. Food and Equipment Suppliers
1 Mail Ordering Storage Foods What You Should Know
2 Addresses of Suppliers.
- Storage Food Manufacturers
- Food Preservation Dealers & Suppliers
- Food Storage & Preservation Equipment
Manufacturers
- Diatomaceous Earth Manufacturers & Dealers
- Storage Food Retailers
=========================================================================
-- I --
SHELF LIVES: TIME, TEMPERATURE, MOISTURE, OXYGEN AND LIGHT
=========================================================================
Is your food insurance up to date?
Since the entire idea of a food storage program is that it should
be available for "you and yours" in times of need, it is important to
understand the conditions that can affect the edibles stored in your
pantry.
A storage program is only as good as the quality of the food that
goes into it. It cannot get any better than what originally went in,
but it can certainly get worse. In the fullness of time, all stored
foods will degrade in nutrient content and palatability until they reach
the inevitable end where even the dog won't eat them. It's because of
this eventuality that every article, book, and teacher concerned with
putting food by gives the same advice: *Date all food containers and
rotate, Rotate, ROTATE. The first food in should be the first food
out.* This concept is often shortened to the acronym FIFO.
The reason for this emphasis on stock rotation is that when
discussing the usefulness of foodstuffs there are really two shelf lives
to be considered. The first is the nutrient content of the food. This
actually begins to fade at the moment of harvest. Three factors dictate
nutritional shelf life: The food's initial nutritional content; the
processing and preservation steps it underwent; and its storage
conditions. Eventually the nutrition will dwindle away to nothing. At
some point you will have to decide whether the remaining nutrition is
worth the space the food is taking up and if it should be rotated out of
storage.
The second shelf life is a food's palatability life or the point at
which undesirable changes occur to its taste, texture, color and cooking
qualities. This is the reason for the "use by" and "sell by" dates on
many foods and for shelve lives in general. It will almost always be in
excess of good nutritive life. If you don't have anything to replace it
with, it's not necessary to throw food out just because it's reached the
end of its best palatable storage life. Do, however, keep in mind that
advancing age will only further decrease the useful nutrition, increase
the foods' unattractiveness and enlarge the chances that something may
cause the food to spoil.
Within reason, the key to prolonging the shelf life of your edibles
lies in lowering the temperature of the area they are stored in. The
storage lives of most foods are cut in half by every increase of 18 deg.
F (10 deg. Celsius). For example, if you've stored your food in a
garage that has a temperature of 90 deg. F, you should expect a shelf
life less than half of what could be obtained at room temperature (70
deg. F) this in turn is less than half the storage life that you could
get if you kept them in your refrigerator at 40 deg. F. Your storage
area should be located where the temperature can be kept above freezing
(32 deg. F) and, if possible, below 72 deg. F.
Ideally, your storage location should have a humidity level of 15%
or less, but unless you live in the desert it's not terribly likely
you'll be able to achieve this. Regardless, moisture is not good for
your stored edibles so you want to minimize it as much as possible.
This can be done by several methods. The first is to keep the area
air-conditioned and/or dehumidified during the humid times of the year.
The second is to use packaging impervious to moisture and then to deal
with the moisture trapped inside. If you are able, there's no reason
not to use both.
All containers should be kept off the floor and out of direct
contact from exterior walls to reduce the chances of condensation.
Another major threat to your food is oxygen. Chances are that if
you have it sealed in moisture-proof containers then they are probably
air-tight as well. This means that the oxygen can also be kept from
doing its damage. If no more can get in, your only concern is the O2
that was trapped in the container when it was sealed. Lowering the
percentage of O2 to 2% or less of the atmosphere trapped in the
packaging (called head gas) can greatly contribute to extending its
contents shelf life. The three main tactics for achieving this are
vacuum sealing, flushing with inert gas or chemically absorbing the
oxygen. Any one or a combination of the three can be used to good
effect.
Once you have temperature, humidity and oxygen under control, it is
then necessary to look at light. Light is a form of energy and when it
shines on your stored foods long enough it transfers some of that energy
to the food. This has the effect of degrading its nutritional content
and appearance. Fat soluble vitamins, such as A, D and E are
particularly sensitive to light degradation. It certainly is a pretty
sight to look at rows and rows of jars full of delicious food,
particularly if you were the one that put the food in those jars.
However, if you want to keep them at their best, you'll admire them only
when you turn the light on in the pantry to retrieve one. If you don't
have a room that can be dedicated to this purpose then store the jars in
the cardboard box they came in. This will protect them not only from
light, but help to cushion them from shocks which might break a jar or
cause it to lose its seal. For those of you in earthquake country, it's
a particularly good idea. When "terra" is no longer "firma" your jars
just might dance right off onto the floor.
Assuming they were properly processed in the first place, canned,
dried and frozen (never thawed) foods do not become unsafe when stored
longer than the recommended time, but their nutrient quality fades and
their flavor goes downhill. Following these rules of good storage will
keep your food wholesome and nutritious for as long as possible:
#1 - First In, First Out (FIFO) means rotating your storage
#2 - Cooler is better
#3 - Drier is better
#4 - Less oxygen exposure means more shelf life.
#5 - Don't shed light on your food.
Think of rotating your food storage as paying your food insurance
premiums -- slacking off on rotation cuts back on your coverage. Is
your food insurance up to date?
=========================================================================
-- II --
THE TECHNIQUES OF FOOD STORAGE
=========================================================================
In this section will be covered a number of foods that are
particularly suited to being included in storage programs along with the
various forms they can be found in and specific tips for a number of
different food categories.
A. GRAINS AND LEGUMES
A.1 GRAIN VARIETIES
One of the most important decisions in planning a food storage
program is what kinds of grains to include, but many people do not give
this adequate thought. Some just buy however much wheat or corn or rice
they think is necessary to meet their needs and leave it at that.
Others rely on pre-packaged decisions made for them by their storage
food retailer who put together a "year's supply of food" to buy all at
once. Either decision could be a major mistake.
There are a number of food storage plans one may use as a guide.
Many are based on the so-called "Mormon Four" of wheat, milk, honey and
salt, with as many additional foods as the planner found to be
desirable. When it was created in 1937, this plan may have been OK, but
we've learned a great deal since then. An unfortunate number of people
in our society develop allergies to one kind of food or another. One of
the more common food allergens is wheat. Even more unfortunate is the
fact that many people who have an allergy to wheat don't even know it.
They won't become aware of it until they try to live with wheat as a
large part of their diet. For this reason you should store what you eat
and eat what you store, so that ugly surprises such as this don't come
up when it's too late to easily avoid them.
A second reason to think about storing a selection of different
grains is appetite fatigue. There are those who think providing variety
in the diet is relatively unimportant and that if and when the time
comes they'll eat what they've got and that will be that. For healthy,
well-adjusted adults under ordinary circumstances this might be possible
without too much difficulty. However, the entire reason for having a
food storage program is for when circumstances aren't ordinary. Times
of crisis produce stress -- possibly physical, but always mental. If
you are suddenly forced to eat a diet both alien and monotonous, it is
going to add just that much more stress on top of what you are already
dealing with. If your planning includes the elderly, young children
and/or infants they might just quit eating or refuse to eat sufficient
amounts and become unable to survive. This is not a trivial problem and
should be given serious consideration. Consider the positive aspects of
adding some comfort foods.
In his book, *Making the Best of Basics*, James Stevens mentions a
post-WWII study by Dr. Norman Wright, of the British Food Ministry,
which found that people in England and Europe were more likely to reject
unfamiliar or distasteful foods during times of stress than under normal
conditions. When it's wheat, day in and day out, wheat's going to start
becoming distasteful fast. Far better to have a variety of foods on hand
to forestall appetite fatigue and, more importantly, to use those
storable foods in your everyday diet so that you'll be accustomed to
them.
[If anyone knows where I may find an actual copy of the study by
Dr. Wright, I'd appreciate it if you'd point me to it. Thanks- ed.]
ABOUT GLUTEN: As you read through the grains descriptions below
you will come across frequent mention of "gluten". Gluten is the
protein in grains that enables the dough made from them to trap the
gasses produced by yeast fermentation or chemical reaction of baking
powder or soda and in turn causes it to rise. The amount of this protein
to be found in species of grains and varieties within a species can vary
radically. Some grains such as rice have virtually no gluten at all and
will not produce a raised loaf by itself while others like hard winter
wheat have a great deal and makes excellent raised bread. Whether
gluten content is of importance to you will depend upon the end uses you
intend for your grain.
Some of the common and relatively uncommon types of grains and
their varieties are listed below.
AMARANTH: Amaranth is not a true cereal grain at all, but is a
relative of the pigweeds and the ornamental flowers we
call "cockscomb". It's grown not only for its seed, but for its leaves
that can be cooked and eaten as greens. The seed is high in protein,
particularly the amino acid lysine which is limited in the true cereal
grains. It can be milled as-is, or toasted to provide more flavor. The
flour lacks gluten, so it's not suited for raised breads, but can be
made into any of a number of flat breads. Some varieties can be popped
much like popcorn, or can be boiled and eaten as a cereal, used in
soups, granolas, and the like. Toasted or untoasted, it blends well
with other grain flours.
BARLEY: Barley is thought by some to be the first grain ever grown
by man. It has short, stubby kernels with a hull that is
difficult to remove. Excluding barley intended for malting or animal
feed, most of this grain is consumed by humans in two forms. Most
common is the white, highly processed "pearl barley" with much of its
bran and germ milled off along with its hull. It is the least
nutritious form of barley. The second offering is called "pot" or
"hulled barley" and it has been subjected to the same milling process as
pearled, but with fewer trips through the polisher. Because of this, it
retains more of the nutritious germ and bran. Unless you are prepared
to try to get the hulls off I don't recommend buying unhulled barley.
Although it can be milled into flour, its low gluten content will not
make a good loaf of raised bread. It can be combined with other flours
that do have sufficient gluten to make leavened bread or used in flat
breads. Barley flour and flakes have a light nutty flavor that is
enhanced by toasting. Whole barley is commonly used to add thickness to
soups and stews.
Recently, a hull-less form has become available on the market
through a few suppliers. This is whole grain barley with all of its
bran and germ intact and should have the most nutrients of any form of
this grain available. I have not yet been able to discover yet how
suitable it is for long term storage.
BUCKWHEAT: Buckwheat is another of those seeds commonly considered
to be a grain, but which is not a true cereal. It is
a close relative to the docks and sorrels. The "grain" itself is a
dark, three cornered seed resembling a tiny beechnut. It has a hard,
fibrous hull requiring a special buckwheat huller to remove it. Here in
the U.S., it is most often used in pancakes, biscuits and muffins. In
Eastern Europe and Russia it is known in its toasted form as "kasha".
In the Far East, it's often made into "soba" or noodles. It's also a
good bee plant, producing a dark, strongly flavored honey. The flour is
light or dark depending on how much of the hull has been removed before
grinding. Dark flour is much more strongly flavored than lighter flour,
but because of the high fiber and tannin content of its hull it is not
necessarily more nutritious. Buckwheat is one of those foods with no
middle ground in peoples opinions -- they either love it or they hate
it. Like amaranth, it's high in lysine, an amino acid commonly lacking
in the true cereal grains.
CORN: Corn is the most common grain crop in the U.S., but it is
(maize) mostly consumed indirectly as animal feed or even
industrial feedstock rather than directly as food. As one
of the "Three Sisters" (corn, squash and beans) it was the staple grain
of nearly all of the indigenous peoples of the American continents
before the advent of European colonization. It comes in an amazing
variety of forms with some being better suited for a particular purpose
than others. The varieties intended to be eaten as fresh, green corn
are very high in sugar content and do not dry or store well. The other
varieties are the flint, dent, flour, and popcorns. All of them keep
well when they have been properly dried. To a certain extent, they're
all interchangeable for purposes of grinding into meal (sometimes known
as polenta meal) or flour (very finely ground corn, not cornstarch), but
some make better meal than flour and vice versa.
As a general rule of thumb, the flint varieties make better meal as
they have a grittier texture than the other corns. If meal, hominy and
hominy grits (commonly called just "grits") are what you are most
interested in, use the flint type. If you intend to make corn masa for
tortillas and tamales, then the flour type is what you want, but it is
seldom found on the commercial market so the dent type is next best.
Popcorn is what you need if you want to pop it for snacks and it can
also be ground into meal or flour. It seems to me it makes a very good
meal, but it's a bit gritty for flour. It's also difficult to hull it
with alkali treatment. Your mileage may vary. Yellow dent corn seems
to be the most commonly available variety among storage food dealers and
will work fine for almost any purpose but popping.
Popcorn is one form of a whole grain available to nearly everyone
in the U.S. if they know where to look. It is so popular as a snack
food, particularly in movie theaters and events like fairs and ball
games, that even the smallest of towns will generally have at least one
business selling it in twenty-five or fifty pound bags. Since it's
meant to be eaten it's safe for food. To be at its most "poppable",
this corn needs to have a moisture content between 13.5%-15.5% which
makes it just a little too moist for ideal storage. A small amount of
drying will need to be done before it's packed away. If wanted for
popping later, it can always be re-hydrated by sprinkling a tablespoon
of water per quart of kernels, shaking vigorously and allowing it to be
absorbed for a day or two. If you still get too many "old maids" or
unpopped kernels then repeat the process once more. Popcorn is harder
than the other varieties of corn so if your mill is not of the heavy
duty sort you may want to consider cracking the popcorn into coarse
pieces first then grinding into finer textured meal.
Once you've decided between flint, dent or popcorn, (the flour
types are difficult to find commercially) you now have to decide upon
it's color: There are yellow, white, blue, & red dried varieties. The
yellow and white types are the most common by far with the blues and
reds mostly being relegated to curiosities, though blue corn has been
gaining in popularity these last few years. It should be kept in mind
that white corn does not have the carotene (converts into vitamin A)
content of yellow corn. Since vitamin A is one of the major limiting
vitamins in long term food storage, any possible source of it should be
utilized. For this reason I suggest storing yellow rather than white
corn. Additionally, much of the niacin content of corn is chemically
bound up in a form not available for human nutrition unless it has been
treated with an alkali. This is really of importance only if 85% or
more of your daily calorie intake will come from corn, but grits, hominy
or corn masa (for tortillas and tamales) are traditional uses for this
grain and can go a long way toward increasing the number of recipes you
can make with it. Give them a try, they're really quite good.
MILLET: Millet is an important staple grain in North China and
India, but is little known as a food in the U.S, where we
mostly use it as bird feed. The grain kernels are very small, round,
and usually ivory colored or yellow, though some varieties are darker.
The lack of gluten and a rather bland flavor may account for the
anonymity of this grain but it has a more alkaline pH than other grains
and makes it very easy to digest. It also has a higher iron content
than any other grain but amaranth. It swells a great deal when cooked
and supplies more servings per pound than any other grains. When cooked
like rice it makes an excellent breakfast cereal. It has little gluten
of its own, but mixes well with other flours.
OATS: Though the Scots and the Irish have made an entire cuisine
from oats, it is still mostly thought of in the U.S. as a
bland breakfast food. Seldom found as a whole grain, it's usually sold
processed in one form or another. Much like barley, oats are a
difficult grain to separate from their hulls. Besides its longtime role
as a breakfast food, oats make an excellent thickener of soups and stews
and a filler in meat loafs and casseroles. Probably the second most
common use for oats in America is in cookies and granolas. A little
creative thought can really increase their culinary range.
Listed below in order of desirability for storage are the forms of
oats found in this country. Rolled and cut oats retain both their bran
and their germ.
Oat groats: These are whole oats with the hulls removed. They are
not often found in this form, but can sometimes be had from natural food
stores and some storage food dealers. Oats are not the easiest thing to
get a consistent grind from so producing your own oat flour takes a bit
of experience.
Steel cut oats: Also known as Irish, pinhead or porridge (but so
are rolled) oats. These are oat groats which have been cut into chunks
with steel blades. They're not rolled and look like coarse bits of
grain. This form can be found in both natural food stores (sometimes
much cheaper) and many supermarkets.
Rolled oats: These are also commonly called old fashioned, thick
cut or porridge oats. To produce them, oat groats are steamed and then
rolled to flatten. They can generally be found wherever oats are sold.
They take slightly longer to cook than do the quick cooking oats, but
they retain more flavor, texture and nutrition. This is what most
people will call to mind when they think of oatmeal.
Quick cooking rolled oats: These are just steamed oat groats
rolled thinner than the old fashioned kind above so that they will cook
faster. They can usually be found right next to the thicker rolled
oats.
Instant rolled oats: These are the "just add hot water" or
microwave type of oat cereals and are not particularly suited for a
storage program. They do, however, have uses in "bug out" and 72 hour
food kits for short term crises.
Whole oats: This is with the hulls still on. They are sold in
seed stores and sometimes straight from the farmer who grew them.
Unless you have some means of getting the hulls off, I don't recommend
buying oats in this form. If you do buy from a seed supplier, make
certain that they have not been treated with any chemicals that are
toxic to humans.
QUINOA: Quinoa is yet another of the grains that is not a true
cereal. It's botanical name is Chenopodium quinoa
(pronounced "keen-wah"), and is a relative of the common weed
Lambsquarter. The individual kernels are about 1.5-2 mm in size and are
shaped rather like small flattened spheres. When quinoa is cooked, the
germ of the grain coils into a small "tail" that lends a pleasant
crunch. This exotic grain should be thoroughly washed before cooking in
order to prevent it from tasting bitter. There are several varieties of
quinoa that have color ranging from near white to a dark brown. The
larger white varieties are considered superior and are the most common.
RICE: Rice is the most commonly consumed food grain in the
world. The U.S. is the leading exporter of it, though we
actually only produce about 1% of the global supply. The majority of
the world's rice is eaten within five miles of where it was grown.
Much like wheat and corn, rice comes in a number of varieties, each
with different characteristics. They are typically divided into classes
by the length of their kernel grains; short, medium and long.
Short grain rice: The short grain variety is a little softer and
bit moister when it cooks and tends to stick together more than the
longer rices. It has a sweeter, somewhat stronger flavor than long
grain rice.
Medium grain rice: The medium grain variety is not very common in
the States. It has flavor like the short variety, but with a texture
more like long.
Long grain rice: The long grain variety cooks up into a drier,
flakier dish than the shorter types and the flavor tends to be blander.
It is the most commonly found size of rice on American grocery shelves.
Each of the above may be processed into brown, white, parboiled or
converted and instant rice. Below is a short discussion of the
differences between the various types.
Brown rice: This is whole grain rice with only the hull removed.
It retains all of the nutrition and has a pleasant nutty flavor. From a
nutritional standpoint it is by far the best, but it has one flaw: The
essential oil in the germ is very susceptible to oxidation and soon goes
rancid. As a result, brown rice has a shelf life of only about six
months from the date of purchase unless given special packaging or
storage. Freezing or refrigeration will greatly extend this. It's
possible to purchase brown rice from long term food suppliers already
specially packaged in air tight containers with an inert nitrogen
atmosphere or you can do it yourself. In this kind of packaging, (if
properly done), the storage life can be extended for several years.
Converted rice: Converted rice starts as whole rice still in the
hull which undergoes a process of soaking and steaming until it is
partially cooked. It is dried, hulled and then polished to remove the
bran and germ. The steaming process drives some of the vitamins and
minerals from the outer layers into the white inner layers. This makes
it more nutritious than polished white rice, but also makes it more
expensive. Its storage life is the same as regular white rice.
White rice: This is raw rice that has had its outer layers milled
off, taking with it about 10% of its protein, 85% of its fat and 70% of
its mineral content. Because so much of the nutrition is lost, white
rice sold in the U.S. has to be "enriched" with vitamins to partially
replace what was removed.
Instant rice: The type of rice is fully cooked and then dehydrated
needing nothing more than the addition of water to reconstitute it. In
a pinch, it's not even necessary to use hot water. It's not
particularly suitable for inclusion in storage programs, but it does
have a place in "seventy-two hour" and other short-term emergency kits.
The white variety is by far the most common, but in the last few years
instant brown rice has made an appearance on the market.
RYE: Rye is well known as a bread grain in the U.S. It has dark
brown kernels longer and thinner than wheat, but less gluten.
Bread made from this grain tends to be somewhat dense unless gluten is
added (often in the form of a lot of wheat flour) with color that ranges
from pale to dark brown. German pumpernickel, made with unrefined rye
flour and molasses, is the darkest, densest form.
SORGHUM: Sorghum is probably more widely known here in the States
for the syrup made from it. Also known as "milo", it is
one of the principle cereal grains grown of Africa. Its seeds are
somewhat round, a little smaller than peppercorns, of an overall brown
color with a bit of red and yellow mixed in. The varieties called
"yellow endosperm sorghum" are considered to have a better taste. It is
a major feed grain in the Southwestern U.S. and is where the vast
majority of the national production goes. Like most of the other
grains, sorghum is low in gluten, but the seeds can be milled into flour
and mixed with higher gluten flours or made into flat breads, pancakes
or cookies. In the Far East, it is cooked and eaten like rice, while in
Africa it is ground into meal for porridge. It's also fermented for
alcoholic beverages.
TRITICALE: Triticale is not a creation sprung from the
smooth brows of *Star Trek* script writers. It is,
in fact, a cross or hybrid between wheat and rye. This youngest of
grains combines the productivity of wheat with the ruggedness of rye and
has a high nutrition value. The kernels are gray-brown, oval shaped
larger-than-wheat and plumper than rye. It can be used in much the same
way as either of its two parents. It will make a raised bread like
wheat does, but the gluten is a bit weak so wheat flour is frequently
added to strengthen it. Because of the delicate nature of its gluten,
excessive kneading must be avoided. Although it is the youngest of the
grains, it's been around for decades, but has curiously never achieved
much popularity. Whether this is for reasons of agricultural production
or public acceptance I don't know.
WHEAT: Wheat comes in a number of different varieties. Each
variety is more suitable for some purposes based on its
characteristics. The most common classifications for its varieties are
spring or winter, hard or soft, red or white.
The hard wheats have kernels that tend to be small, very hard and
with high gluten contents. Low gluten wheat does not produce as fine a
loaf as high gluten wheat, though it can still be used for yeast breads
if necessary. As a general rule, hard varieties have more protein than
soft varieties.
The soft wheats have kernels tending to be larger, plumper and
softer in texture than hard wheats. Their gluten content is less and
are used in biscuits, pastries, quick breads, pastas, and breakfast
cereals where a higher gluten content would contribute an undesirable
tougher texture.
Winter wheats are planted in the fall, over winter in the field and
are harvested the next summer. Spring wheats are planted in the early
spring and are harvested in the fall. Red wheats comprise most of the
hard varieties while white wheats comprise most of the soft. Recently,
hard white wheats have been developed that are very suitable for raised
bread making. Some feel the hard white varieties make a better tasting
whole wheat bread than the hard red.
The hard red varieties, either spring or winter, are the most
commonly stored because of their high protein and should have no less
than 12%. The hard white spring wheats are still relatively new and are
not yet as widespread. They have the same excellent storage
characteristics as the hard red wheats.
A.2 LEGUME VARIETIES
Unless you are willing to spend a great deal of money on preserved
meats, a food storage program not including a large quantity of legumes
is simply incomplete. There are few non- animal foods that contain the
amount of protein to be found in dried beans, peas, and lentils. The
varieties commonly available in this country have protein contents
ranging from 20%-35%. As with most non-animal proteins, they are not
complete in themselves for purposes of human nutrition, but become so
when they are combined with the incomplete proteins found in grains. It
is for this reason that grains and legumes are so often mentioned
together. In cultures all over the world, it is common to find the two
served together at a meal, making a complete protein, even when those
doing the serving have no scientific understanding of nutrition at all.
The legume family, of which all beans, peas, lentils, and peanuts
are a part, is one of the largest in the plant kingdom. Because of this
and the many thousands of years of development and cultivation that man
has given them, the variety of edible legumes available to us is huge.
Both the appearance and the names of these varieties are colorful and
varied. They range from "adzuki beans", a type of soybean from the
Orient, to "zipper peas", a commonly found field-pea here in the
Southern U.S. Their color can range from a clean white, to deep red,
dull green to flat black with thousands of mixtures and patterns of
colors.
In spite of this incredible variety of names and colors, legumes
are largely interchangeable in cooking usage, although some dishes just
wouldn't be the same if a different type were used. Below is a partial
list of some of the more commonly eaten bean varieties here in the U.S.
BLACK BEAN: Also known as "turtle beans", these small, dark
brownish-black, oval-shaped beans are well known in
Cuban black bean soup. They are very commonly used in Central and South
America and in China. They tend to bleed very darkly when cooked so
they are not well suited to being combined with other beans, lest they
give the entire pot a muddy appearance.
BLACK-EYED PEA: Although there is tremendous variation among the
many varieties of field-peas eaten throughout
the Southern United States, it is black-eyed peas that are the most
commonly known nationwide. The coloring of field-peas is as varied as
the rest of the legume family, with black-eyed peas being small, oval-
shaped with an overall creamy color and, of course, their distinctive
black-eye. Dried field-peas cook very quickly and combine very tastily
with either rice or cornbread.
CHICKPEA: Also known as the "garbanzo bean" or "cecci pea" (or
bean), it tends to be a creamy or tan color, rather
lumpily roundish and larger than dried garden peas. Many have eaten
chickpeas, even if they've never seen a whole one. They are the prime
ingredient in hummus and falafel and are one of the oldest cultivated
legume species known, going back as far as 5400 B.C. in the Near East.
KIDNEY BEANS: Just like the rest of the family, kidney beans can be
found in wide variety. They come in both a light and
dark red color in their distinctive kidney shape. Probably best known
here in the U.S. for their use in chili, they figure prominently in
Mexican, Brazilian and Chinese cuisine.
LENTILS: Lentils are an odd lot. They don't fit in with either the
beans or the peas and occupy a place by themselves. Their
shape is different from the other legumes being roundish little discs
with colors ranging from muddy brown, to green to a rather bright
orangish-red. They cook very quickly compared to the larger beans and
have a distinctive flavor. They are much used in Far Eastern cuisine
from Indian to Chinese.
LIMA BEANS: In the Southern U.S., they are also commonly called
"butter beans". They are one of the most common
legumes found in this country in all manner of preservation from the
young small beans to the large fully mature type. Their flavor is
pleasant, but a little bland. Their shape is rather flat and broad with
colors ranging from pale green to speckled cream and purple.
PEANUTS: The peanut, commonly known outside the U.S. as the
"groundnut", is not actually a nut at all, but a legume.
They are another odd species not much like the more familiar beans and
peas. Whatever their classification peanuts are certainly not
unfamiliar to U.S. eaters. Peanuts have a high protein percentage and
even more fat. They are one of the two legume species commonly grown
for oilseed in this country, and are also used for peanut butter, and
boiled or roasted peanuts. Many Central and South American, African and
Chinese dishes incorporate peanuts so they are useful for much more than
just a snack food or cooking oil.
PINTO BEANS: Anyone who has eaten Tex-Mex food has probably had
the pinto bean. It is one of the most commonly eaten
beans in the U.S., particularly in the Southwestern portion of the
country. Stereotypically bean shaped, it has a dappled pattern of tans
and browns on its shell. Pintos have a flavor that blends well with
many foods. When ground together with white or navy beans they make my
favorite home-made version of falafel.
SOYBEANS: An entire university could be founded on the culinary and
industrial uses of the soybean. It is by far the legume
with the highest protein content in commercial production as well as
being the other legume oilseed alongside the peanut. The beans
themselves are small, and round with a multitude of different shades.
Because of their high oil content, they are more sensitive to oxygen
exposure than other legumes and precautions should be taken accordingly
if they are to be kept for more than a year in storage. Although the
U.S. grows a very large percentage of the global supply, we consume
virtually none of them directly. Most of them go into cattle feed, are
used by industry or exported. What does get eaten directly has usually
been processed in some fashion. Soybean products range from tofu, to
tempeh, to textured vegetable protein (TVP) and hundreds of other uses.
They don't lend themselves well to just being boiled until done and
eaten the way other beans and peas do. For this reason, if you plan on
keeping some as a part of your storage program (and you should) you
would be well served to begin to learn how to process and prepare them
now when you're not under pressure to produce. That way you can throw
out your mistakes and order pizza, rather than having to choke them
down, regardless.
A.3 TYPES OF AVAILABILITY OF GRAINS AND LEGUMES
Grains and legumes of all types may be purchased in a number of
different fashions depending largely on where you live and what time of
year it is. The following will cover the various steps in the
processing chain where they might be found starting with the forms most
immediately suitable for storage and progressing all the way back to the
farmer.
Each type of availability has its good and bad points. As you
might expect, the more processing the product receives, the higher its
price is likely to be. The further back along the processing chain you
go the cheaper the product should become in terms of purchase price. It
will, however, cost you more in time and effort to get it into a
condition ready to put it into storage.
The easiest and simplest way to incorporate grains and legumes into
your storage program is to purchase your items "pre-cleaned and
pre-packaged". This is grain or legumes that have been harvested,
cleaned and put up in bags or other containers-possibly even going so
far as to already be packaged for long-term storage. If you don't live
in the area where they are grown, it is probably your only option.
If you want to purchase in bulk then you may be able to find
"pre-cleaned" which means that it has been passed through fans, screens
or sieves to remove chaff, smut balls, insect parts, mouse droppings and
other debris. It probably won't be in any form of packaging and you may
have to provide your own container. There may be minimum purchase
amounts as well. If the moisture content is in the right range then
nothing will need to be done other than to put it up in your own storage
packaging. Be certain to make sure it is intended for human food use,
otherwise read the cautionary text below.
Should you happen to live in the area where the type of grain or
legume that you are interested in purchasing is grown you may be able to
purchase direct from the producer or distributor.
If you are interested in doing this, it may be possible to find
your product "field-run" which means that it's been harvested and sold
shortly thereafter. It will not have been given any cleaning or
processing and is likely to be rather dirty depending upon the
conditions under which it was grown and harvested.
A second form called "field-run from storage" is product that has
been harvested and then put into storage for a time. It will have all
of the dirt and detritus of field run grain and whatever it may have
picked up from the silo as well.
IMPORTANT NOTE: If you have purchased your grains and legumes
from a foods dealer then you needn't worry about
hidden mold infections, fungicides or insecticides that are unsafe for
human consumption. In the U.S., the products will have been checked
several times by Federal and State agriculture departments and probably
by the major foods dealers as well, to ensure its quality.
This is not necessarily the case when you purchase your grains or
legumes directly from the farmer or elevator operator as field-run or
field-run from storage grain. Nor is it necessarily the case if you've
made the decision to utilize grains marketed as animal feed. Inspection
procedures vary from nation to nation, so if you buy outside of the U.S.
inquire of your supplier.
If you are buying your grains and legumes from some place other
than a foods dealer, you need to know the history of what you are
buying. There is the remote possibility that field-run from storage or
any grade of grain not specifically sold for human consumption may have
had fumigants, fungicides or insecticides not certified as safe for
human foods added while it was in the bin. It is important to know what
it has been treated with before you buy it.
Straight field-run grain, other than being dirty, is not likely to
have had anything added to it that would make it undesirable for human
consumption. There is, however, the also remote possibility it may have
been infected with fungi that would make it unsafe for eating.
One of these fungal infections of grain is called "ergot". This
fungal disease affects the flowering parts of some members of the grass
family, mostly confined to rye. Consuming the fungus causes a nervous
disorder known as St. Anthony's Fire. When eaten in large quantities
the ergot alkaloids may cause constriction of the blood vessels,
particularly in the extremities. The effects of ergot poisoning are
cumulative and lead to numbness of the limbs and other, frequently
serious, symptoms.
The fungus bodies are hard, spur like, purple-black structures that
replace the kernel in the grain head. The ergot bodies can vary in size
from the length of the kernel to as much as several times as long. They
don't crush as easily as smut bodies of other funguses. When they are
cracked open, the inner broken faces can be off-white, yellow, or tan.
The infected grain looks very different from ordinary, healthy rye
grains and can be spotted easily. Ergot only rarely affects other
grains and will generally afflict rye only when the growing conditions
were damp. If you purchase field run rye, you should closely examine it
first for the presence of ergot bodies. If you find more than a very
few, pass up that grain and look elsewhere.
Ergot is typically not a common problem in the U.S and is easily
spotted when it does occur. Other grain fungi, however, are much harder
to spot and also have serious consequences should they be consumed. The
various species of "Aspergillus" and "Fusarium" molds can be a problem
almost anywhere and should be kept in mind. *Please see Section III.B
Molds In Grains and Legumes for more information concerning this.*
Sometimes grain in the form of animal feed or seed grain/legumes is
available. Keep in mind animal feeds may have a higher contaminant
level than what is permissible for human consumption. Under certain
circumstances, the USDA allows the sale of grain or legumes for animal
feed that could not be sold for direct human food use. It may even be
mixed varieties of one grain and not all one type. Seed grains, in
particular, must be investigated carefully to find out what they may
have been treated with. It is quite common for seed to have had
fungicides applied to them, and possibly other chemicals as well. Once
treated, they are no longer safe for human or animal consumption.
If you do purchase field-run grain of any sort, examine it closely
for contamination and moldy grain. Ask the farmer or distributor
whether it has been tested for mold or "mycotoxin" (fungal toxin)
content. This is especially the case if you are buying field-run CORN,
RYE, SOYBEANS or RICE. When you purchase direct from the field, you
may be getting it before it has been checked. Be certain of what it is
that you are getting and ask questions if you choose to go this route.
Know who you are dealing with. Unless you just can't find any other
source, I don't recommend using animal feed or seed grains for human
food.
*Please see section III.B.3 " Molds In Grains and Legumes" for
further information.*
A.3.1 MOISTURE CONTENT
The moisture content of the grain or legume you want to put by has
a major impact on how long you will be able to keep it in storage and
still remain nutritious and edible. Some of the available literature
states that grain with a moisture content as high as 13% can be safely
put up, but there is a risk to keeping it at that moisture level that
should be understood.
The outside of every kernel of grain and bean you buy or grow hosts
thousands of fungi spores and bacteria. This is all perfectly natural
and is not a reason for alarm. The problem lies in that at moisture
levels between 13.5% to 15% some fungal species are able to grow and
reproduce. Aerobic bacteria (needing free oxygen to survive) require
moisture in the 20% range. If you have grain with a moisture content as
high as 13% you are perilously close to having enough moisture to enable
mold growth which could lead to the spoilage and loss of your product.
For this reason, I suggest you keep all grains and legumes to a moisture
content of no more than 10%. An exception to this is raw peanuts which
are particularly susceptible to an Aspergillus mold growth that produces
aflatoxin (a type of mycotoxin) and should be stored with an 8% moisture
content or less.
If you do not have a clue as to what the moisture level of your
grain is here are several methods to determine it. The first method
requires a great deal more oven time, but is the simplest and has less
room for error to creep in. The second method is much quicker, but
greater care must be taken to prevent mistakes.
Highly precise moisture content measurements generally require
equipment and facilities beyond the scope of what can be had by the
average person. It is still possible though to make some determinations
that will be of real use for our purposes.
You'll need some way to measure weight with a fair degree of
accuracy. The better the scale you use, the more reliability you'll
have in your determinations. Provided that it will weigh accurately to
the half-ounce or less, any scale that can be calibrated with a known
check weight will do. Even postal scales can be made to serve if they
are carefully calibrated against a known weight. Many individuals
interested in starting storage programs may have grain weight scales
used in ammunition reloading that might serve well.
Also necessary is a thermometer capable of withstanding and
accurately measuring oven temperatures. As many bakers can tell you,
home oven thermostats are often notoriously inaccurate so it is better
to rely on a decent thermometer. Most kitchen supply stores can supply
one that is oven safe and will accurately measure to the degree
Fahrenheit or Celsius.
Proper technique calls for preheating the oven for a half-hour or
more before starting the dehydrating process so that it will be of a
uniform heat throughout. The sample pan should be placed on the middle
rack as close to the vertical and horizontal center of the oven as
possible. The bulb or dial of the thermometer should be placed next to
the pan.
METHOD ONE.
This method is for measuring moisture content in whole grains and
legumes. Grain flours or meals, milk powders and any other finely
textured foods should use method two detailed below.
To be done prior to measuring -- choose a shallow heat resistant
container that has a close fitting lid. Clean it thoroughly and dry it
completely in your oven for 10-15 minutes. Allow it to cool and then
weigh it carefully. This will give you the tare weight or what your
container weighs empty.
Depending on how your scale is calibrated you can use a smaller
sample size than what is indicated below. Using the twenty-ounce sample
mentioned in the following text will allow for fairly accurate readings
with the average postal scale. A scale that will measure to the gram
could use as small a sample as 20 grams. A powder scale could use even
less, but the smaller your sample size becomes the more finicky care you
must take not to allow error to creep in. Keep your sample size large
enough to easily work with.
Allowing for the weight of the sample pan, measure out a weighed
twenty-ounce representative sample of the grain or legumes in question.
Ideally, you should mix the entire lot thoroughly immediately before
removing the sample, but if this is not possible then take it from the
middle center of the container. It is important that you use care in
this measurement since it will affect all following determinations.
Put the sample in the container making sure it is not more than an
inch deep. Place it in the oven with the lid off and allow to heat.
Below is a table giving the oven temperatures and times per grain or
legume type:
Time and Temperature Settings for Determining Moisture
Contents of Whole Seeds.
------------------------------------------------------
Oven Temperature Oven Time
Seed Deg. F C Hours
Barley 266 130 20
Beans 217 103 72
Corn 217 103 72
Oats 266 130 22
Rye 266 130 16
Sorghum, millet 266 130 18
Soybeans, peanuts 217 103 72
Wheat, rice 266 130 19
When the dehydration period is over place the close fitting
lid on the sample pan and allow to cool in the oven with the door
closed. Remove the pan and carefully weigh it.
A one ounce loss in weight indicates your grain has a roughly five
percent moisture content, 2 ounces indicates that it has a 10% moisture
content, etc., etc. You might even be able to cut it as fine as a half
oz loss, but I wouldn't try to take it further than that.
Obviously, this is only a rough measure, but it works and can be
done with postal or dietetic scales that are available virtually
everywhere. As I mentioned above, if you have a scale with a finer
calibration it is possible to use a smaller sample size and achieve the
same result.
If anyone has a better way of measuring moisture levels which can
be done without a lab or special equipment I'd surely like to hear it.
METHOD TWO
This method is much faster to use than the first, but greater care
must be taken to prevent error. It can be used to determine moisture
contents of whole grains and legumes, flours, meals and various food
powders.
The same equipment as was used in Method One will be required here
as well as a low-RPM grain mill or some other device that can reduce a
quantity of the grain to a meal consistency with only minimal heating of
the sample. If the food to be tested is already at a meal consistency
or finer then it can be used as-is.
Grind a quantity of product you want to measure the moisture
content of. Take care to grind the sample slowly enough to keep
friction heat build up to a minimum or else moisture will be lost due to
heat evaporation before it can be weighed.
Immediately upon finishing the grinding, weigh out your sample so
as to minimize unmeasured moisture loss.
Place the sample in the oven and dehydrate in the manner used in
Method One for a period of two hours at a temperature setting of 275
deg. F (135 deg. C). When the heating period is finished cover with the
tight-fitting lid and allow to cool in the oven. Remove and weigh
carefully. Moisture determination is the same as above.
A.3.2 CLEANING IT YOURSELF
If you've chosen to purchase field-run grain or if the pre-cleaned
product you've bought isn't clean enough, you can do it yourself.
The fastest and easiest method is "fanning", a form of winnowing.
This is done by pouring the grain slowly through the air stream of a fan
or blower into a clean, deep container such as a cardboard box or trash
can. The wind blowing through the falling grain will blow out most of
the broken kernels, chaff, smut balls, mouse droppings, etc. If you're
losing too much good grain, try turning the fan down or moving it
further back from the container. The deep container will cut down on
the amount of kernels that bounce out. Repeat fanning as necessary
until the grain is clean enough to suit or you've blown all of the
lighter contaminants out.
If the fanning didn't get the grain clean enough it can be
further cleaned by running it through a screen or sieve. This
should be made with holes just big enough to pass an average sized
grain of what it is you're cleaning. Obviously, the size of the
holes will necessarily vary depending upon the kernel size of the
grain.
Should the kernels still not be clean enough to suit then you'll
just have to resort to hand picking out the offending particles. I'd
strongly suggest doing this just prior to grinding where it can be done
in small batches rather than trying to do your entire storage all at
once. It's much easier to do a few pounds at a time than fifty or a
hundred.
If you have it in mind to wash the grain, this should not be done
prior to storage, but, rather, just before use. After it's been rinsed,
it should be dried immediately in the oven by placing it no deeper than
1/2 inch and heated at 150 deg. F for an hour. It should be stirred
occasionally to improve drying.
A.4 STORING GRAINS AND LEGUMES
Now that you have properly prepared your grains and legumes for
storage, they are ready to be packaged.
*For methods and procedures of packaging please see section IV.*
IV. Specific Equipment Questions
A. Storage Containers
B. CO2 and Nitrogen
C. Oxygen Absorbers
D. Desiccants
E. Diatomaceous Earth
B. DRY MILKS
Got milk? In the refrigerator, right? Milk is a great source of
essential amino acids and vital calcium, but in its fresh liquid form it
is a highly perishable commodity. Fortunately, milk can be found in
several forms that lend themselves to food storage. The various types
of dry milks are the best suited to the task.
B.1 TYPES OF DRY MILKS
NONFAT: This is pasteurized skim milk reduced to a powdered
concentrate. It can be found in two forms, regular and
instant. They are both made from milk in a spray-drying process, but
the instant variety has been given further processing to make it more
easily soluble in water than regular dry milk. Both types have the same
nutrient composition. The regular variety is more compact and requires
less storage space than the instantized variety, but it is more
difficult to reconstitute. The most easily found variety is the
instant, available in nearly any grocery store. The regular variety has
to be sought out from baking and restaurant suppliers and storage food
dealers.
It takes 3.2 oz or about 3 tablespoons of instant nonfat dry milk
added to 8 oz of water to make 1 cup of milk you can drink or cook with
just like fresh milk, albeit with a considerable flavor difference.
Combining the dry milk with water at least several hours before you plan
to use it gives it time to dissolve fully and to develop a fresher
flavor. Shaking the fluid milk vigorously will incorporate air and will
also help to improve flavor. Add the powder to baked goods, gravies,
smoothies, hot cereals, casseroles and meat loaf as a nutrition booster.
It can also be used to make yogurt, cheese and most any cultured dairy
product that does not require a high fat content.
FLAVORED NONFAT: This may be found packaged in a variety of forms
from a low calorie diet drink (artificially
sweetened) to the other end of the scale, as cocoa mix or malted milk.
The key ingredient is the dry milk so buy and store these products
accordingly.
WHOLE MILK: This is whole dry milk with all of its fat content
and therefore has a shorter shelf life than nonfat.
Other than that, it can be used in exactly the same way. Dry whole milk
is difficult to find, but can sometimes be found where camping and
outback supplies are sold.
BUTTERMILK: Dry buttermilk is for use in recipes calling for
buttermilk. Since it has a slightly higher fat
content than nonfat dry milk, it generally does not keep as long.
B.1.1 BUYING DRY MILK PRODUCTS
(a)- Be sure the dry milk you are buying has been fortified with
vitamins A and D. All of the nonfat dry milks I've seen come fortified
with these two vitamins. The dry buttermilk does not come this way, at
least the SACO brand does not. I don't know if the flavored mixes and
the dry whole milk do or not.
(b)- There should be no artificial colors or flavors. I believe it
is illegal to add preservatives to any dry milk sold in the U.S. so a
claim of "no preservatives" on the label is of no consequence. Other
nations may be different, however.
(c)- "Extra Grade" on the label indicates the manufacturer has held
to higher processing and quality standards and the milk is somewhat
lower in fat, moisture and bacterial content, is more soluble, and has
fewer scorched particles.
There are still some manufacturers of dry milk that sell ordinary
Grade A product, but they are becoming fewer. Every brand of instant
powdered milk in my local grocery store is the Extra Grade, even the
generic store brand. This, too, may vary outside of the States.
(d)- Try to buy your dried milk in containers of a size that makes
sense for the level of consumption in the household. Once it is opened,
powdered milk has a short shelf life before undesirable changes in
flavor and nutrient content occurs. If you buy large packages and do
not use much at one time, consider breaking it down and repackaging into
smaller containers at the time of purchase.
(e)- As with any storage food you buy, try to deal only with
reputable dealers. It is particularly important to do this with dry
milk because of its short shelf life and sensitivity to storage
conditions. Check expiration dates, then date and rotate packages.
B.2 STORING OF DRY MILKS
Dry milk products are probably the most sensitive to environmental
conditions storage foods there are, particularly to temperature and
moisture content. Their vitamins A and D are also photosensitive and
will break down rapidly if exposed to light.
The area where your dry milk is stored should be kept as cool as
possible. If it is possible to do so, air-conditioning or even
refrigeration can greatly extend the nutrient shelf life.
If the storage container is transparent or translucent then it
should be put into a second container opaque to light or stored in a
dark room.
Dry milk will absorb moisture and odors from the air so storage
containers should be impervious to both air and moisture. The drier it
can be kept, the better it will keep. The use of desiccants is an
excellent idea. Oxygen also speeds decomposition. Powdered milk canned
with nitrogen or carbon dioxide to replace air (which contains oxygen)
will keep longer than powdered milk exposed to air. Vacuum canning also
decreases the available oxygen.
If the dry milk purchased was not packaged for long term storage
then it should be repackaged right away.
I purchase the instant variety at my local grocery and repack it
when I get it home. I've seen a number of methods used for this and any
of them should work.
The method I now use is to pour the powder into clean, dry
half-gallon canning jars. Once the jars are filled I add a small
desiccant pack and seal. They are dated and stored in the ubiquitous
cool, dark place. They must be guarded against breakage, but they offer
the advantage of not holding odors, thus allowing for reuse after
suitable cleaning. Since they are as transparent the contents must be
protected against light. Vacuum sealing and then storing in a dark
place may be the best method. Larger jars of 1 gallon size could be
used and then re-vacuum sealed after each use. An O2 absorber would
take care of any remaining oxygen and would, itself, last longer when
used in conjunction with the vacuum sealer. Being glass, the jar can be
reused as well as the lid and ring if they're properly cleaned.
Clean, sound plastic one and two liter soda bottles can also be
used, but probably should be used just once since the plastic is
somewhat permeable and will hold odors.
If you have access to a can sealer, #10 cans make wonderful storage
containers for dry milk, particularly if used in conjunction with O2
absorbers.
Another method I've seen used is to remove the paper envelopes of
milk powder from the cardboard box they come from the grocery store in
and to put them in dated plastic bags. These bags are not sealed. The
unsealed bags are then placed in a larger, air tight, opaque container.
I've heard of plastic buckets, fifty cal and 20 mm ammo cans being used
for this purpose. A healthy quantity of desiccant was also placed in
the container. This would be another area where O2 absorption packets
should serve well. It's important to remember the containers should be
clean and odor-free.
*Please see Section IV Specific Equipment Questions for information
concerning the proper use of containers, desiccants, compressed gasses,
dry ice and oxygen absorbers.*
B.2.1 SHELF LIFE OF DRY MILKS
From: SacoFoods@aol.com (Amy Thompson)
To: Dunross@dkeep.com (Alan Hagan)
Subj: SACO Mix'nDrink Instant Pure Skim Milk
Date: May 9, 1996
Dear Mr. Hagan:
Thank you for your e-mail today and for your interest in SACO
Mix'nDrink Pure Skim Milk.
Our Mix'n Drink will keep its nutrition value for up to about two
years if kept cool and dry, and the only vitamins that actually decrease
over time are the vitamins A and D. These are not shelf-stable vitamins
and are sensitive to heat and light. A good rule of thumb to follow is
that the vitamins A and D will dissipate at a rate of about 20% every
year if stored properly. The less heat and moisture the milk is exposed
to, the better the vitamins will keep. A freezer could extend the shelf
life, as long as the powder does not get moisture in it. If you had to
put a time limit on the Mix'nDrink, for rotation purposes, I would date
it at two years after the date of purchase.
After opening a package of dry milk, transfer the powder to a
tightly covered glass or metal container (dry milk can pick up odors
from plastic containers) and keep it in the refrigerator. Unsealed
nonfat dry milk keeps for a few months; dry whole milk for a few weeks.
------------------------------------------------------------------
From: SacoFoods@aol.com (Amy Thompson)
To: Dunross@dkeep.com (Alan Hagan)
Subj: SACO Mix'nDrink Instant Pure Skim Milk
Date: May 21, 1996
Dear Mr. Hagan:
Since vitamins A and D are heat and light sensitive, I would say
that your 1 1/2 year shelf life is very reasonable. If you are trying
to determine when the nutritional value has been affected more than 40%,
as you previously indicated, you should be pretty safe with that time
element, as long as it is not exposed to extreme heat.
[Eds note: We were discussing the higher average temperatures found in
Florida and other hot climates and the effect that it would have on
their dry milk's nutrient content]
C. CANNED GOODS
C.1 CANNED MILK TYPES
Preserved liquid milk comes in a number of forms, none of which are
very similar to each other. The most common forms of these packaged
milks are as follows:
CANNED MILKS: These are commonly called UHT milks (Ultra High
Temperature) for the packaging technique used to put
them up. They come in the same varieties as fresh liquid milks: Whole,
2%, 1% and skim. I've even found whipping cream in UHT packaging (Grand
Chef - Parmalat), though this may be offered only in the commercial and
restaurant trade. In the U.S. they have vitamin D added. The lesser
fat content milks do not keep as long as whole milk and their use by
dates are correspondingly shorter term. This milk is packaged in
aseptic containers, either cans or laminated paper cartons. It has the
same composition as fresh milk of the same type, and can be stored at
room temperature because of the special pasteurizing process used. The
milk has a boiled flavor, but much less than evaporated milk. The dates
are usually for approximately six months. The milk is still usable past
its date, but the flavor soon begins to go stale and the cream
separates. I am told by a friend who lived in Germany not long after
this kind of canned milk began to come on the market there that they
were dated for a year.
With a six-month shelf life this type of canned milk naturally
requires a much faster rotation cycle than other types. The only brand
name for this milk I've seen is Parmalat. Recently, I have discovered
that it makes excellent yogurt, losing the boiled tasted
EVAPORATED: This is made from fresh, unpasteurized whole milk. A
vacuum-heating process removes 60% of the water; the
concentrate is heated, homogenized, and in the States vitamin D is
added. It is then canned and heated again to sterilize the contents.
It may also have other nutrients and chemical stabilizers added. A
mixture of one part water and one part evaporated milk will have about
the same nutritional value of an equal amount of fresh milk. There is
generally no date or use by code on evaporated milk
Health and nutrition food stores often carry canned, evaporated
goat's milk, in a similar concentration.
SWEETENED CONDENSED: This milk goes through much less processing
than evaporated milk. It starts with
pasteurized milk combined with a sugar solution. The water is then
extracted until the mixture is less than half its original weight. It
is not heated because the high sugar content prevents spoilage. It's
very high in calories, too: 8 oz has 980 calories.
Although it is often hard to find, the label has a stamped date
code which indicates the date by which it should be consumed.
Sweetened, condensed milk may thicken and darken as it ages, but it is
still edible.
C.1.1 SHELF LIFE OF CANNED MILKS
Unopened cans of evaporated milk can be stored on a cool, dry shelf
for up to six months. Canned milk (UHT) should be stored till the
stamped date code on the package (3 - 6 months). Check the date on
sweetened, condensed milk for maximum storage.
C.2 CORROSION PREVENTION OF CANNED GOODS
Some areas have difficulty storing metal canned goods for long
periods of time. This is usually caused by very high humidity or
exposure to salt in a marine environment. If this is a problem, it is
possible to extend the life of metal cans by coating their outsides.
I've seen this used on boats here in Florida, especially when loading
for a long trip. There are at least four methods that can be used to do
this:
PARAFFIN METHOD: Using a double boiler, paraffin is melted and
brushed on the clean, unrusted cans. Be certain to get a good coat on
all seams, particularly the joints. If the can is small enough, it can
be dipped directly into the wax. Care must be taken to not cause the
labels to separate from the cans. Do not leave in long enough for the
can to get warm.
PASTE WAX METHOD: Combine 2-3 oz. of paste or jelly wax with a
quart of mineral spirits. Warm the mixture CAREFULLY in its container
by immersing it in a larger container of hot water. DO NOT HEAT OVER AN
OPEN FLAME! Stir the wax/spirits thoroughly until it is well mixed and
dissolved. Paint the cans with a brush in the same manner as above.
Place the cans on a wire rack until dry.
SPRAY SILICONE: A light coating of ordinary spray silicone may be
used to deter rust. Spray lightly, allow to dry, wipe gently with a
clean cloth to remove excess silicone.
CLEAR COATING: A clear type of spray or brush on coating such as
Rustoleum may be applied. This is best suited for larger resealable
cans, but will keep them protected from corrosion for years.
D. SUGAR, HONEY AND OTHER SWEETENERS
There are a wide number of sugars to be found for purposes of
sweetening foods. Fructose is the primary sugar in fruit and honey;
maltose is one of the sugars in malted grains; pimentose are found in
olives and sucrose is what we know as granulated or table sugar.
Sucrose is a highly refined product made primarily from sugar cane
though sugar beets still contribute a fair amount of the world supply.
Modern table sugar is now so highly refined as to be virtually 100% pure
and nearly indestructible if protected from moisture. Powdered sugar
and brown sugar are simple variations on granulated sugar and share its
long life.
Liquid sweeteners do not have quite the longevity of dry sugars.
Honey, cane syrup, molasses, corn syrup and maple syrup may crystallize
or mold during long storage. These syrups are chemically not as simple
as table sugar and therefore lose flavor and otherwise break down over
time.
D.1 TYPES OF GRANULATED SUGARS
Buying granulated sugar and its close cousins is really a very
simple matter. Buy a brand you know you can trust and be certain the
package is clean, dry and has no insect infestation. There's very
little that can go wrong with it.
GRANULATED: Granulated sugar does not spoil, but if it gets damp
it will likely cake up or get lumpy. If it does, it
can simply be pulverized again until it regains its granulated texture.
Granulated sugar can be found in varying textures, coarser or finer.
"Castor/caster sugar" is a finer granulation than what is commonly sold
as table sugar in the U.S. and is more closely equivalent to our
super fine or berry sugar.
POWDERED, All names refer to the same kind of sugar, that is
CONFECTIONERS, white granulated sugar very finely ground. For
ICING: commercial use there is a range of textures from
coarse to ultra-fine. For home consumption, what is
generally found is either Very Fine (6X) or Ultra-Fine (10X), but this
can vary from nation to nation. Not all manufacturers will indicate the
grind on the package though. Sugar refiners usually add a small amount
of corn-starch to prevent caking.
Powdered sugar is as inert as granulated sugar, but it is even more
hygroscopic and will absorb any moisture present. If it absorbs more
than a little it may cake up and get hard. It's difficult to reclaim
hardened powdered sugar, but it can still be used like granulated sugar.
BROWN, In the United States brown sugar is basically just refined
LIGHT & DARK: white sugar that has had a bit of molasses or sugar syrup
and caramel coloring added to it. Dark brown sugar has
more molasses which gives it a stronger flavor, a darker color and makes
it damp. Light brown sugar has less molasses which gives it a milder
flavor, a blonder color and is slightly dryer than the dark variety.
For storage purposes you may want to just stock the dark variety. Light
brown sugar can be made by combining one fourth to one third white sugar
to the remainder dark brown sugar and blend thoroughly.
Both varieties need to be protected from drying out, or they will
become very hard and difficult to deal with. Nor do you want to allow
them to become damper than what they already are.
There are granulated and liquid brown sugars available, but they
don't have the same cooking qualities as ordinary brown sugars. They
also don't dry out and harden quite so readily either.
RAW, NATURAL, In recent years, sugar refiners have realized that
& TURBINADO: there is a market for less refined forms of cane
sugar in the U.S. and have begun to sell this kind of
sugar under various names and packagings. None of it is really raw
sugar since it is illegal to sell it in the U.S. due to the high
impurities level in the truly raw product. All of it has been processed
in some form or fashion to clean it, but it has not been subjected to
the full refining and whitening processes of ordinary white table sugar.
This leaves some of the natural color and a mild flavor in the
sweetener. All of these less refined sugars may be stored and handled
like brown sugar.
Outside of the United States it is possible to buy truly raw sugar
and it can be found under names such as "muscavado", "jaggery" (usually
a raw palm or date sugar), "demerara" and others. With all of the
molasses and other impurities retained it is quite strong in flavor so
would not be suited to general use, but there are recipes that call for
it. In spite of moisture and impurities it can be stored like brown
sugar since its sugar content is high enough to inhibit most microbial
growth.
D.1.1 STORING GRANULATED SUGARS
All granulated sugars have basically the same storage requirements.
They need to be kept in air tight, insect and moisture proof containers.
For powdered, and granulated sugar you might want to consider using some
desiccant in the storage container if your local climate is damp. Since
brown sugars and raw sugars are supposed to be moist, they do not need
desiccants. Shelf life is indefinite if kept dry, but anything that you
intend to eat really should be rotated over time. Time has a way of
affecting even the most durable of foods.
I've used brown sugar that was six years old at the time it was
removed from storage and, other than the molasses settling somewhat
toward the bottom, it was just fine. A friend to whom I gave a bucket
of the brown sugar finished it off three years after I gave it to her
which was nine years after it was packaged and it, too, was fine.
D.2 TYPES OF HONEY
Honey is probably the oldest sweetener known to man. Its use
predates recorded history and has been found in the Egyptian pyramids.
It's typically sweeter than granulated sugar by a factor of 25%-40%
depending upon the specific flowers from which the bees gather their
nectar. This means a smaller amount of honey can give the same amount
of sweetening as sugar. The source flowers also dictate the flavor and
the color of the sweetener as well. Honey color can range from very
dark (nearly black) to almost colorless. As a general rule, the lighter
the color and the more delicate the flavor, the greater the price the
honey will bring. As you might expect, since honey is sweeter than
table sugar, it also has more calories as well -- 22 per teaspoon
compared to granulated sugar's 16 per teaspoon. There are also trivial
amounts of minerals and vitamins in the bee product while white sugar
has none.
Raw honey may also contain minute quantities of botulinum spores
and should not be fed to children under one year of age. PLEASE READ
THE POST FROM GERI GUIDETTI CONCERNING THIS BELOW. Raw honey is OK for
older children and adults. Honey is not a direct substitute for table
sugar however, its use in recipes may call for a bit of alteration to
get it to turn out right.
Honey comes in a number of forms in the retail market and they all
have different storage characteristics:
WHOLE-COMB: This is the bee product straight from the hive. It is the
most unprocessed form in which honey comes, being found as
large pieces of waxy comb floating in raw honey. The comb
itself will contain many unopened honey cells.
RAW: This is unheated honey that has been removed from the
comb. It may contain bits of wax, insect parts and other
small detritus.
FILTERED: This is raw honey that has been warmed to make it more
easy to filter out small particles and impurities. Other
than being somewhat cleaner than raw honey it is
essentially the same. Most of the trace amounts of
nutrients remain intact.
LIQUID: This is honey that has been heated to higher temperatures
to allow for easier filtering and to kill any
microorganisms. Usually lighter in color, this form is
milder in flavor, resists crystallization and generally
clearer. It stores the best of the various forms of
honey. Much of the trace amounts of vitamins, however,
are lost.
SPUN or This honey has had some of its moisture content removed to
CRYSTALLIZED: make a creamy spread. It is the most processed form of
honey.
D.2.1 BUYING HONEY
Much of the honey sold in supermarkets has been blended from a
variety of different honeys and some may have even had other sweeteners
added as well. Like anything involving humans, buying honey can be a
tricky business. It pays to deal with individuals and brands you know
you can trust. In the United States you should buy products labeled
U.S. GRADE A or U.S. FANCY if buying in retail outlets. However, be
aware there are no federal labeling laws governing the sale of honey, so
only honey labeled pure is entirely honey and not blended with other
sweeteners. Honey grading is a matter of voluntary compliance which
means some producers may be lax and sloppy about it. This can be a real
nuisance when producers use words like "organic", "raw", "uncooked" and
"unfiltered" on their labels, possibly to mislead. Fortunately, most
honey producers are quite honest in their product labeling so if you're
not certain of who to deal with, it is worthwhile to ask around to find
out who produces a good product.
Honey may also contain trace amounts of drugs used in treating
various bee ailments, including antibiotics. If this is a concern to
you, then it would be wise to investigate with your local honey producer
what has been used.
D.2.2 STORING HONEY
Honey is much easier to store than to select and buy. Pure honey
won't mold, but may crystallize over time. Exposure to air and moisture
can cause color to darken and flavor to intensify and may speed
crystallization as well. Comb honey doesn't store as well liquid honey
so you should not expect it to last as long.
Storage temperature is not as important for honey, but it should be
kept from freezing and not exposed to high temperatures if possible.
Either extreme can cause crystallization and heat may cause flavor to
strengthen undesirably.
Filtered liquid honey will last the longest in storage. Storage
containers should be opaque, airtight, moisture and odor-proof. Like
any other stored food, honey should be rotated through the storage cycle
and replaced with fresh product.
If crystallization does occur, honey can be reliquified by placing
the container in a larger container of hot water until it has melted.
Avoid storing honey near heat sources and if using plastic pails
don't keep it near petroleum products (including gasoline/diesel
engines), chemicals or any other odor-producing products.
D.2.3 RAW HONEY AND BOTULISM
From: Geri Guidetti arkinst@concentric.net
Duane Miles wrote:
>If I recall correctly, honey contains very, very small amounts of
>the bacteria that cause botulism. For adults, this seldom causes
>problems. Our immune system is capable of dealing with small numbers
>of even nasty bacteria, they do it all the time. The problem is when
>we get large numbers of bacteria, or when our immune system is damaged
>or not yet developed.
>That is where the problem with honey comes in. Some people used to
>use honey to sweeten milk or other foods for infants. Infants immune
>systems sometimes cannot handle the bacteria that cause botulism, and,
>of course, those infants became seriously ill. So pediatricians now
>advise strongly against using honey for children under a certain age.
Yes, raw honey can contain the temperature resistant spores of
"Clostridium botulinum", the bacterium that causes botulism. The
organism is a strict anaerobe, meaning that it only grows in the absence
of molecular oxygen. The problem with infants and honey is that the
small, intestinal tract of an infant apparently is sufficiently
anaerobic to allow the spores to germinate into actively growing C.
botulinum organisms. Essentially, the infant serves the same role as a
sealed, airtight, contaminated can of beans as far as the organisms are
concerned. There in the infant's body the bacteria secrete the
dangerous toxin that causes the symptoms of botulism. There have been
quite a few documented infant deaths due to honey. As I recall, the
studies identifying honey as the source were done in the '80s. Most
pediatricians recommend no honey for the first year. It is probably
best to check with your own for even later updates...Geri Guidetti, The
Ark Institute
D.2.4 HONEY OUTGASSING
Q: My can of honey is bulging. Is it safe to use?
A: Honey can react with the can lining to release a gas especially
when stored over a long period of time. Honey's high sugar content
prevents bacteria growth. If there is no sign of mold growth, it is
safe to eat. FREQUENTLY ASKED FOOD QUESTIONS, FN250
D.3 TYPES OF CANE SYRUPS.
MOLASSES & These two sweeteners are not precisely the same thing.
CANE SYRUP: Molasses is a by-product of sugar refining and cane syrup
is simply cane juice boiled down to a syrup, in much the
same way as maple syrup is produced. Non-Southerners
(U.S.) may know it better as unsulphured molasses even if
this is not completely correct. Sulphured molasses is
also available on the market and very cheap as well, but
it's strong flavor is unattractive and generally not
desirable.
SORGHUM: This is produced in the same manner as cane syrup, but
sorghum cane, rather than sugar cane, is used. Sorghum
tends to have a thinner, slightly sourer taste than cane
syrup.
TREACLE: This sweetener comes in varying colors from a rather dark
version, similar to, but not quite the same as blackstrap
molasses, to paler versions more similar to golden syrup.
All of the above syrups are generally dark with a rich, heavy
flavor.
GOLDEN SYRUP: This syrup seems to be both lighter and paler in color
than any of the above three, probably more similar to what
we would call a table syrup here in the U.S.
TABLE SYRUP: There are many table syrups sold in supermarkets, some
with flavorings of one sort or another such as maple,
various fruits, etc. A close examination of the
ingredients list will reveal mixtures of cane syrup, cane
sugar syrup or corn syrup along with preservatives,
colorings and other additives. They usually have a much
less pronounced flavor than molasses, cane syrup, sorghum
or the darker treacles. Any syrup containing corn syrup
should be stored as corn syrup.
D.3.1 STORING CANE SYRUPS
All of the above syrups, except for those having corn syrup in
their makeup, have the same storage characteristics. They can be stored
on the shelf for about two years and up to a year after opening. Once
they are opened, they are best kept in the refrigerator to retard mold
growth. If mold growth does occur, the syrup should be discarded. The
outside of the bottle should be cleaned of drips after each use. Some
pure cane and sorghum syrups may crystallize in storage, but this causes
no harm and they can be reliquified using the same method as for honey.
D.4 CORN SYRUP
Corn syrup is a liquid sweetener made by an enzyme reaction with
corn-starch. Available in both a light and a dark form, the darker
variety has a flavor similar to molasses and contains refiners syrup (a
byproduct of sugar refining). Both types often contain flavorings and
preservatives. It is commonly used in baking and candy making because
it does not crystallize when heated. Corn syrup is very common in the
U.S., but less so in the rest of the world.
Corn syrup stores poorly compared to other sweeteners and because
of this it often has a best if used by dating code on the bottle. It
should be stored in its original bottle, tightly capped, in a cool, dry
place. New unopened bottles keep about six months from the date on the
label. After opening, keep the corn syrup four to six months. These
syrups are very prone to mold and to fermentation so be on the lookout
for bubbling or a mold haze. If these present themselves, throw the
syrup out. You should always be certain to wipe off any drips from the
bottle after every use.
D.5 MAPLE SYRUP
Maple syrup is produced by boiling down sap of the maple tree until
it reaches a syrup consistency and is slightly sweeter than table sugar.
Maple syrup is judged by much the same criteria as honey: Lightness of
color, clarity and taste. Pure maple is generally expensive and most
pancake syrups are corn and cane sugar syrups with either natural or
artificial flavorings. Maple flavored pancake syrups should be kept and
stored as corn syrups.
New unopened bottles of maple syrup may be kept on a cool, dark,
shelf for up to two years. The sweetener may darken and the flavor get
stronger, but it is still usable.
After the bottle has been opened, it should be refrigerated. It
will last about a year. Be careful to look out for mold growth. If
mold occurs, discard the syrup.
E. FATS AND OILS
All oils are fats, but not all fats are oils. They are very
similar to each other in their chemical makeup, but what makes one an
oil and another a fat is the percentage of hydrogen saturation in the
fatty acids of which they are composed. The fats and oils which are
available to us for culinary purposes are actually mixtures of differing
fatty acids so for practical purposes we'll say saturated fats are solid
at room temperature (70 deg. F) and unsaturated fats we call oils are
liquid at room temperature. For dietary and nutrition purposes fats are
generally classified as saturated, monosaturated and polyunsaturated,
which is a further refinement of the amount of saturation of the
particular compositions of fatty acids in the fats.
E.1 BUYING AND STORING OILS AND FATS
There is a problem with storing oils and fats for the long term and
that is the fact that they go rancid rather quickly. Rancid fats have
been implicated in increased rates of heart disease, atherosclerosis and
are carcinogenic (cancer causing) so we want to avoid them if possible.
Oxygen is eight times more soluble in fat than in water and it is
the oxidation resulting from this exposure that is the primary cause of
rancidity. The more polyunsaturated a fat is, the faster it will go
rancid. This may not, at first, be readily apparent because vegetable
oils have to become several times more rancid than animal fats before
our noses can detect it. An extreme example of rancidity is the linseed
oil (flaxseed) that we use as a wood finish and a base for oil paints.
In just a matter of hours the oil oxidizes into a solid polymer. This
is very desirable for wood and paint, very undesirable for food.
Because of this difficulty in storing fats and oils for any long
period of time many books and articles on the subject of food storage
make only passing mention of them, if they say anything at all. This is
unfortunate because fat contains nine calories to the gram compared to
the four calories contained by either carbohydrates or protein. This
makes fat a valuable source of concentrated calories that could be of
real importance if faced with a diet consisting largely of unrefined
grains and legumes. For small children, infants and the elderly, they
may not be able to consume the volume of food that would be necessary in
the course of a day to get all of the calories they would need to avoid
weight loss and possible malnutrition. Additionally, fats play an
important role in our perception of taste and texture and their absence
would make many foods more difficult to prepare and consume.
Furthermore, a small amount of dietary fat is necessary for our bodies
to properly absorb fat soluble vitamins like A,D,E and K.
Long term storage of fats may be problematical, but it is not
impossible. There are some general rules you can follow to get the most
life out of your stored cooking oils and fats.
#1 Exposure to oxygen, light and heat are the greatest factors to
rancidity. If you can, refrigerate your stored oil,
particularly after it's been opened. If possible, buy your oils in
opaque, airtight containers. If you purchase it in plastic,
particularly clear plastic, then transfer it to a gas impermeable glass
or metal container that can be sealed airtight. If you have a means of
doing so, vacuum sealing the storage container is an excellent idea as
it removes most of the air remaining inside, taking much of the oxygen
with it. Transparent glass and plastic containers should be stored in
the dark, such as in a box. Regardless of the storage container, it
should be stored at as cool a temperature as possible and rotated as
fast as is practical. Oils and fats with preservatives added by the
manufacturer will have a greater shelf life than those without them,
provided they are fresh when purchased.
#2 Unless they have been specially treated, unopened cooking oils
have a shelf life of about a year, depending upon the above
conditions. Some specialty oils such as sesame and flax seed have
shorter usable lives. If you don't use a great deal of it, try to not
buy your fats in large containers. This way you won't be exposing a
large quantity to the air after the you've opened it, to grow old and
possibly rancid, before you can use it all up. Once opened, it is an
excellent idea to refrigerate cooking fats. If it turns cloudy or
solid, the fat is still perfectly usable and will return to its normal
liquid, clear state after it has warmed to room temperature. Left at
room temperatures, opened bottles of cooking oils can begin to rancid in
anywhere from a week to a couple of months, though it may take several
more months to reach such a point of rancidity that it can be smelled.
#3 Although darker colored oils have more flavor than paler
colored, the agents that contribute to that flavor and color
also contribute to faster rancidity. For maximum shelf life buy paler
colored oils.
#4 If you have no particular problem with using it, the culinary
fat with the most shelf life as it comes from the store is
hydrogenated shortening in its unopened metal or metal lined can. The
brand most familiar in the U.S. is probably Crisco, but there are many
others. Solid shortening is usually composed of partially hydrogenated
vegetable oils, but there are some that also contain animal fats. Some
brands will also contain anti-oxidant preservatives as well. All other
conditions being equal, those with preservatives will have a longer
shelf life than those without. It is not possible to give an exact
answer, but it is reasonable to expect an unopened metal can of
shortening to have a shelf life of eight to ten years if kept reasonably
cool, particularly if it has preservatives in it.
E.2 EXTENDING SHELF LIFE BY ADDING ANTI-OXIDANTS
If obtaining the maximum shelf life in your cooking oils is
important to you, it is possible to add anti-oxidant preservatives to
the fat after you have purchased it. Used in conjunction with a gas
impermeable container, either opaque in color or stored in a dark place,
and cool storage temperatures (70 F or less) then shelf life can be
extended to about five years, possibly longer.
The anti-oxidant in question is Butylated HydroxyToluene (BHT). It
is used in the food industry to slow the development of off-flavors,
odors and color changes caused by oxidation, mostly in foods that are
high in fats and oils. BHT is on the U.S. Food and Drug
Administration's Generally Recognized As Safe (GRAS) list as a common
preservative. The FDA limits the use of BHT to 0.02% or 200 parts per
million (ppm) of the oil or fat content of a food product. The
directions that I will be giving below will be for the FDA limit, but
there are those who choose to use up to ten times that amount as part of
their life extension programs. The level you choose is up to you.
BHT is available over the counter in the retail trade, but you have
to know where to look for it. The only retail distributor of the
anti-oxidant that I am thus far aware of is
Twin Laboratories (TwinLab),
Ronkonkoma, NY 11779.
Their BHT comes in the form of 250 mg gelatin capsules. I've been
able to find their product in several local health food stores. It is
also available through mail order sources, but I don't have any names or
addresses for that avenue yet.
To get the best results you will need the freshest oil you can
find. Purchasing it from a large, busy supermarket will probably
suffice. You'll also need containers that are gas impermeable such as
glass jars, or metal cans. There may be plastic containers with high
gas barrier properties that will also serve, but I cannot knowledgeably
say about this. It is important that your containers are food grade and
are clean, dry and dust-free.
Each 250 milligram capsule is sufficient to treat 47 fluid ounces
of cooking oil (as per the GRAS guidelines mentioned above). If you
have an accurate means of weighing this works out to be 5.3 mg of BHT
crystals to every 1 fl oz of oil. If you're using a scale calibrated in
grains, such as a reloading powder scale, you may use the following
table.
BHT BHT
in grains OIL in milligrams
---------------------------------------------------------
0.1 grain 1 fl oz 5.3 mg
0.7 grain 8 fl oz (1 cup) 42.4 mg
1.3 grain 16 fl oz (1 pint) 84.8 mg
2.6 grain 32 fl oz (1 quart) 169.6 mg
5.2 grain 64 fl oz (1/2 gal) 339.2 mg
10.3 grain 128 fl oz (1 gal) 678.4 mg
NOTE: The grain weight measurements have been rounded up to the
nearest tenth grain since most powder scales will not accurately measure
less than one-tenth of a grain.
IMPORTANT NOTE: If you are using a reloading powder scale, be
sure the balance pan is clean and the balance has been calibrated
recently with a reliable set of check weights.
Remove the BHT crystals from their gelatin capsules and weigh, if
you're going to. Once you have the appropriate amount, add the crystals
to a pint or so of the oil, shaking vigorously. It may take several
hours for the preservative to dissolve completely. Bringing the oil up
to a warm, NOT HOT, temperature will speed the process. Once completely
dissolved, pour the anti-oxidant laden oil into the rest of the oil and
mix thoroughly. Once mixed, the oil can then be poured into its storage
containers leaving approximately 1/2 inch of headspace. If you have a
vacuum sealer the jars or cans may be vacuum sealed to remove most of
the oxygen from the container, otherwise just seal the lid. Store in a
cool place and if using transparent jars, be certain to put them in a
larger container such as a box to keep the contents in the dark. Don't
forget to label and date the jars.
There are other preservatives in food industry use that will also
work, but I have not yet discovered how they are used or where to get
them. I'm currently looking for information on Butylated HydroxyAnisole
(BHA), propyl gallate, vitamin E (the tocopherols, natural and
synthetic), ascorbyl palmitate (a fat soluble form of vitamin C), citric
acid and mono-Tertiary-ButylHydroQuinone (TBHQ). Additionally, certain
herbs and spices like cloves, rosemary, oregano, sage and vanilla also
have antioxidant properties, sometimes quite strong ones. Being
strongly flavored, they are not suitable as preservatives in fats meant
for general use, but will lend their protective properties in any
recipes that call for them.
Before I close out this section on fats and oils, please allow me
to reemphasize that no amount of preservatives that can be added to your
stored fats will substitute for proper storage and rotation. The more I
research the chemistry and physiological effects of rancid fats the more
I come to believe they are bad news for long term health, particularly
as we grow older. Don't sit on your oil supply for years without
rotating it. Just a little bit rancid is just a little bit poisonous.
`Nuff said.
F. COOKING STAPLES
F.1 BAKING POWDER.
This powder is a combination of an acid and an alkali with starch
added to keep the other two ingredients stable and dry. The powder
reacts with liquid by foaming and the resulting bubbles can aerate and
raise dough. Almost all baking powder now on the market is double
acting, meaning it has one acid that bubbles at room temperature and
another acid which only reacts at oven temperatures. Unless a recipe
specifies otherwise, this is the type to use.
Don't expose baking powder to steam, humid air, wet spoons, or any
other moisture. Store in a tightly lidded container for no more than a
year. Even when kept bone dry it will eventually loses its potency. To
test its strength, measure 1 tsp powder into 1/3 cup hot water. The
mixture should fizz and bubble furiously. If it doesn't, throw it out.
For those folks concerned with aluminum in the diet, the Rumford
brand has none in it and there may be others.
F.2 BAKING SODA.
This gritty powder is sodium bicarbonate also called sodium acid
bicarbonate (NaHCO3), a mild alkali. It is used in baking to leaven
bread and other baked or fried foods and does so in the same manner as
baking powder. It can also be used to make hominy. When combined with
an acid ingredient, the bicarbonate reacts to give off carbon dioxide
bubbles which causes the baked good to rise. If kept well sealed in an
air- and moisture-proof container its storage life is indefinite. If
kept in the cardboard box it usually comes in, it will keep for about
eighteen months. Do keep in mind that baking soda is a wonderful odor
adsorber. If you don't want your baked goods tasting of whatever smells
it adsorbed then keeping it in an airtight container is an excellent
idea.
F.3 HERBS AND SPICES.
It is difficult to give exact instructions on how best to store
culinary herbs and spices because there are dozens of different seeds,
leaves, roots, barks, etc., we call an herb or a spice. There are,
however, some general rules to be followed to best preserve their
flavors. All spices, particularly dried, are especially sensitive to
heat, air and light. Room temperature is satisfactory for keeping them
and refrigeration or freezing is even better, but they should be kept
away from heat sources. It is common for the household spice cabinet or
shelf to be located over the stove, but this is really a very poor
place. Dark opaque glass is best for storage, but failing that, keeping
a tightly sealed glass container in a dark place is next best. The
cellophane packets some products come in just won't do. Tightly sealed
metal containers will work as well. Even dense plastic will do, but
glass is best.
Where possible, buy spices whole. Whole nutmegs will keep their
flavor far longer than ground nutmeg, the same for other seeds and
roots. You'll have to use a grater, grinder or whatever, but the
difference in flavor will be worth it.
If you buy spices in bulk containers (which is certainly cheaper)
consider transferring some into smaller containers and keeping the
larger one tightly sealed in a cool, dark place. This will prevent
unwanted light and air from continually getting in and playing havoc.
Included in the suppliers addresses are listings for several spice
and herb companies. The one I have personally dealt with so far is
Penzey's and their products have been consistently excellent with good
prices. It's worth investigating some of these companies as they can
really take the sting out of purchasing large quantities.
F.4 SALT.
Storage life for salt is indefinite. So long as you do not let it
get contaminated with dirt or whatever, it will never go bad. Over
time, iodized salt may turn yellow, but this is harmless and may still
be used. Salt is rather hygroscopic and will adsorb moisture from the
air if not sealed in an air-tight container. If it does adsorb moisture
and cakes up, it can be dried in the oven and then broken up with no
harm done.
All salt, however, is not the same. Salt comes in a number of
different varieties, and very little of what is produced in the U.S. is
intended for use in food. The rest of it, about 98%, has other uses.
Therefore, it is important to be certain the salt you have is intended
for human consumption. Once you are satisfied it is, you should then
determine its appropriateness for the tasks to which you might want to
set it to. Below is a partial list of some of the available salts
TABLE SALT: This is by far the most widely known type of salt.
It comes in two varieties; iodized and non-iodized.
There is an ingredient added to it to adsorb moisture so it will stay
free flowing in damp weather. This non-caking agent does not dissolve
in water and can cause cloudiness in whatever solution it is used if
sufficiently large quantities are used. In canning it won't cause a
problem since there is very little per jar. For pickling, though, it
would be noticeable. If you are storing salt for this purpose, you
should be sure to choose plain pickling salt, or other food grade pure
salt such as kosher salt. In the iodized varieties, the iodine can
cause discoloration or darkening of pickled foods so be certain not to
use it for that purpose. For folks who come from areas that are
historically iodine deficient a store of iodized salt for table
consumption is of real importance.
CANNING SALT: This is pure salt and nothing but salt. It can
usually be found in the canning supplies section of
most stores. This is the salt to be preferred for most food
preservation or storage uses. It is generally about the same grain size
as table salt.
KOSHER SALT: This salt is not really, in itself, kosher, but is
used in "kashering" meat to make the flesh kosher for
eating. This involves first soaking the meat then rubbing it with the
salt to draw out the blood which is not-kosher and is subsequently
washed off along with the salt. The cleansed meat is then kosher. What
makes it of interest for food storage and preservation is that it is
generally pure salt suitable for canning, pickling and meat curing. It
is of a larger grain size than table or canning salt, and usually rolled
to make the grains flaked for easier dissolving. Frequently it is
slightly cheaper than canning salt and usually easier to find in
urban/suburban areas.
NOTE: Not all brands of kosher salt are exactly alike. Diamond
Crystal Kosher Salt is the only brand that I'm aware of that is not
flaked, but still in its unaltered crystal form. The Morton brand of
Coarse Kosher Salt has "yellow prussiate of soda" added as an
anti-caking agent. Morton still recommends it for pickling and even
gives a kosher dill recipe on the box so I presume that this particular
anti-caking agent does not cause cloudiness in pickling solutions.
Whether flaked or in its unaltered crystal form, kosher salt takes
up more volume for an equivalent amount of mass than does canning salt.
If it is important to get a very precise amount of salt in your pickling
or curing recipe you may want to weigh the salt to get the correct
amount.
SEA SALT: This type of salt comes in about as many different
varieties as coffee and from about as many different
places around the world. The "gourmet" versions can be rather
expensive. In general, the types sold in grocery stores, natural food
markets and gourmet shops have been purified enough to use in food.
It's not suitable for food preservation, though, because the mineral
content it contains (other than the sodium chloride) may cause
discoloration of the food.
ROCK or ICE This type of salt comes in large chunky crystals and
CREAM SALT: is intended primarily for use in home ice cream
churns to lower the temperature of the ice filled
water in which the churn sits. It's also sometimes used in icing down
beer kegs or watermelons. It is used in food preservation by some, but
none of the brands I have been able to find label it as food grade nor
do they specifically mention its use in foods so I would not use it for
this purpose.
SOLAR SALT: This is also sometimes confusingly called "sea salt".
It is not, however, the same thing as the sea salt
found in food stores. Most importantly, it is not food grade. It's main
purpose is for use in water softeners. The reason it is called "solar"
and sometimes "sea salt" is that it is produced by evaporation of sea
water in large ponds in various arid areas of the world. This salt type
is not purified and still contains the desiccated remains of whatever
aquatic life might have been trapped in it. Those organic remains might
react with the proteins in the foods you are attempting to preserve and
cause it to spoil.
HALITE: For those of us fortunate enough to live in areas warm
enough not need it, halite is the salt that is used on
roads to melt snow and ice. It, too, is not food grade and should not
be used in food preservation. This form of salt is also frequently
called rock salt, like the rock salt above, but neither are suitable for
food use.
SALT These are various other kinds of metal salts such as
SUBSTITUTES: potassium chloride used to substitute for the ordinary
sodium chloride (NaCl) salt we are familiar with. They
have their uses, but should not be used in foods undergoing a heated
preservation processing, as they can cause the product to taste bad.
Even the heat from normal cooking is sometimes sufficient to cause this.
F.5 VINEGAR.
There is vinegar and then there is vinegar and it is not all alike.
The active ingredient in all vinegars is acetic acid, but how the sour
stuff was made can vary widely. The most common vinegar is white
distilled which is actually just diluted distilled acetic acid and not
true vinegar at all. It keeps pretty much indefinitely if tightly
sealed in a plastic or glass bottle with a plastic cap. The enamel
coated metal caps always seem to get eaten by the acid over time. It is
usually about 5-6% acetic acid and for pickling it is the type most
often called for.
The next most common variety is apple cider vinegar. There are two
kinds of this type. A cider flavored distilled acetic acid type and a
true cider vinegar fermented from hard cider. Either will store
indefinitely at room temperature until a sediment begins to appear on
the bottom. Stored vinegar will sometimes develop a cloudy substance.
This is called a mother of vinegar and it is harmless. As long as the
liquid does not begin to smell foul it can be filtered out through
cheesecloth or a coffee filter and rebottled in a clean container. The
mother can even be used to make more vinegar. If it begins to smell
bad, however, it's gone over and should be tossed out.
The more exotic wine, balsalmic and other vinegars can be stored
like cider vinegar. Age and exposure to light and air, however,
eventually begin to take their toll on their delicate flavors. Tightly
capped in a cool, dark cabinet or refrigerator is best for their
storage.
F.6 YEAST.
Yeast is just not a product you can stow away and forget about
until you need it next year. It is, after all, a living organism and if
it's not alive at the time you need it, you won't get any use out of it.
This ancient leavening, brewing, fermenting agent is a single celled
microscopic fungus. When we incorporate it into our bread dough, beer
wort or fruit juice it begins to reproduce madly (we hope) and produce
several by-products. If you're baking, the by-product you want is
carbon dioxide which is trapped by the dough and subsequently causes it
to rise. In brewing or vintning what is wanted is the ethyl alcohol
and, if the drink is to be carbonated, the carbon dioxide as well.
Almost all yeasts used for these purposes are in the same genus
("Saccharomyces" or sugar fungi), but several different species have
evolved and some are more suitable for a particular task than others.
It's entirely possible to use grocery store bread yeast to brew beer or
ferment wine, but the results may leave a great deal to be desired.
It's also possible to use yeast from beer brewing to make bread and from
what I've read the results were pretty much indistinguishable from bread
yeast.
Leaving aside the brewing and vintning yeasts which are really
outside the scope of this FAQ I am going to concentrate on bread yeast.
It comes in two generally available forms; compressed or fresh and
dried, sometimes called granular or instant active dry yeast. They are
different genetic strains of the same species, and have different
characteristics.
Compressed yeast is only partly dried (about 70% moisture) and
requires refrigeration and keeps even better in the deep freeze. If
kept in an air- and moisture-tight container to prevent it from
desiccating this type of yeast will keep for a year in the freezer
(0 deg. F or less), but only about two weeks (maybe a bit more) in the
refrigerator. Unless your kitchen is rather chilly it will not keep on
the shelf. It should not have a mottled color or a sour odor.
Dried yeast has only an 8% moisture content and comes packed in
foil envelopes. The smaller single use packets are not generally vacuum
packed, but the larger commercial sized "bricks" of about a pound or two
each generally are. They can last for months on the shelf, until the
expiration date which should be clearly stamped on the package. If
packaged in the same manner as recommended for compressed yeast above
and kept in the refrigerator or freezer it can last for several years.
The larger packs of yeast should be transferred to an air and moisture
tight container after opening.
Either type of yeast can be tested for viability by proofing it.
This is nothing more than mixing a small amount of the yeast with an
equal amount of sugar in warm water (105-115 deg. F for dried; 95 deg.
F for fresh). Within about five minutes active yeast will become bubbly
and begin to expand (at normal room temperature). Yeast which only
slowly becomes active can still be used, but you will have to use more
of it. If it shows no activity at all, it's dead and should be thrown
out.
There is another means of providing yeast for baking besides buying
it from the grocery store and that is by using a sourdough starter. I'm
not going to address it here, but I will point out that it has a
newsgroup all its own (rec.food.sourdough) and several FAQ's devoted to
it. You can find addresses for these FAQs in the Resources section.
Drop in and read for awhile and you'll learn more than you thought you
could ever want to know.
G. INFANT FORMULA
Since most folks interested in food storage are planning for
families, real or as yet hypothetical, I thought it important to include
something on infant formula. Most baby food that comes in jars can be
treated like canned goods of similar types meant for adults. Formula,
though, is something else. I have to admit, that not yet having kids of
my own, I've not given this much thought before so the below is taken
from the book KEEPING FOOD FRESH, by Janet Bailey (see book list). In
the future, if some of you readers will send it to me and/or I come up
with more information from my own researches I want to expand this
section on infant/child food storage.
-----------------------------------------------------------------------
Prepared infant formula is primarily water and nonfat cow's milk.
Among other ingredients, it contains sweeteners; sometimes lactose which
is milk sugar; and sometimes corn syrup or other sugars. Coconut and
soybean oils are common; vitamin and mineral supplements are universal.
A few brands contain mono- and diglycerides, chemicals that keep the
liquid from separating.
BUYING AND STORING INFANT FORMULA. Canned liquid infant formula
comes either ready to eat or in a concentrate to be diluted with water.
Cans and packing cases are clearly marked with a "use by" date.
Unopened cans stored in a cool, dry place keep well from twelve to
eighteen months (longer than the baby is an infant).
After the can is opened, measure out the amount of formula you
need, cover the can and store in the refrigerator. It will keep no more
than 48 hrs at 40 deg. F. Never return leftover formula from the bottle
to the storage container and do not store half used bottles.
You can pre-measure the whole can-full into sterilized baby
bottles, seal them, and store them in the refrigerator, but forty eight
hours is still the limit. To keep full bottles from tipping over in the
refrigerator, slip them into a carton from a six-pack of soda pop
bottles.
-----------------------------------------------------------------------
In examining the offerings at my local grocer I see that infant
formula is also offered as a dry powder to be mixed by the parent. I
could not come to a ready idea of how long the formula powder might be
good on the shelf since it seemed to vary radically depending on exact
type and manufacturer. The shortest use-by date was only a year, but
some had use-by dates three years into the future. Clearly, this is an
area that is going to need much investigation. I hope some of our
knowledgeable readers out there will be able to help out.
=======================================================================
-- III --
SPOILAGE
=======================================================================
A -- INSECT INFESTATIONS
A.1 PESTS OF STORED GRAINS, LEGUMES AND DRY FOODSTUFFS
Insect infestations can occur in a wide variety of foodstuffs such
as flours, meals, pastas, dried fruits and vegetables, nuts, sweets,
whole grains, beans, sugars, TVP, jerky, bird seed and pet foods.
Naturally, the best way to deal with an insect infestation is not
to have one in the first place. Try to purchase from suppliers who are
clean and have a high volume of turnover of their products. This will
mean the products you purchase will be less likely to have bugs in them.
When you buy foodstuffs examine them closely to be sure they are
insect free. Check for any packaging or use by dates to insure their
freshness. Don't shake the package, most adult insects will be found in
the top couple of inches of the product and shaking the package will mix
them into the contents and disguise them. If the package does turn out
to be infested, return it for replacement.
Once you have purchased the product you should store it in an air-
and moisture-tight container so it cannot be invaded after you have
brought it home. With sufficient time, adult and some larval insect
forms can penetrate paper, cardboard and thin plastic packaging. Your
containers should be either heavy plastic, glass or metal with tight
fitting lids. As with everything in food storage, you should use older
packages before newer ones and opened packages before unopened ones.
The storage area should be kept clean. Don't allow grain, flour,
beans, bits of pasta or other food particles to accumulate on shelves or
the floor. Cracks and crevices should be sealed or otherwise blocked.
Unless it is a sticky spill, vacuuming is the best method of cleaning
since cleaning with soap and water can wash food particles into the
cracks.
Insects may get their start in chairs, sofas and carpets where food
is dropped and not cleaned up. Don't forget to replace the filter bag
on the vacuum since some insects can survive and reproduce in the bag
after they've been sucked into it.
Bags of dry pet food and bird seed can also harbor insect
infestation. Decorative foodstuffs such as ears of colorful Indian
corn, colored beans and hard squashes can carry insects that can infest
your edible food. Even poison baits can harbor flour beetles.
A.2 CONTROL OF INSECT INFESTATIONS
Should you find that in spite of buying fresh products and using
careful packaging techniques you have an insect infestation, you can try
some of the following steps:
1. If the food is too heavily infested to try to save it should be
disposed of as soon as possible. Remove it from the kitchen or
food storage area immediately so it won't infest other foods.
2. Large bugs can be sifted or winnowed out if the food's not too
heavily infested and you want to try to save it. Then treat it
by placing into a deep freezer at 0 deg. F for three to seven days
depending upon the size of the package. Refrigerator freezers usually
do not freeze low enough to effectively kill all of the life stages of
insects, but if left there, will slow their development. If freezing is
not workable then the product could be spread on baking sheets and
heated to 150 deg. F for fifteen to twenty minutes, cooled and
repackaged. Heat treated foods should be consumed shortly thereafter.
3. The surface areas where the food containers are stored can be
treated with an insecticide. This is not a replacement for
clean storage habits and good containers, but it can supplement it.
This will not control insect infestations already in your stored foods.
Spray the shelf surface with 0.5% chlorpyrifos (Dursban), 1%
propoxur (Baygon), 0.5 percent diazinon, or 0.25 percent resmethrin.
You can find any of these in the hardware store in ready to apply
packages. If a sprayer isn't feasible then they can be applied with a
paint brush. Allow the solution to dry thoroughly. Cover the shelves
with clean, untreated shelf paper and put properly packaged foods back
on shelves. READ THE PRODUCT LABEL FOR SAFETY INFORMATION CONCERNING
CHILDREN AND PETS.
Household bleach, Lysol and other sterilizers will not control
insect infestation, though they can be used for mold, mildew and algae.
You may continue to find some insects after the cleanup is
finished. This could be for several reasons. The first being they
escaped from the packages they were infesting and did not get cleaned
up. There may be more packages infested than were originally realized
or, there may be hiding places in the storage area that need attention.
Once you have carefully eliminated all food sources, the bugs should
disappear in three to four weeks.
B -- MOLDS IN FOOD
Molds are fungi just like mushrooms and yeast. Also like
mushrooms, they reproduce by releasing spores into the air that land on
everything, including your food and food storage containers. If those
spores begin to grow, they create thin threads that spread through out
their growing medium. These threads are the roots of the mold fungus,
called "mycelium". The stalk of a mold fungus is the portion above or
on the surface of the food. It produces the spores and gives the mold
its color. We've all seen examples of this when we discover a dish of
something or other left way-y-y too long in the refrigerator and has
become covered in mold fuzz.
Molds can grow anywhere they have a growing medium (their food),
sufficient moisture and enough warmth. Some can even grow at
refrigerator temperatures, albeit more slowly than they would if it were
warmer. They can also withstand much more salt and sugar than bacteria,
which is why you sometimes find mold in jellies and jams with their high
sugar content and on cured products like ham or bacon with their high
salt content.
In the past, it was often felt a slight amount of mold was harmless
and the food could be consumed anyway. For molds that were
intentionally introduced into the food, such as the mold in bleu cheese,
this is just fine. For the unintentional molds, it can be a very
serious error in judgment. These unwanted molds might just be producing
a toxic substance called a "mycotoxin" which can be very bad indeed.
Mycotoxins are produced around the root or mycelium of the mold and the
mold roots can penetrate very deeply into the food. These mycotoxins
can survive for a long time in foods, and unfortunately most are not
destroyed by cooking. The molds probably best known for this are the
various Aspergillus varieties which produces a mycotoxin known as
"aflatoxin", but there are other dangerous molds as well, such as the
Fusarium molds. Both of the above affect grain and some legumes. See
B.3 Molds In Grains and Legumes.
IMPORTANT NOTE: In wet pack foods such as your home canned goodies,
molds can do something else as well, possibly leading
to lethal consequences. If they find their way into wet pack acid foods
canned by the boiling water bath method, whether by reasons of improper
procedure or contamination after the fact, they can consume the natural
acids present in the food. The effect of this is to raise the pH of the
food in the container, perhaps to the point that it becomes possible for
spores of *Clostridium botulinum*, better known as "botulism", to become
active and reproduce. If you're not already aware of the consequences
of botulism poisoning, please read the bacterial spoilage section below
where it has an entry all its own. This is the most deadly kind of food
poisoning there is. For this reason, moldy wet pack foods should be
*safely* discarded.
Molds in low acid foods canned by the pressure canning method are
equally dangerous and should also be discarded in a safe manner.
B.1 MINIMIZING MOLDS
You can do a number of things to minimize unwanted mold growth in
your kitchen, food storage areas and refrigerators. If your kitchen is
at all like mine, it is the refrigerator that is going to collect the
most fungal growth. This can be dealt with by washing the inside every
couple of months with a tablespoon of baking soda dissolved in a quart
of warm water. Rinse clean and allow to dry. The black mildew that
grows on the rubber door gaskets and other places can be dealt with by
wiping down with a solution of three tablespoons of household bleach in
a quart of water. I generally use a soft bristle brush for this.
The rest of the kitchen can be kept mold free by keeping it clean,
and dry and by spraying occasionally with a product such as Lysol.
Patches of mold growing in spots can be eliminated with the bleach
solution used on the refrigerator doors.
Try not to purchase more fresh food than you'll be able to eat in a
short period of time. This will keep you from having to deal with the
moldy remains that didn't get eaten. If food does go moldy, don't sniff
it. This is a good way to give yourself respiratory difficulties if you
are at all susceptible to mold allergies. Moldy food should be disposed
in such a manner that your animals and children won't be able to get
into it. Mycotoxins are every bit as bad for your animals as they are
for you.
Obviously, you don't have to throw out everything that shows a spot
of mold on it. Some foods can be safely dealt with and still partially
saved if they show signs of fungal growth. Below is a set of guideline
from M. Susan Brewer, Ph.D., R.D., a specialist in food safety. Her
articles and works are found in many state university extension services
publications lists.
If the food shows even a tiny mold spot, follow these guide lines:
1. Hard or firm foods with tiny mold spots can be trimmed; cut away the
area around the mold (at least an inch) and rewrap in clean wrap.
Make sure that knife does not touch the mold.
2. Soft foods such as cheese slices, cream cheese, sour cream and
yogurt should be thrown away.
TOSS:
Soft Cheeses, (Mozzarella, Brie, etc.)
Sour Cream, Yogurt, Cottage cheese
Bacon, Hot dogs, Sliced lunch meats
Meat pies
Opened canned ham
Most left-over food
Bread, Cakes, rolls, flour, pastry
Peanut butter
Juices, berries
Jam, Jellies, Syrups
Cucumbers, Tomatoes
Spinach, Lettuce, other leafy vegetables
Bananas, Peaches, Melons
Corn-on-the-cob
Stored nuts, whole grains, rice
TRIM:
Hard Cheese (Cheddar, Swiss, etc.)
Bell Peppers, Carrots, Cabbage
Broccoli, Cauliflower, Brussels Sprouts
Garlic, Onions
Potatoes, Turnips
Zucchini
Apples, Pears
B.2 MOLDS IN CANNED GOODS
If good equipment and proper technique are used, then it is
unlikely you will ever have mold growth in your unopened canned goods.
If you do have such, then there was either a flaw in the procedure you
used, or something affected the jar or can after the fact to break its
seal. In any event, once the food has molded, it is past saving and
should be discarded in such a way that children and animals will not be
able to get into it. The most likely home canned products to show mold
growth are jams and jellies sealed with paraffin wax.
There are a number of points in the canning process where this can
occur:
(1) In the time after the jar is taken out of its boiling water
bath, but before it is filled.
(2) In the time between when the jar is filled and covered with the
melted wax.
(3) When the wax cools, if it pulls away from the side of the jar,
leaving an opening for the mold to get in.
(4) If bubbles form in the paraffin, which break and leave holes.
It is for this reason that most canning authorities no longer
recommend using this technique. If you must use it, the jelly jars
should be boiled for at least 10 minutes before the jelly is poured into
the jars. The filled and wax capped jars should then be covered with
some sort of protective lid. The book, Putting Food By has excellent
instructions on this or see the applicable section of the
rec.food.preserving FAQ by Leslie Basel.
B.3 MOLDS IN GRAINS AND LEGUMES
It's long been known that eating moldy grain is bad for your
health. The ugly consequences of eating ergot-infected rye probably
make the best known example. It's only been for about thirty years,
though, that intensive study of these grain fungi have been carried out
on other varieties of molds and their respective mycotoxins.
Fortunately, for those of us in the U.S., the USDA and the various state
departments of agriculture go to a great deal of trouble to detect grain
and legumes infected with these toxic fungi. In some of the less
developed countries, the citizenry are not so lucky. Still, it is good
to have something of an understanding of what one should do to prevent
mold growth in one`s stored grains and to have an idea of what to look
for and ask about when purchasing grains and legumes.
The one fungal type that has caused the most commotion in recent
history are the various "Aspergillus" species of molds. Under certain
conditions with certain grains, legumes, and to a lesser extent, nuts,
they can produce a mycotoxin called "aflatoxin". This is a serious
problem in some parts of the world, most especially in peanuts,
occasionally in corn. I am not aware of any documented deaths in the
United States from aflatoxicity, but other nations have not been so
fortunate. What makes aflatoxin so worrisome in this country is that it
is also a very potent carcinogen (cancer causing agent).
In addition to the Aspergillus molds, there is also a very large
family of molds called "Fusarium" and these can produce a wide variety of
mycotoxins, all of which you do not want to be eating directly or
feeding to your food animals where you will get the toxins back
indirectly when you eat them.
The Federal government and the various state governments
continuously monitor food and forage crops. Those products which are
prone to mold growth and toxin production are not allowed to be sold for
food. Once purchased however, it is up to you to keep your food safe
from mold growth. If you have already found mold growth in your whole
grains, meals, flours or other grain products, they should be discarded.
Most mycotoxins are not broken down or destroyed by cooking temperatures
and there is no safe way to salvage grain that has molded.
B.3.1 PREVENTING MOLD GROWTH IN STORED GRAINS AND LEGUMES
The easiest method to prevent mold growth in your stored grains and
legumes is simply to keep them too dry for the mold to grow. The
Aspergillus and Fusarium molds require moisture contents of 18% and
above to reproduce. This is subject to some variability, but in all
grains and soybeans, they must have a moisture content of that level.
If you are storing raw (not roasted) peanuts, in the shell or shelled,
you want to get the moisture content to less than 8% as peanuts are
particularly susceptible to mold growth. The recommended moisture
content for all other grain and legume storage is no more than 10%.
*Please see part 2.A.3.1 Grains and Legumes for a method to determine
moisture content.* At 10% moisture, it is simply too dry for fungi to
grow. *Please see 1.A.4 Storing Grains and Legumes for a suitable
packaging technique.*
C -- BACTERIAL SPOILAGE
Just like the fungi, bacteria are everywhere. They're in the
water, soil, air, on you, your food and your food storage containers.
Fortunately, the vast majority of the bacteria we encounter are
relatively harmless or even benign and only a few represent a danger to
us and our stored foods.
Bacteria can be very much more difficult to kill off than molds and
insects. Some of them are capable of continued growth at temperatures
that would kill other spoilage organisms. When conditions are such that
they are unable to grow, some bacteria can go dormant and form spores.
These spores can be quite hardy, even to the point of surviving a
rolling boil.
In order to grow, bacteria need moisture, some as little as a 20%
moisture content. For dry grains, legumes, powdered milk and other low
moisture foodstuff bacterial spoilage will seldom be a problem so long
as the moisture level in the foodstuff remains too scant to support its
growth. For this reason, it is imperative that such products be drier
than 20% and preferably below 10% to ward off mold growth as well. The
botulism bacterium needs moisture in the 35% range to grow. Thus,
making being sure of the moisture content of the food products you want
to store, and appropriately using desiccants in your food packaging are
also excellent ideas.
WARNING: It is in wet pack canned goods (where the container has
free liquid in it) and fresh foods we must be the most
concerned about spoilage bacteria. It is here that a little bad luck
and a moment's inattention to what you are doing could kill or seriously
injure you or some other person who eats the foods you've put by. In
both home-canned and commercially-canned goods, IF THE CAN IS BULGING,
LEAKING, SMELLS BAD, OR SPEWS LIQUID WHEN YOU OPEN IT THEN THROW IT
OUT!
But, throw it out safely so that children and animals cannot get into
it.
C.1 BOTULISM
*Clostridium botulinum* is one of the oldest life forms found on
the planet. Like the gangrene bacteria, it is an anaerobic organism
meaning it lives and grows in the absence of free oxygen. It forms
spores when conditions are not suitable for it to grow and it is
commonly found in the soil. This means it can be brought into your life
on raw produce, tools, hands or anything else that came into contact
with dirt. To further complicate matters, botulinum spores are
extremely heat-hardy. The bacteria itself can be killed by exposing
them for a short time to boiling water (212 deg. F AT SEA LEVEL
PRESSURE), but their spores can not. To kill them, the food product and
container must be exposed to temperatures of 240 deg. F (AGAIN AT SEA
LEVEL PRESSURE) for a long enough period of time to allow all of the
food in each container to come completely up to the proper temperature.
Only a pressure- canner can reach the necessary temperature.
It's not the bacteria or its spores which are directly deadly, but
the toxin the bacteria creates when it grows and reproduces. In its
pure form, botulism toxin is so potent that a mere teaspoon of it would
be enough to provide a fatal dose to hundreds of thousands of people.
It is this lethality that is why every responsible book on canning, food
preservation, food storage, and the like hammers constantly on the need
for care in technique and method and why spoilage must be taken so
seriously.
C. botulinum, like any other life form, must have suitable
conditions for it to grow and become a danger to you. One of the
conditions it must have is a suitable pH range in its environment.
pH is the measure of the acidity or alkalinity of a substance and is
measured on a scale of 1-14 with anything above 7 being considered
alkaline and everything below 7 being considered acid. If the pH of
your wet pack food is BELOW 4.6 then botulism is unable to grow. Keep
in mind pH is not eternal in foods and it is possible for it to change.
If it should change to a lesser acidity than 4.6 pH your previously
botulinum proof food may start allowing the lethal spoiler to grow (see
B.2, molds in canned goods). This is why it is vital to use proper
technique, even for acid foods like tomatoes. It has been found that
when this occurs and botulinum becomes active and produces its lethal
toxin it also produces minute amounts of acid which can lower the pH of
the poisoned food back into what should have been the safe zone had the
pH not jumped up and allowed the bacteria to grow. Again and again --
use good technique and pay attention to what you are doing.
Botulinum toxin, unlike fungal mycotoxins, can be destroyed by
boiling the food briskly in an open vessel for fifteen minutes. Because
of this, if your canned food shows any safety problems you should follow
this procedure. If the food shows even the slightest mold growth, keep
in mind that mycotoxins are not for the most part broken down by heat
and dispose of the food safely.
I don't intend to go into the hows of home canning here. For that
I strongly recommend that you read the *r.f.p. FAQ*, the *Ball Blue
Book* and most especially the book *Putting Food By* for in depth
information on this subject.
C.2 OTHER BACTERIAL SPOILERS OF FOOD
This section will be in a future version of this FAQ.
D -- ENZYMATIC ACTION IN FOOD SPOILAGE
Every living organism uses enzymes of many sorts in its bodily
functions as part of its normal life cycle. Enzymes are used in
creating life. After death, enzymes play a role in the decomposition of
once living tissue. The enzymes in a tomato help it to ripen and
enzymes produced by the tomato and whatever fungal and bacterial
spoilers are on it cause it to decay.
Fortunately, slowing down or stopping the action of a food's
enzymes is much easier to do than slowing or stopping some of the
bacterial spoilers mentioned above. Enzymes are most active in a
temperature range between 85-120 deg. F and begin to be destroyed when
the temperature goes above 140 deg.F. Cold also slows down the action
of enzymes, which is why fresh tomatoes last longer in the refrigerator
than they do on the kitchen table. Most enzymatic action also requires
moisture to occur. In foods stored at 10% moisture or less, there is
not enough moisture for most enzymes to be active.
=======================================================================
-- IV --
SPECIFIC EQUIPMENT QUESTIONS
=======================================================================
A -- STORAGE CONTAINERS
A.1 WHAT IS FOOD GRADE PACKAGING?
Q: OK, I'm ready to start my storage program. What should I put
the food in?
A: You should use food grade packaging for storing anything you
intend to eat. A food grade container is one that will not transfer
noxious or toxic substances into the food it is holding. If you are
uncertain whether a package type is food grade you can contact the
manufacturer. Ask if that particular container is (US) FDA approved
meaning that it is safe for food use. When inquiring be sure to specify
the characteristics of the food you are storing; wet, dry, strongly
acidic or alkaline, alcoholic or a high fat content. A container that
is approved for one of the above types of food may not be approved for
another.
The major functions of a food storage container are to:
#1. Protect its contents from outside environmental influences such
as moisture, and oxygen, but possibly also heat or cold, light,
insects and/or rodents as well.
#2. Prevent damage during handling and shipping.
#3. Establish and/or maintain microbiological stability. The
container should not allow microorganisms such as fungi and bacteria
from outside the container to come into contact with its contents.
This is of critical importance to wet-pack foods such as canned
vegetables, fruits and meats.
#4. Withstand the temperatures and pressures it will be exposed to.
This is necessary if the contents are to be pasteurized or
sterilized, either immediately before or after filling. It must not
have any structural failures nor release any noxious or toxic
breakdown chemicals into the food it contains. This is the reason
why purpose built canning jars are recommended for home canning and
mayonnaise jars aren't. The former are made heavier to withstand
high temperatures and handling whereas the latter are not and have
an increased risk of breakage if used for that purpose.
Virtually all containers used in home food preservation involving
exposure to high temperatures are made of glass or metal, with the
exception of some specialized "heat & seal" type of plastic bags. Glass
can be used with any food type providing it is clean and in sound
condition, but metal cans are more specialized. They must be intended
for food use and must also have a lining or coating of the inside that
is suitable for the pH level of the food it will be in contact with.
If the foods are not subjected to some form of heat processing just
before or after packaging your selection of container types for home use
is a great deal larger. Virtually any kind of clean, sound glass jar
can be used and many types of new metal containers. Several sorts of
plastics have become popular. These various kinds of plastics are each
suited for different purposes, making selection a more complex task.
A.1.1 WHERE DO I FIND FOOD GRADE CONTAINERS?
Food grade packaging is everywhere. Every time you go into the
grocery store you are surrounded by it. Many well known companies such
as Tupperware and Rubbermaid manufacture and sell empty packaging for
the express purpose of containing repackaged foods. The kinds of
containers you are interested in and the types of foods you want to put
in those containers will dictate where you need to look for a particular
packaging system.
For food storage purposes most folks are usually interested in five
and six gallon plastic pails, glass jars from pint to gallon sizes,
metal containers such as the institutional sized #10 cans, and Mylar or
other high barrier property plastic bags. Those are the containers most
often used, but virtually anything that can protect foods from outside
environmental influences, safely contain something you're going to later
eat and have a volume capacity large enough to be worthwhile may be
used.
A number of food storage retailers such as those listed in the
Resources section sell plastic buckets, Mylar bags and a few even sell
new #10 cans with lids. It may also be possible to purchase #10 cans
through the LDS Family Canneries and dealers such as Lehman's Hardware
Cumberland General Store or Home Canning Specialty and Supply. On the
local scene, plastic five gallon buckets are widely available, but only
if you purchase them through a restaurant or commercial foods supply
house will you likely be able to tell if they're safe to keep food in.
If you can locate a customer service number for the manufacturer you can
call them and ask. Many times manufacturers will make products that are
FDA approved and sell them as general purpose containers, but you need
to call to be sure.
Packaging supply houses, such as United States Plastics and others,
have large FDA approved packaging lines. Several such companies are
listed in the Resources section and a bit of detective work can probably
turn up more. Some require minimum orders and others don't. The cost
of shipping the containers will probably play a major role in your
decision making. If you are going to package a great deal of food all
at once, perhaps for a group of people, some of the companies that
require minimum purchases can sometimes save you a fair amount of money
and supply packaging you might otherwise have a difficult time finding.
Some time spent searching the Thomas Register, available both online
(http://www12.thomasregister.com ) and in library reference sections,
might turn up some valuable leads.
For glass jars, don't overlook flea markets, yard sales, thrift
shops and similar places. Canning jars can sometimes be had for very
little. Delicatessens, sub shops and restaurants of all sorts can be a
source of one gallon glass jars formerly containing pickles, peppers,
etc. If the lids are still in good condition, they are well suited to
bulk storage and can be reused over and over.
Metal cans, by and large, are not reusable for good storage, but
some companies might be able to sell you new cans. The traditional
single use #10 can is only the beginning of what might be available with
a little looking. Gallon sized or larger cans with double friction lids
(like paint comes in) make excellent storage containers and some
companies make them food safe. One gallon and larger cans with wide
diameter screw caps are available from some companies as well. You
might have seen some of these holding edible oils, soy sauce, honey and
other liquid food. If they come with a cap that will seal air tight
they would be well suited for bulk storage of grains and legumes,
particularly if they come in a four to six gallon size.
Pick up you local phone book, log on to your favorite search engine
or head to your local public, college or university library and explore
the possibilities. Make it clear that what you want must be FDA
approved and be up front about how many you need or can deal with. If
one company won't deal with you, try another. You'll eventually get what
you want.
-----------------------------------------------------------------------
From: Denis DeFigueiredo ddefig@newhall.com
Originally posted in: rec.food.preserving
I called Berlin [eds. note, a plastic container mfgr.] 1-800-
4-BERLIN and spoke to them, plus an outfit called Kirk Container (they
manufactured some 5 gallon paint buckets I saw in the local hardware
store). Both places said that buckets made from High Density
PolyEthelene (HDPE) are approved for food. It has to do with the
possibility of interaction between any chemicals in the food and the
plastic. As it turns out, Kirk manufactures only one kind of bucket,
and then markets it for paint, hardware, food, etc. The price is right
on the "paint buckets" - much cheaper than the local restaurant supply
house.
High density polyethelene buckets will have HDPE stamped on them,
or a recycle symbol with a "2" in the middle.
DISCLAIMER: I'm only passing on information I received from the
manufacturers. I am in no way professing these things to be absolute
fact!
-----------------------------------------------------------------------
From: "Jenny S. Johanssen" johanssen@matnet.com
Originally posted in: rec.food.preserving
Denis - saw your comments on food grade buckets and thought I'd
offer my solution. My son cooks at a local Mexican restaurant. They
get all their strawberries (for the strawberry magaritas at the bar) in
3 gallon plastic buckets. Now you know how many margaritas pass through
a Mexican bar each night - lots. So I asked my son to save me some
buckets. They are ideal for storing flour, rice, I made (from my home
grown raspberries) a delicious raspberry cordial in one of the buckets,
another I made Raspberry wine in. My motto is why buy when you can
recycle! Thanks for giving me the time and space to add my two-bits
worth. - Jenny
-----------------------------------------------------------------------
From: Woody Harper lager@primenet.com
Originally posted: rec.food.preserving
...I get topping buckets from Dairy Queen and I have to make sure
there is no trace of the strawberry syrup left. A little detergent and
elbow grease followed by a chlorine solution bath keep everything nice
and clean.--
A.2 PLASTIC PACKAGING
Before we can intelligibly discuss plastic packaging it is
necessary to understand what the substance we call "plastic" is.
Plastics are produced from basic polymers called "resins", each of which
have differing physical properties. Additives may be blended in to
color them or to modify particular properties such as moldability,
structural properties, resistance to light or heat or oxidation.
Additionally, it is common for several different kinds of plastic to be
laminated together each performing a particular desired task. One might
offer structural rigidity and the other might be more impermeable to the
transfer of gasses and odors. When bonded together a rigid, gas
impermeable package can be made.
Whether that package is safe for food use will depend on the exact
nature of the additives blended into the plastic. Some of them, notably
plasticizers and dyes, can migrate from the packaging material into the
food it's containing. This may be exacerbated by the nature of the food
it's in contact with especially if it is high fat, strongly acidic or
alcoholic in particular. Time and temperature may also play a prominent
role in the migration of plastic additives into food. For this reason,
the (US) FDA assesses the safety of packaging materials for food contact
and conducts toxicological studies to establish safety standards. Only
plastics that are FDA approved for a particular food type should be used
for direct contact with that food.
Just being FDA approved, however, may not be all of the story. It
must still be determined whether the particular plastic in question has
the physical properties that would make it desirable for your purpose.
As mentioned above each base resin has somewhat differing physical
properties that may be modified with additives or combined by laminating
with another plastic or even completely unrelated materials such as
metal foils. An example of this is "Mylar", a type of polyester film.
By itself, it has moderate barrier resistance to moisture and oxygen.
When laminated together with aluminum foil it has very high resistance
and makes an excellent material for creating long term food storage
packaging. One or more other kinds of plastic with low melting points
and good flow characteristics are typically bonded on the opposite side
of the foil to act as a sealant ply so that the aluminized Mylar can be
fashioned into bags or sealed across container openings. The combined
materials have properties that make them useful for long term storage
that each separately do not have.
Probably the most common plastic that raises suitability questions
is High Density PolyEthylene (HDPE). It's used in a wide array of
packaging and is the material that most plastic five and six gallon
buckets are made of. It has a moderate rigidity, a good resistance to
fats, oils, moisture and impacts, a fair resistance to acids, but is a
poor barrier to oxygen.
Whether it is suitable for your purpose depends on how sensitive to
oxygen exposure your product is and how long you need it to stay in
optimal condition. Foods such as whole grains are not particularly
delicate in nature and will easily keep for years in nothing more than a
tightly sealed HDPE bucket. Most legumes are the same way, but those
that have high fat contents such as peanuts and soybeans are more
sensitive to O2. Other foods such as dry milk powder might only go a
year before deleterious changes are noticed. If that milk were sealed
in an air-tight aluminized Mylar bag with the oxygen inside removed, the
milk would probably go for two years or more. Better still would be to
seal the milk in a metal can or glass jar. HDPE can still be used for
long term storage, but with one or more of the following precautions to
keep a high food quality: The food should either be put on a shorter
rotation cycle than packaging also using a second gas barrier such as
Mylar; be periodically opened and re-purged or fresh absorbers should be
inserted.
Some special plastics and plastic laminates have excellent oxygen
and moisture barrier properties and are eminently suited to long term
storage, but for home use they are not easy to find, though some used
containers might be available for reuse..
A.2.1 HOW DO I GET THE ODOR OUT OF PICKLE BUCKETS?
I've had fairly good luck doing it in the following way. Since
vinegar is the primary smell in pickles and it's acidic, we used a base
to counteract it. First we scrubbed the bucket well, inside and out,
with Dawn dish detergent. Most any sort will do. Then we filled the
buckets with hot water and dissolved a cup of baking soda in each. Stir
well, get the bucket as full as you can and put the top on. Put the
bucket in the sun to keep it warm so the plastic pores stay open as much
as possible. In a couple of days come back and empty the buckets.
Rinse them out, fill with warm water again and add about a cup of bleach
and reseal. Put back in the sun for another couple of days. Empty out
and let dry with the tops off. We completely eliminated the vinegar
smell this way. It might be possible to cut the time down a lot, but we
haven't experimented that much since we can't get that many pickle
buckets.
A.3 METAL CANS
Metal cans and glass jars being heat resistant, can both be used
for heat processed, wet-pack foods and for non-heat treated dry pack
canning. For wet foods, however, metal cans have several disadvantages
for the do-it-yourselfer. They are hard to come by, and they take
specialized equipment to use that can be difficult to locate. Probably
the greatest flaw which makes them unpopular for home canning heat
processed wet-pack food is that they can only be used once. Since the
commercial canning industry is not interested in reusing the containers,
metal cans make great sense for their purposes. The cans are both
cheaper (for them) and lighter than glass jars. This adds to the
economy of scale that makes canned foods as cheap as they are in the
grocery store.
For home canning, wet-pack heat processed foods glass jars are
better because even the smallest of towns will usually have at least one
business that carries pressure and boiling water canners along with
jars, rings and lids. With metal cans a can sealer is necessary and
this usually has to be ordered from the manufacturer or a mail-order
distributor. A few of which are listed in the Resources section.
Metal cans are not really made entirely of tin. They're actually
steel cans with a tin coating on the inside and outside. Some kinds of
strongly colored acidic foods will fade in color from long exposure to
tin so a type of enamel liner called "R- enamel" is used to forestall
this. Certain other kinds of food that are high in sulfur or that are
close to neutral in pH will also discolor from prolonged contact with
tin. For those foods, cans with "C-enamel" are used.
The excellent food preservation book, *Putting Food By* Chapter 6
(see reference list) has a section on the use of metal cans for wet
packed foods.
It is in dry-pack canning that metal cans for home use begin to
come into their own. Because microbiological sterilization isn't
necessary, foods that are dry packed into containers do not have to be
subjected to heat processing nor does the safety of their seals depend
upon the vacuum that the cooling contents create. This means that other
packaging methods and container types may be used.
Probably the most common use of metal containers is the #10 cans
such as are used by the LDS family canneries discussed below. This is
not the only way they may be used though. It will probably take a bit
of searching, but there are various food grade metal containers
available of sufficient volume to make them useful for food storage.
They usually have double friction lids similar to paint cans or screw
caps like jars that can achieve an air-tight seal. If you can find them
in a large enough volume capacity they can be of real use for storing
bulky foods such as grains, legumes and sugar. Smaller cans of a gallon
or less would be useful for storing items like dry milks. If properly
sealed, metal cans have a far higher barrier resistance to gasses such
as oxygen, CO2, and nitrogen than any plastic.
Although they can hardly be considered portable the use of metal
drums (not garbage or trash cans), either themselves food grade or used
with food grade liners, is also a possibility. A fifty five gallon drum
full of grain will weigh several hundred pounds, but may make for a much
easier storage solution than multiple buckets. The advantage of using
such a large container is that a great amount of a single product can be
kept in a smaller amount of space and fumigating or purging the storage
atmosphere would be simpler. The disadvantages are the difficulties of
moving it and rotating the stock in the drum. If using oxygen absorbers
make sure the drum you want to use is capable of making an air-tight
seal, otherwise you should stick with carbon dioxide fumigation.
A.3.1 POOLING RESOURCES: THE CHURCH OF JESUS CHRIST OF
LATTER DAY SAINTS -- THE MORMONS
Although the purchase of a can sealer and metal cans for home use
is not economically feasible for most people there is one way that it
can be. This is by pooling community resources to purchase the
equipment and supplies. It may even, in fact, not be necessary to form
your own community to do this. If you live in the right area your local
Latter Day Saints church may have facilities they will allow you to use.
They may even have suitable food products to sell you. This is an
offshoot of the church's welfare programs and it is done in their family
canneries. Rather than using plastic buckets they have gone over to
using metal cans church-wide for dry-pack canning. By sharing the cost
of the equipment and purchasing the cans in bulk quantities, they are
able to enjoy the advantages of metal cans over plastic containers while
minimizing the disadvantages of cost. As we approach the end of the
Millennium, other groups, both religious and secular, are purchasing can
sealers in order to facilitate their own food storage programs as well.
*Please see VI.F.1 Organizations. The Church of Jesus Christ of
Latter Day Saints -- LDS Family Canneries for more detailed information
about where LDS Family Canneries may be found and how best to approach
using them.*
Any food products you want to have sealed in cans will need to fall
within the LDS cannery guidelines of suitability for that type of
packaging. This is for reasons of spoilage control since many types of
foods just aren't suitable for just sealing in a container without
further processing. If you purchase food products from them, they will
already be within those guidelines. *A brief treatment of these
guidelines may be found in VI.F.1 LDS Family Canneries Guidelines.*
Once you have your foodstuffs on hand, either supplying your own or
by purchasing them from the cannery you're ready to package them. It is
here that using some forethought concerning your packaging system can
save you much time and aggravation. With the Millennium coming upon us
the traffic load of the canneries is really beginning to pick up. This
means that access time to the can sealers and other equipment may be
limited.
IMPORTANT NOTE: Please do keep in mind that the individuals
responsible for the family canneries are all
*volunteers* with demands on their time from many areas. Be courteous
when speaking with them and, if there are facilities for use, flexible
in making arrangements to use them. You will, of course, have to pay
for the supplies that you use, cans and lids at the least, and any food
products you get from them. With the onset of the millennium the LDS
family cannery volunteers are becoming quite busy so be prepared to have
to work with their available scheduling. As a general rule they cannot
put your food in storage for you. Be ready to pay for your purchases in
advance, if necessary. They do not take credit cards and probably
cannot make change so take a check along with you.
The following is a list of suggestions to make the most efficient
use of your access time:
#1 - Make your appointment well in advance. Many people are
beginning to make use of the canneries so making advanced
reservations is a must.
#2 - Have enough people to set up an assembly line type operation.
Make sure each of your people knows what they need to do and
how to do it. At least four people for any serious amount of
food is a good number. Ask the cannery volunteer to go over
the process with you and your crew.
#3 - Make sure you have enough muscular helpers to do the heavy
lifting so you don't wear yourself out or hurt your back. Some
of the supplies you will be working with, such as wheat, come
in fifty pound bags and a box of #10 cans full of sugar or
other weighty items are heavy.
#4 - Make labels for the foods you are going to pack in advance.
This will save time after the cans are filled.
#5 - Take out only as many as oxygen absorbers as you can seal up in
a half hour. They use up most of their capacity within two to
three hours depending on temperature and humidity. You don't
want them to waste any by soaking up the oxygen in the room.
The ones you don't use up right away should be tightly sealed
in a gas proof container.
#6 - Save powdery food items such as dry milk powder, pudding mixes
and grain flours and meals till last. They can be messy to can
and this will keep them out of your other foods.
#7 - Leave time to clean up after yourself. They are doing you the
courtesy of using their equipment and selling you the supplies
at cost. You should return the favor by leaving the place at
least as clean as you found it.
#8 - Always keep in the back of your mind just how much volume and
weight your vehicle can carry. You'd hate to find you canned
more than you could carry home.
*See also IV.C.2 Preventing Corrosion of Canned Goods.*
A.4 GLASS JARS
Compared to metal cans, glass jars are very stable, although they
obviously don't take being banged around very well. The cardboard boxes
most jars come in are well designed to cushion them from shocks. The
box also has the added bonus of keeping damaging light away from food.
The major advantage of glass jars is that they are reusable. For
wet-pack canning the lids must be replaced, but the rings don't. For
dry pack canning even the lids may be reused probably indefinitely.
When you get right down to the bottom line, it is seldom practical
strictly in terms of dollars and cents to wet-pack your own food in
jars. When you count the cost of your equipment, including the jars,
rings, lids and all the rest, along with a not inconsiderable amount of
your personal time, the cost of purchasing or growing your produce,
you'll almost always come out ahead to buy food canned for you by the
commercial canning industry. That said, forget about the strict bottom
line and examine more closely why you want to put up your own food. For
many, gardening is a pleasure and they have to have something to do with
the food they've grown! There's also the fact that for many, you simply
cannot buy the quality of the food you can put up for yourself. The
canning industry tries to appeal to a broad spectrum of the general
public while you can put up food to your own family's specific tastes.
Home canning is not so much about saving money as it is about
satisfaction. You get what you pay for.
If home canning appeals to you, please allow me to point you toward
the *rec.food.preserving FAQ* where much very good information about
methods and techniques may be found.
Dry-pack canning using glass jars, on the other hand, may well make
a great deal of economic sense. It is usually far cheaper per pound to
purchase food in bulk quantities, but often unsuitable to store it that
way. Breaking the food down into smaller units allows for easier
handling and exposes a smaller quantity of food to oxygen and moisture
before it can be used up. Of course, packaging used for doing this can
be made of many different materials, but glass is often the easiest and
most convenient to acquire and use. Used containers are frequently
suitable and are often free or of little cost. One source of gallon
sized glass jars are sandwich shops and restaurants that use pickles,
peppers and other sandwich condiments. I have a Subway sandwich shop
that saves its pepper jars for me and receive several per week. There
are also half-gallon canning jars, though they are sometimes difficult
to find. The brand I buy is made by Kerr.
A.5 MYLAR BAGS
The word "Mylar" is a trademark of the DuPont corporation for a
special type of polyester film. Typically made in thin sheets, it has a
high tensile strength and is used in a wide variety of industrial
settings.
In food storage, particularly for the long term, it is commonly
found as a laminate with Mylar as the top layer, a very thin aluminum
foil in the middle and one or more other types of plastic films on the
bottom acting as sealant plies. This laminate combination possesses a
high resistance to the passage of oxygen, carbon dioxide, nitrogen,
other gasses and water vapor and is what makes it valuable for our
purposes. Unfortunately, it has a poor puncture resistance so it must
be used as an interior liner for more puncture resistant containers
rather than as a stand- alone package.
Food grade aluminized Mylar complies with US FDA requirements and
is safe to be in contact with all food types except alcoholic.
For food use, Mylar is most commonly available as pre-made bags of
various sizes. Flat sheets or rolls of the material might also be found
from which bags could be fashioned as well.
When Mylar bags are used by the storage food industry they are
generally for products sealed in plastic buckets. The reason for doing
this is that the High Density PolyEthylene (HDPE) from which the pails
are made is somewhat porous to gasses. This means that small molecules,
such as oxygen (O2), can slowly pass through the plastic and come into
contact with the food inside. The problem is further compounded if
oxygen absorbers are used, as the result of their absorbing action is to
lower the air pressure inside the container unless it has first been
carefully flushed with an inert gas such as nitrogen. How fast this
migration activity will occur is a function of the specific plastic
formulation, its wall thickness and the air pressure inside the
container. In order to gain the maximum possible shelf life a second
gas barrier, the Mylar bag, is used inside the pail.
Whether the use of these bags is necessary for your home packaged
storage foods depends on how oxygen sensitive the food item is and how
long you want it to stay fresh. If the container is made of a gas
impervious material such as metal or glass then a second gas barrier
inside is not needed. If it is HDPE or a plastic with similar
properties and you want to get the very longest possible storage life
(say 10+ yrs for grain) then Mylar is a good idea. If you're going to
rotate that grain in four to five years or less then it is not needed.
Provided the oxygen has been purged from the container in the first
place, either with a proper flushing technique, or by absorption, there
will not have been sufficient O2 infiltration to seriously impact the
food. Particularly oxygen sensitive foods such as dry milk powders that
are to be kept in plastic containers for more than two years would
benefit from the use of Mylar. Naturally, storage temperature and
moisture content is going to play a major role as well.
There is also the question of the seal integrity of the outer
container. If you are using thin walled plastic buckets in conjunction
with oxygen absorbers the resulting drop in air pressure inside the pail
may cause the walls to buckle. If this should occur, there would be a
risk of losing seal integrity, particularly if the buckets are stacked
two or more deep. If the food was packed in Mylar bags with the
absorbers inside this would keep the vacuum from seriously stressing the
container walls. Better still would be not to have the problem at all
by either using containers of sufficient wall thickness or flushing with
inert gas before sealing. Wall thickness is one reason why the six
gallon SuperPails have become so widespread. It should be noted that
Mylar is not strongly resistant to insect penetration and not resistant
at all to rodents. If mice chew through your buckets, they'll go right
through the bags.
A number of retail dealers carry Mylar bags. Contact information
may be found in the suppliers section.
A.5.1 HOW DO I USE MYLAR BAGS?
Sealing food in Mylar bags is a straight-forward affair, but it may
take a bit of practice to get it right, so purchase one or two more bags
than you think you'll need in case you don't immediately get the hang of
it.
#1 - The bags typically sold by storage food dealers look rather
large when you compare them to the five or six gallons buckets
they are commonly used in. That extra material is very
necessary if you are to have enough bag left over after filling
to be able to work with it. Unless you are very sure of what
you are doing, don't trim off any material.
#2 - Place the bag inside the outer container and fill with the food
product. Resist filling it all the way to the top. You need
at least an inch or so below the bucket rim left open to get
the lid to seat completely.
#3 - When it seems to be full, gently thump the pail on the floor a
few times to pack the product in and reduce air pockets. Add
any makeup food necessary to bring level back to where it
should be.
#4 - Take the bag by the corners and pull out any slack in the
material so that all sides can be pulled together evenly.
Place your oxygen absorbers inside if you are going to use
them. Now place a board over the top of the bucket and fold
the bag end down over it keeping it straight and even. Place a
piece of thin cotton fabric such as sheet or t-shirt material
over the edge of the bag mouth. Using a clothes iron set on
the cotton, wool or high setting run it over the cloth-covered
Mylar about a half-inch from the edge for about twenty seconds
or so until it seals. You'll probably have to do the bag in
sections. Experimenting on a left-over strip to find the right
temperature setting is a good idea.
#5 - When you've done the entire mouth of the bag allow it to cool.
Once cool try to pull the mouth of the bag open. If it doesn't
come open, fold the bag down into the pail until you feel the
trapped air pillowing up firmly against the material and wait
to see if it deflates. If it doesn't, then your seal is good.
You can seal on the bucket lid at this point or take the
further step to vacuum or gas flush the bag.
Once a seal has been obtained the bags can be left as-is, vacuum
sealed or gas flushed. To obtain the most efficient oxygen removal the
bags can be first drawn down with a vacuum pump and then purged using an
inert gas.
VACUUM SEALING MYLAR BAGS
Once you have obtained a good seal on the bag, pulling a vacuum on
the contents is also pretty straight forward.
First you'll need something to make a vacuum with. This can be
either a regular vacuum pump, a vacuum sealer such as the Tilia Food
Saver or even the suction end of your household vacuum cleaner. The end
that is to be inserted into the bag will need to be of fairly small
diameter in order to keep the hole in the Mylar from being any larger
than necessary. This means that if you use a vacuum cleaner you'll need
to fashion some form of reduction fitting.
Cut a hole into the Mylar bag on a corner, making the opening only
just large enough to admit the vacuum probe. Insert the nozzle and
using a sponge, or something similar, push down on the material over the
probe to make a seal. Now draw down a vacuum on the bag. It will
probably only take a second or two. When it's drawn down as much as
possible, run a hot iron diagonally across the cut corner resealing the
bag.
GAS FLUSHING MYLAR BAGS.
Flushing with inert gas works essentially just like vacuum sealing
except that you're putting more gas into the bag rather than taking it
out. You'll want to keep the entry hole small, but don't make a seal
around it as above. Beyond that, follow the directions as given in
Section IV.B.2 - CO2 and Nitrogen. When you feel that the bag has been
sufficiently flushed, run the iron across the corner just as above to
seal.
Flushing with dry ice can also be done, but it is important to wait
until the frozen carbon dioxide has completely sublimated into gas
before making the final seal otherwise the bag will burst like an
overfilled balloon.
A.6 REUSING OR RECYCLING PACKAGING
In an effort to save money or because new packaging may be hard to
come by, it is common for many people to want to re-use previously used
containers. There is nothing wrong with this, but it is sometimes more
complicated than just using new containers would be. Here are some
general "rules of thumb" that can be used if you have an interest in
doing this.
#1. Do not use containers that have previously contained
products other than food. There are two risks this can
expose you to. The first is that the particular package type
may not have been tested for food use and may allow the
transfer of chemicals from the packaging into your food. The
second is that all plastics are porous to some degree. Small
amounts of the previous contents may have been absorbed by
the packaging material only to be released into your food,
particularly if it is wet, oily or alcoholic.
#2. Previously used containers should only be used with
foods of a similar nature and exposed to similar processes.
This means that if a container previously held a material
high in fat, such as cooking oil, then it should not be used
to store a strong acid such as vinegar. Nor should a
container be exposed to extreme conditions, such as heat, if
the original use of the package did not subject it to that
treatment. An exception to this is glass which is covered
below. Generally speaking, dry, non-oily, non-acidic or
alkaline, non-alcoholic foods may be safely contained in any
food safe container. An example of this is keeping grains
and legumes in HDPE buckets formerly containing pickles.
#3. Glass may be used to store any food provided it is in
sound condition and has only been used to store food
previously. The lid or cap, however, that seals the jar is
subject to the cautions given above. Glass jars not
specifically made for home canning, either boiling water bath
or pressure canning, have a significant risk of breakage if
used for that purpose.
#4. Porous packaging materials such as paper, cardboard and
Styrofoam should not be reused. Their open texture can trap
food particles and are very difficult to adequately clean.
Packaging formerly holding raw meats or shelled egg products
are particularly at risk.
#5. Containers previously holding odorous foods may trap
those odors and transfer them to foods later stored. Trust
me, pickle flavored milk leaves a lot to be desired. Foods
such as dry milk powders, fats and oils, flours and meals
will absorb any odors seeping from your container material.
Be sure to get the smell out before you fill them.
B -- CO2 AND NITROGEN
Carbon dioxide (CO2) and nitrogen (N2) are commonly used in
packaging both fresh and shelf-stable foods, in order to extend their
usable shelf lives. Fresh foods are outside the scope of this work so
attention shall be focused only on those foods suitable for use in
storage programs.
The most common use of these gasses is for excluding oxygen (O2)
from the atmosphere contained inside of a storage container (called head
gas). When oxygen levels can be dropped below 2% the amount of
deleterious oxidation reactions in stored foods can be greatly decreased
resulting in longer palatability and nutritional shelf lives. Actually
achieving this low oxygen content is not a simple matter when limited to
the equipment and facilities typically available in the home. With
careful technique and proper packaging materials it is possible to
achieve useful results though.
In order for either gas to be used most effectively to gain the
longest possible shelf life it is recommended that it be contained
inside of packaging with high barrier properties to prevent it from
diffusing out over time or allowing oxygen to infuse in. Examples of
this kind of packaging are Mylar and other high barrier property
plastics, metal cans and glass jars. Buckets made of HDPE plastic are
poor gas barriers and will, over time, allow oxygen to infuse into the
container. In order for foods to be kept for their maximum shelf lives
the containers would need to be re-purged every three to four years.
Foods that are particularly oxygen sensitive, such as dry milk powders,
should not be stored in HDPE without a secondary gas barrier. It is
possible to use HDPE buckets alone when gas purging if a shorter
rotation period is used. An example would be using wheat in four to
five years instead of the eight to ten that would be achievable if a
high barrier container were used.
Purging efficiency can be greatly improved when used with a vacuum
device. By first drawing down the head gas of the container and then
flooding with the purging gas much more oxygen can be removed from the
container. Repeating the process once more will improve removal
efficiency even more. If a true vacuum pump is not available, the
suction end of a home vacuum-cleaner can be made to serve and still
achieve useful results. With careful technique, oxygen levels can be
dropped to be 0.5-2%. Finely textured materials such as grain flours
and meals, dry milk powders and similar textured foods will purge poorly
and are better packaged with oxygen absorbers. Instructions for vacuum
usage are given in *A.5.1 Using Mylar Bags.* Instructions for gas
purging are given below in *B.1 Dry Ice and B.2 Compressed Nitrogen*.
A less common, but important use for carbon dioxide is fumigation.
This is the killing or retarding of insect life contained in a product.
Many chemical fumigants are available to do this but are not thought
desirable by many who have foodstuffs they want to put into storage.
CO2 is not as certain as the more toxic fumigants, but it can be made to
work and will not leave potentially harmful residues behind. It is
possible for nitrogen to work in a similar manner, but it must be in a
head gas concentration of 99%+ whereas carbon dioxide can be effective
over time at levels as low as 3%. The precise amount of time necessary
for the gas to do its work will vary according to the specific species
and growth stage of the insect along with the temperature and humidity
level of the product being fumigated. In general, the more active the
growth stage and the warmer the temperature the more effective CO2 is in
killing weevil infestations. The gas also exhibits bacterial and fungal
inhibiting properties, but for our purposes this will be of little
moment since all foods should be too dry to support such growth in the
first place.
The procedure for fumigating foodstuffs with carbon dioxide is
precisely the same as the one used in purging oxygen from storage
containers mentioned below. The only change is that for the fastest
effectiveness the sealed container should be left in a warm place for a
week or so before moving it into its final storage location. The gas is
still effective at cooler temperatures, but because insect life is
slowed by lower temperatures the carbon dioxide takes longer to complete
its mission.
NOTE: Both Mitsubishi Gas-Chemical, maker of the Ageless line of
oxygen absorbers, and Multisorb, manufacturer of the FreshPax D
750 absorbers, state the their products should not be used in a high
carbon dioxide head gas environment.
B.1 DRY ICE
Using dry ice to displace oxygen from food storage containers is a
very straightforward affair. To get the best purging results it is
recommended that all foodstuffs and packaging materials be put in a warm
location for a few hours before beginning the purging process. The
reason for this is that the cold CO2 sublimating from the dry ice will
be denser than the warmer, lighter oxygen containing air. The cold gas
will tend to stay on the bottom, gradually filling the container and
pushing the warm air out of the top.
When you first pick your dry ice up from the supplier, put it in a
moisture proof container so that water vapor will be less able to
condense and freeze on it. The sublimating gas will prevent you from
being able to tightly seal it, but you can slow down any water ice
accumulation.
Assemble the container and any interior packaging materials. Break
off a piece of dry ice of sufficient size for the volume to be purged.
One pound of dry ice will produce about 8.3 cubic feet of carbon dioxide
gas so approximately four ounces per five gallon bucket will do. Wipe
off any accumulated water frost which should look whiter than the
somewhat bluish frozen gas. Wrap in a paper towel to keep foodstuffs
out of direct contact. Place in the bottom of the container that will
actually contain the food, i.e. the bag. Fill the package with the food
product, shaking and vibrating while doing so to achieve the maximum
packing density.
If a vacuum process is not to be used then place the lid on the
container, but do not fully seal. If a liner bag is being used then
gather the top together or heat seal and cut off a small corner. This
is to allow the air being purged to escape as it is pushed upward by the
expanding gas from the dry ice. Do not move or shake the container
while the ice is sublimating so as to minimize turbulence and mixing.
After approximately two hours complete the seal. Check the container
every fifteen minutes or so to be sure that a pressure build up is not
occurring. A small amount of positive pressure is OK, but do not allow
to bulge.
If a vacuum process is used then cut off a corner of the bag and
insert the probe or place the container in the vacuum chamber. Draw a
vacuum and when it has reached the desired point shut it off, but do not
allow air to get back inside. When the dry ice has finished sublimating
seal the container. If a slightly larger piece of dry ice is used this
process may be repeated once more to improve oxygen removal. Watch for
pressure signs as above.
NOTE: It is natural for some grains and legumes to adsorb carbon
dioxide when stored in a atmosphere with high levels of the
gas. This will result in a drop in head space air pressure much like
using oxygen absorbers will cause as they absorb oxygen. Precautions
should be taken in thin walled containers against buckling and possible
loss of seal integrity. When the food products are removed from the
container they will release the adsorbed CO2 and suffer no harm.
WARNING: Dry ice (frozen carbon dioxide) is extremely cold and can cause
burns to the skin by merely touching it. Because of this you
should wear gloves whenever handling it. Also, dry ice evaporates into
carbon dioxide gas, which is why we want it. CO2 is not inherently
dangerous, we breath it out with every breath we take, but you should
make sure the area you are packing your storage containers in is
adequately ventilated so the escaping gas will not build to a level
dangerous enough to asphyxiate you.
IMPORTANT NOTE: Because dry ice is very cold, if there is much
moisture in the air trapped in the container with it,
and your food, it will condense. Try to pack your containers on a day
when the relative humidity is low or in an area with low humidity, such
as in an air-conditioned house. Use of a desiccant package when using
dry ice to purge storage containers may be a good idea.
B.1.1 DRY ICE SUPPLIERS
Dry ice may be found at ice houses, welding supply shops, some ice
cream stores, meat packers or you could look in your local phone book
under the headings "dry ice" or "gasses".
B.2 COMPRESSED NITROGEN
B.2.1 TYPES OF AVAILABILITY
Both nitrogen (N2) and carbon dioxide (CO2) are commonly available
in the form of compressed gas in cylinders. In food storage, CO2 is
mainly used in the form of dry ice (see above) which is often easier to
acquire with much less equipment needed to use it. Because of this,
I'll be limiting this section to the use of compressed nitrogen. If for
some reason you prefer to use compressed CO2 the information given below
will work for it as well, though cylinder sizes may differ.
In the U.S. there are about eight principal suppliers of compressed
gasses: Air Liquide, Airco, Linde, Air Products, Matheson, Liquid
Carbonic, MG Industries, and Scott. One or more of these producers
should have compressed gasses available in virtually every area of the
United States and Canada.
Locating a source of compressed nitrogen is probably as easy as
looking in your local phone book under the headings "compressed gas
suppliers", "gasses", or "welding supplies". Other sources might be
automotive supply houses, university or college research departments,
vo-tech schools, and medical supply houses.
Nitrogen is generally available in a number of forms ranging from
gas intended for welding, to various purity assured types, to gas
mixtures where N2 would be one of the components.
Unless you are very knowledgeable about compressed gasses and the
equipment needed to use them it is strongly recommended that you not use
any gas mixtures in your food storage, but rather to stay with pure
nitrogen gas. Use of compressed gas mixtures requires knowledge and
equipment beyond the scope of this FAQ.
IMPORTANT NOTE: Welding nitrogen is essentially a pure gas, but it
has one important caveat. When a cylinder of welding
gas is used there is an unknown possibility that some form of
contaminant may have backfed into the cylinder from a previous user.
Possibly this could happen if the tank was being used in an application
where the cylinder's internal pressure fell low enough for pressure from
whatever the tank had been feeding to backflush into the cylinder.
Alternatively, the tank pressure may have become depleted and was
repressurized using ordinary compressed service air. The most likely
contaminants will be moisture, carbon monoxide, carbon dioxide, oxygen
and hydrocarbons, but there is the remote possibility of something even
more exotic or toxic getting into your cylinder. Welding gas cylinders
may not be checked by the gas supplier before being refilled and sent
back out for use. It is this remote, but unknown possibility of
contamination that causes me to recommend against the use of welding
grade nitrogen in food storage. If your supplier is willing to certify
that welding gas cylinders are checked before refilling then they would
be OK to use.
The varying types of purity assured nitrogen gas are slightly more
difficult to find and slightly more expensive in cost, but I believe
this is more than made up for by the fact you know exactly what you're
getting. Air Liquide, as an example, offers seven types of purity
assured nitrogen ranging from 99.995% to 99.9995% pure with none having
a water vapor content over 1 part per million (ppm) or an oxygen content
over 3 ppm. Any of them are eminently suited to the task so the most
inexpensive form is all you need buy.
As you might expect, compressed gas cylinders come in a number of
different sizes. For the sake of simplicity I will address only the
most common cylinder sizes since they will almost certainly be the most
inexpensive as well.
Again using Air Liquide as an example, it is their size 44 and 49
cylinders that are the most common. There are other cylinder sizes of
smaller physical dimensions and capacities. However, the logistics of
compressed gas production and transport being what they are, they
frequently will cost as much or even more than the larger, more common
sizes. The actual gas inside the cylinder is fairly cheap. Filling and
moving the heavy cylinders around is not.
---------------------------------------------------
Table 1. Air Liquide most common cylinder sizes.
Cyl Capy Filled Wt Ht Dia
Size Cu Ft PSIG Lbs In In
--------------------------------------------------
44HH 445 6000 339 51 10
44H 332 3500 225 51 10
49 304 2640 165 55 9.25
44 234 2265 149 51 9
16 77 2000 71 32.5 7
Legend:
The "H" suffix means high pressure.
PSIG = Pounds per Square Inch on the Gauge, this does not reflect
atmospheric pressure which would be Pounds per Square Inch Absolute
(PSIA). PSIA is the absolute pressure of atmospheric and internal
cylinder pressure combined.
Although it is not a very common size, I left the #16 cylinder in
the above table in case someone really wants or needs to use a smaller
cylinder.
..................................................................
Table 2. Cylinder Size Comparison. Abbreviated table.
(Alphagaz in Column 1)
Cyl Air Liq MG
Size Airco Prod Linde Carb Math Ind Scott
[1] [2] [3] [4] [5] [6] [7] [8]
------------------------------------------------------
49 300 A T J 1L 300 K
44L 200 - K H 1A 200 A
44 200 B - - - - -
44H - BY 3K - 1H 2HP -
44HH 500 BX 6K - 1U 3HP -
16 80 C Q M 2 80 B
Legend:
[1] Alphagaz (Air Liquide)
[2] Airco
[3] Air Products
[4] Linde
[5] Liquid Carbonic
[6] Matheson
[7] MG Industries
[8] Scott
Reference: High Purity Specialty Gases and Equipment Catalog; copyright
1995, Air Liquide America Corporation, Houston TX USA; pages 6 and 7.
.......................................................................
As you can see, the size 49 cylinder from Air Liquide has an
equivalent from all eight manufacturers. This size is the one commonly
seen being used to fill helium balloons at county fairs and ball games.
B.2.2 OBTAINING THE GAS AND NECESSARY EQUIPMENT
Although you can purchase your own cylinder the most inexpensive
way to use nitrogen is to rent a cylinder from your gas supplier. This
may require filling out an application, paying a refundable cylinder
deposit and buying the gas contained in the cylinder. Tank rental
periods can vary, but the most common is for thirty days.
Having rented or purchased the cylinder you must now get it home.
Delivery by the supplier can often be arranged or they may assist you in
getting the cylinder into your vehicle. The preferred method of
transportation is for the cylinder to be chained, clamped or otherwise
solidly secured in a vertical position in the transporting vehicle with
the cylinder cap in place. Transportation requirements vary from nation
to nation, state to state and even city to city so your best bet is to
inquire of your gas supplier to find a safe and legal means of moving
the tank.
IMPORTANT NOTE: The major expense in using compressed gas is not the
cost of obtaining the gas itself, but in the
equipment needed to safely handle and control it. Unless you can borrow
the appropriate mechanisms they will have to be purchased, new or used,
and even the cheapest regulator and gauge are not inexpensive. There is
a temptation to forgo the expense and not use a regulator, but I must
caution strongly against this. As table 1 above shows, a full cylinder
of compressed gas will have an internal pressure of 2000+ PSIG. Normal
atmospheric pressure is about 15 PSIA. If the cylinder valve was opened
only slightly too far a great deal of very high pressure gas will flow
through the delivery hose and metal wand and the potential for serious
injury when it began to whip around would be very great. For your
safety, get the necessary equipment. If you purchase your own
regulator/gauge cluster and/or your own cylinder, there is necessity for
periodic maintenance. Regulators and gauges need to be calibrated
(using a water deadweight calibrator) and cylinders need to be
hydrostatically tested, typically every ten years for both. Your gas
supplier can provide you with more detailed information.
The only equipment that will come with your cylinder is the
cylinder cap. "Don't leave home without it" and they mean it. All of
the common cylinder sizes will use the CGA-580 (Compressed Gas Assembly)
cylinder fitting. The downstream side of this fitting can be obtained
with different threads, but a 1/4" NPT (National Pipe Thread) nipple is
normally needed to mate with the regulator body. The nipple is really
nothing more than just a short length of high pressure pipe. The CGA
fittings come in a variety of metal compositions such as carbon steel,
stainless steel and brass. The best choice is one which matches the
composition of the regulator body. If the CGA fitting and regulator are
to be used only with dry, non-oxygen gasses, in a dry environment then
galvanic corrosion can be disregarded so the most inexpensive metal
composition can be used even if it is not the same as the regulator. If
it is to be used in a wet area, or with oxygen containing gasses then
matching metal composition becomes very important.
When the tank is to be returned there must be some residual
pressure still in the cylinder or the renter might have to pay a
surcharge or lose their deposit. This is particularly true of purity
assured gasses because the residual gas composition will be analyzed.
This is done for the safety of all cylinder users.
The regulator/gauge cluster should be carefully removed using the
same procedure that is described below to put it all together. Care
should be taken not to damage the cylinder valve threads. Replace the
cylinder cap and transport in the same manner as you brought it home.
B.2.3 PUTTING IT ALL TOGETHER
If the fitting and regulator are bought separately then some 1/2"
wide Teflon tape is recommended for assembly since it is a clean and
inexpensive way of sealing pipe joints. Looking into the open end of
nipple wrap the tape clockwise around the threaded end for 1.5 to 2
turns, working from the open end backwards. If you want to do a neat
looking job, the tape may be slit lengthways to make it 1/4" wide, but
this is not a requirement. A brass nipple may shrink somewhat during
tightening and need a bit more tape than a harder metal like stainless
steel would. The Teflon tape should only be used on the end of the
nipple that attaches to the regulator body, NOT to any part of the
cylinder end.
The regulator end has tapered threads and uses them directly for
sealing. The cylinder end has straight threads and depends upon the
precision mating of machined metal surfaces to seal. The cylinder end
threads simply apply the clamping force.
Before attaching the CGA fitting to the cylinder the user should
put on safety glasses and good hearing protection. The cylinder valve
can then be cracked very slightly to blow out any dust or debris. After
closing the valve, inspect the cylinder valve and nipple for any
abrasions, nicks, gouges, embedded particles, etc., before attachment is
made.
You will need two wrenches (not adjustable pliers) to equalize the
torque, particularly on the cylinder valve where it should be minimized.
Put one wrench on the fitting and the other wrench on the cylinder valve
and make the join.
Once the regulator/gauge cluster has been mated to the cylinder,
the delivery hose can now fitted to the regulator and the metal wand to
the other end of the hose. The wand is nothing more than a short length
of metal tubing at least six inches greater in length than the depth of
the buckets to be filled. Copper water line works well.
When the joins have been made, a mixture of a short squirt of dish
washing detergent and water can be used to check for leaks. Be certain
the detergent does not contain ammonia. Pour some on each fitting
working from the cylinder end outward, opening each valve and
pressurizing as you go. Once the leak check is finished rinse off and
wipe down all surfaces to minimize the chance of accidents in the
future.
If the gas is not to be used at that time then the cylinder valve
should be closed and all pressure should be drained to zero in the
regulator and gauge. This should be done any time that the tank is not
in actual use. If you have purchased your own cylinder then it is a
good idea to also acquire one of the plastic valve plugs, similar to
those seen with propane cylinders, in order to protect the cylinder
valve threads and keep dust, debris and insects out of the valve.
WARNING: Care should be taken that the cylinder is used and stored in
such a way as to minimize the risk of the tank falling over.
With the regulator and gauge attached there is an increased likelihood
of damage occurring to the cylinder valve should the tank fall.
Catastrophic failure of the cylinder valve will turn the tank into a
high-energy, unguided rocket with the capability of doing great damage
and/or serious injury.
B.2.4 PUTTING IT INTO USE.
Having assembled and tested your gas system, you are now ready to
begin the work of packaging your food. You'll need containers, and food
grade plastic or Mylar bags that are a bit larger in internal volume
than the container. Next is the dry food you intend to package and a
pack of matches or a cigarette. You'll also need to wear the safety
glasses and hearing protection you wore when you put the gas system
together.
Take the containers you are going to use to store your food in, the
bags that will line them and the food you are putting up and place them
in some warm (not hot) area long enough for them all to equalize to that
temperature. This will mean that the air contained inside them will
also be at a warm temperature and make it more likely that it will stay
on top when the cool gas from the nitrogen cylinder begins to flow in.
The warm gas being on top will be the first to purge from the container,
taking a good deal of the oxygen with it.
Line the interior of the container with a plastic bag or Mylar bag.
Fill the container with the food product shaking to get it as full as
possible. Don't forget to add your desiccant package if you're going to
use one. You don't want any pockets left between the plastic bag and
the container. Once you have gotten it full to just short of not being
able to fully put on the lid, gather the top of the plastic bag together
or heat seal the edges. If you have sealed it, cut a small corner off
of the bag just large enough to allow a probe to enter.
At this point you can either simply flush the bag as described
below or draw a vacuum on it first and then flush. If using a vacuum
the suction probe should be kept at the top of the bag, just inside of
the opening. The gas wand should be inserted to the bottom of the
container, taking care not to poke any holes in the liner bag. Once
both instruments are inserted, draw the vacuum. When it has reached a
satisfactory level, shut of the suction, maintain the seal and turn on
the gas.
Open the cylinder valve and set the regulator to a very slow gas
flow and begin to fill the bag with gas. You want the container to fill
slowly so you can minimize turbulence and mixing as much as you can.
It'll take a little while to fill each container, a few minutes per
bucket. Just as with dry ice, the idea here is for the cool gas to
displace the warmer atmosphere from the container. The bag should puff
just a bit. When I think it's full I'll hold a lit match just above the
bag in the air that is escaping from it. If it snuffs right out then I
let it run for about several minutes longer to flush out more of any
remaining oxygen and remove the wand.
For the most efficient oxygen removal, repeat the suction/gas
flushing procedure one more time. When satisfied, tie or heat seal the
bag off and seal the bucket. Again, you want to have the bucket as full
as possible so that there'll be only minimal air space. You should
monitor the containers for an hour or two after filling to check for any
signs of bulging or other pressure build up as the cool gas inside
gradually warms up and expands. A slight positive pressure is OK, but
serious bulging needs some of the pressure released.
NOTE: Although the procedure for flushing a container with nitrogen
is straightforward enough, actually getting a good purge of the
container is not. Nitrogen flushing works best when the contents of the
container are fairly coarse in size so that the gas flow around and
through the food is free and unrestricted. Foods such as the larger
sized grains (corn, wheat, barley, long grain rice, etc.), legumes and
non-powdered dehydrated foods are best suited to this technique. Foods
with small particle sizes such as flours, meals, and dry milks will
flush with mediocre results.
Because of the difficulties in purging sufficient oxygen from a
container to lengthen the shelf life of the food it contains many
commercial suppliers have dropped this technique in favor of using
oxygen absorbers. There is no reason that inert gas flushing and oxygen
absorbers cannot be used together and one good reason that they should.
If you are using five gallon plastic buckets as your storage containers,
it has been observed that absorbers used in unlined pails can cause the
air pressure inside the bucket to drop enough for the walls to buckle,
possibly leading to a seal breach or a stack collapsing. For this
reason, flushing with inert gas (nitrogen or CO2) might be a good idea,
in order to purge as much oxygen as possible so that the pressure drop
caused by the absorber removing the remaining oxygen will not cause the
bucket to buckle. Liner bags can ameliorate the vacuum problems.
C -- OXYGEN ABSORBERS
C.1 WHAT IS AN OXYGEN ABSORBER?
If all of this messing about with gasses sounds like too much
trouble, you can try using oxygen absorption packets. I don't know
exactly when they first showed up on the market, but they are a
relatively recent food storage tool. The packets absorb free oxygen
from the air around them and chemically bind it by oxidizing finely
divided iron into iron oxide. This removes it from being available for
other purposes such as oxidative rancidity and respiration by insects,
fungi or aerobic bacteria. The practical upshot of all this is that by
removing the free oxygen from your storage containers, you can greatly
extend the storage life of the foods in the containers.
The absorbers themselves have only a relatively short life span,
roughly about six months from the time they were manufactured for the
types that do not need external moisture.
Finding any information about these absorbers has been difficult,
but, thanks to Al Durtschi, I was able to find a study of their
effectiveness from Brigham Young University.
The study tested the absorption capacity of the Ageless Z300E
packets made by Mitsubishi Gas-Chemical. It found they were even more
effective than their rated absorption capacity of 300 milliliters of
oxygen (O2 at sea level pressure). A single packet sealed into an empty
#10 can (80% of one gallon) reduced the oxygen in the canned air to less
than 1/2%.
The following is the verbatim text of the conclusions section of
the Brigham Young study. See V.B Pamphlets for the complete citation of
this study.
Conclusions:
"Oxygen absorbing packets are effective in reducing oxygen
contents in sealed cans. The ageless Z300 packet has a
greater than claimed capacity for absorbing oxygen. Packets
abused by 4 hour-exposure-to-air still exceed claimed
capacity. It may be economical to use smaller packets based
on the dead air volume instead of can volume. Smaller
packets would have less tolerance for abuse and personnel
would need to be more diligent in protecting the packets."
"The level of oxygen remaining in the presence of the
absorber packets is sufficiently low to greatly retard
development of rancidity. The biological consequences are
not so easy to predict. Microorganisms range from aerobic to
anaerobic, thus no unqualified statement can be made. The
energy requirements of anaerobic bacteria are met by
reactions between oxygen and more than one other molecule.
This makes bacterial energy a higher order of reaction than
rancidity. Thus, the rate of bacterial aerobic reaction
would be more seriously retarded than rancidity. These
matters are not of practical importance because the products
to be canned should be too dry to support microbial growth.
Insects are aerobic and would like-wise suffer retardation of
activity. No comprehensive statement can be made about
irreversible inactivation or death of insects. As long as
the oxygen level remains low, insect activity will be lower
by at least the square root of oxygen content. In a
practical sense, these packets are effective in stopping
insect activity. USDA does not recognize any method except
disintegration as effective for completely killing insect
eggs."
Use of Oxygen Absorbers in Dry Pack Canning
C.2 WHERE CAN I FIND OXYGEN ABSORBERS?
Because they are a relatively new tool on the food preservation and
storage market, oxygen absorbers have not yet achieved a widespread
dissemination amongst the various storage food dealers and suppliers.
They are available, but you may have to do a bit of searching to find
them.
The following short list are the suppliers I've located, thus
far, who sell them:
WALTON FEED
BEST PRICES STORABLE FOODS
DOUBLE SPRINGS HOMEBREW SUPPLY
NITRO-PAK PREPAREDNESS CENTER
SHERRY'S STOREHOUSE
CSIN
WWW.GLITCHPROOF.COM
COUNTRYSIDE GRANARY
In addition to the above suppliers it may be possible to acquire
oxygen absorbers through a LDS family cannery if you have one locally
available. *Please see section IV.A.2 for information on how to explore
this possibility.*
C.3 HOW ARE OXYGEN ABSORBERS USED?
Even though the Z300E type will apparently absorb a great deal more
than the 300 ml of O2 they are rated for, the following instructions for
use are based on their listed rating. So, when using the Mitsubishi
Ageless Z300E oxygen absorption packets, you should allow one packet for
every quart and a half (1430 ml) of remaining air volume in your filled
storage containers. The FreshPax D750 from the Multisorb Corporation
work with just over 3 quarts (2860ml) of remaining air volume.
Now determining the volume of air remaining in a filled container
is no easy thing. In the study, #10 cans filled with either elbow
macaroni or powdered milk were used and their respective air volumes
were determined. A can full of elbow macaroni was found to contain 22%
remaining air volume and a can full of powdered milk was found to
contain 10.5%. With these as guides, you should then be able to roughly
figure the remaining air volume of the foods you have in your
containers. You'll have to decide whether the food you are working is
closer to the macaroni or the dry milk in its packing density.
Obviously, this is a rather rule of thumb and this is why I kept my
instructions to the listed ratings rather than on what they will
apparently really do. The excess capacity will thus serve to cover the
shortcomings of your reckonings. These absorption packets should be
used only in dry foodstuffs and not with any product that will make them
wet or oily.
Your absorbers begin their removal mission the second they come
into contact with oxygen, whether it be in your storage container or in
the open air waiting to be used. Try to arrange things in such a way as
to have your container packed and ready to go before exposing the
packets. Take out only those you are going to be able to use up in no
more than about fifteen minutes or so else you are losing valuable
absorption capacity. When you take them out of their package, spread
them out on a tray so they do not contact each other. The oxidation
reaction that absorbs the oxygen releases small amounts of heat. The
warmer the packet becomes the faster the reaction occurs so you do not
want the packets warming each other. Handle each one with tongs, gloved
hands or by the edges of the envelope to keep body moisture and skin
oils off. Seal the lid or seam of the container as soon as the packets
have been inserted.
NOTES:
#1 -- Both Multisorb and Mitsubishi corporations advise that their
oxygen absorbers should not be used in a high carbon dioxide
environment. I haven't yet been able to determine if this is for
reasons of chemical interaction between the CO2 and the oxidation
reaction occurring in the absorber.
#2 -- If you do choose to use oxygen absorbers in packing your food
storage containers you should give some consideration to the container
you're using. The absorber is going be removing the 20% of the
atmosphere that oxygen constitutes. Since nothing is replacing it this
will leave the interior of the storage container with a lower
atmospheric pressure than the outside. If the container is sufficiently
sturdy this pressure differential will be of little consequence. For
containers with thinner walls or more flexible material the pressure
drop could cause them partially collapse or buckle, particularly if
other containers are stacked upon them. This could make them more
likely to lose seal integrity. Metal cans and glass jars should have no
problems. Plastic buckets made of HDPE are poor gas barriers and should
have a liner bag of Mylar or other high gas barrier plastic when used
with absorbers. Seal the absorbers inside of the liner bag so that the
pressure drop with not stress the walls of the container. Other
containers should probably be tested or first flushed with an inert gas
(N2) before the absorber is sealed in.
#3 -- If the pack of absorbers you need to open contains more than
you are going to use up in fifteen minutes or so, you should minimize
exposure of the remaining packets. This can be done by heat sealing the
bag they came in with an iron after expelling as much air as possible or
better yet by vacuum sealing the bag. You can also put the remaining
absorbers in as small a jar or metal can as they will fit in and closing
with an air tight lid.
#4 -- If absorbers are sealed in a package with desiccants some
thought should be given to just how low the relative humidity will be
dropped. Silica gel will reduce humidity to approximately 40% which
should not interfere with the absorbers oxidation reaction. Other
desiccants, however, are capable of reducing relative humidity to very
low levels. This might adversely affect your absorber's ability to
carry out its mission by removing moisture from the absorber package
that is necessary to sustain the oxidation reaction.
D -- DESICCANTS
D.1 WHAT IS A DESICCANT?
Moisture in inappropriate amounts and places is very damaging to
the useful life of food. Because of this, much effort is put into
reducing the water content of dry foods in order to prolong their shelf
lives. Once it is reduced to the desired level the product can then be
packaged for storage. Unfortunately, merely reducing moisture content
is not always sufficient. Environmental conditions can play a role as
well.
There are four mechanisms by which environmental conditions may
cause a moisture problem in your food storage:
1. - The air trapped in the container with the food may have held
sufficient humidity to raise the moisture content of the food to
undesirable levels.
2. - Even if the water vapor content wasn't too high, a falling
temperature level may cause the trapped humidity to reach its dew
point causing water to be squeezed out of the air to condense on
your food much the same way as dew forms on your lawn on cool
mornings after a warm, humid night.
3. - The seal of the container may not be sufficiently tight enough
to prevent moisture from leaking in.
4. - The packaging material itself may be porous to one degree or
another to water vapor. All paper, wood and cardboard has this
fault. Depending upon their particular physical properties many
plastics do as well. Metal and glass containers have excellent
barrier properties though their seals may not.
The solution for moisture problems is multi-faceted. First, make
sure the product to be stored is at an appropriate water content for
that particular foodstuff. Beans and grains store quite well at a 10%
moisture level, but milk powders, dried eggs and dehydrated or freeze
dried foods should be lower for best results.
Secondly, try to package your goods in a cool, dry atmosphere and
do not allow extreme temperature swings in storage areas. Warm
temperatures and high relative humidities when a container is sealed
means the air trapped inside the container will have a high dew point.
This will lead to condensation should storage temperatures fall below
that dew point. An example of this would be a container sealed on a day
that was 70 deg. F and 40% relative humidity. At that temperature the
relative humidity would be quite reasonable for all but the most
moisture sensitive food. However, should the temperature fall to 44
deg. F the capacity of the air to hold water vapor would have dropped to
the point that it could not contain what was sealed in at 77 deg. and
the excess would be squeezed out to condense on the food, i.e. - it will
get wet. Possibly the food will be able to adsorb this moisture without
harm and then again, it may not.
Thirdly, use appropriate packaging materials and make certain it is
sealed correctly. If you are going to consume them in four to five
years, storing grains, beans and peas in unlined HDPE buckets at normal
humidities is fine. If you want to keep them at their best for ten
years or more, the plastic the pail is made of is too porous to water
vapor for best results and should have an interior liner of a material
with better barrier properties. Dry milk powders should not be kept for
more than a year in unlined HDPE, but can be kept for much longer in #10
metal cans, glass jars or Mylar bags. Naturally, even the most highly
resistant packaging material is useless if its seal isn't good so be
sure you use good technique when making closures.
Lastly, you may wish to consider using a desiccant if good humidity
control at the time of packing is difficult or if you are not confident
of the foods' moisture content or if the storage area is in a high
humidity environment or if the packaging material does not have
sufficiently high barrier properties.
A desiccant is a substance with very "hygroscopic" properties,
meaning it will soak up water vapor from the air surrounding it. A
number of different substances are capable of doing this, but only a
relative few of them are of practical use and fewer still are going to
be readily available to the average person. Before elaborating on the
different types that might be useful for our purposes it's necessary to
explain how to choose a desiccant.
The U.S. military has done much of the best research on the use of
desiccants in packaging and have largely set the standards by which they
are judged. Each type of desiccant has temperature and humidity ranges
where it performs best and particular physical and chemical
characteristics that may need to be considered in relation to what you
propose to do with them.
The standard most applicable for what can be done in home food
storage defines a unit of desiccant as *the amount of desiccant that
will adsorb at least 6 grams of water vapor at 40% relative humidity at
77 deg. F (25 deg. C).*
The following table gives the amount of desiccant necessary per
square area for flexible containers such as Mylar bags or per volume of
area for rigid containers such five gallon pails or #10 metal cans. The
actual weight of a particular desiccant to use will depend upon the
adsorbency per unit of desiccant mass.
FLEXIBLE CONTAINERS RIGID CONTAINERS
(Mylar and other (Buckets, cans, jars, etc.)
plastic bags)
Units of Volume in:
Area sq ft Area sq in Desiccant Gallons Cu/FT Cu/In
Required
_________________________________________________________________
0.1 30 1/6 1.1 0.14 237
0.3 45 1/3 2.1 0.28 476
0.6 90 1/2 3.2 0.42 714
1.3 180 1 6.2 0.83 1,428
1.9 270 2 12.5 1.67 2,856
2.5 360 3 18.7 2.50 4,284
3.1 450 4 25.0 3.33 5,712
[Table adapted from "Moisture In Packaging: Selecting the Right
Desiccant" (c), Multisorb Corp. http://www.multisorb.com ]
In order to maximize surface area to obtain optimal adsorption,
desiccants are manufactured in granular or powder forms. This presents
a problem of keeping the desiccant, which may not be safe for direct
contact with food, out of the product while still allowing sufficient
air flow for it to carry out its task. Manufacturers call this
"dusting" and deal with it by packaging the adsorbent in materials such
as uncoated Tyvek, a spunbonded high-density polyethylene material
produced by the Dupont corporation. Unfortunately, I have not yet been
able to locate a retail source of uncoated Tyvek, just the coated
variety such as is used in postal envelopes. Second best, and what I
use, is one or more layers of coffee filter paper securely sealed over
the mouth of the container holding the desiccant. I've also made
"cartridges" of filter paper for use in narrow necked containers such as
two-liter bottles. For this I used ordinary white glue, but getting a
good seal all the way around without sealing too much surface area
requires some care in execution.
For coarse granular materials tightly woven fabrics might serve the
purpose providing the seams were adequate.
D.2 TYPES OF DESICCANTS
D.2.1 SILICA GEL
The most commonly known and used desiccant is silica gel which is a
form of silica dioxide (SiO2), a naturally occurring mineral. It will
work from below freezing to past the boiling point of water, but
performs best at room temperatures (70-90 deg. F) and high humidity
(60-90%). Its performance begins to drop off over 100 deg. F, but will
continue to work until approximately 220 deg. F. It will drop the
relative humidity in a container down to around 40% at any temperature
in its range until it is saturated. Silica gel will absorb up to 40% of
its weight in moisture. It is the only desiccant that is approved by
the FDA for direct food use. It recharges easily and does not swell in
size as it adsorbs moisture.
In the retail trade, the most commonly found form of silica gel is
*indicating silica gel* which are small white crystals looking much like
granulated sugar with small pink or blue colored crystals scattered
throughout. This is ordinary silica gel with the colored specks being
coated with cobalt chloride, a heavy metal salt. When the gel has
absorbed approximately eight percent of its weight in water the colored
crystals will turn from blue to pink making an easy visual indicator of
whether the gel has become saturated with moisture. Because cobalt is a
heavy metal, indicating silica gel is not food safe and should be kept
from spilling into anything edible.
When saturated, silica gel can be dried out and used again. This is
accomplished by heating the crystals in an oven at a temperature of no
more than 300 deg. F for approximately three hours or until the crystals
turn blue. Dehydrating the desiccant may also be accomplished by
heating in a microwave oven. Using a 900 watt oven heat the crystals
for three minute intervals until the color change occurs. The exact
amount of time necessary will depend upon the oven wattage. Spreading
the desiccant in a broad pan in a shallow layer will speed the process
Heating to 325 deg. F or more, or by using a microwave oven over 900
watts can damage the gel.
Although I've never found anything that mentions this, apparently
it is possible for silica gel to break down over time, or at least the
colored crystals can. I had a five pound can stored in an outside shed
here in Florida for several years before I opened it again to use some
of it. Nearly all of the colored indicator specks had broken down and
disappeared. I don't know if the gel itself was still good and with no
way to reliably determine whether it was saturated or not, I discarded
it. The can the gel was in was just cardboard and it gets very humid
here in Florida so it really was very poorly stored. Under decent
conditions it may not break down at all. (I've never heard of this
occurring, anyway.)
D.2.2 CLAY DESICCANT
Although not typically found for sale on the retail market, clay
desiccant is fairly common in commercial and industrial use. The primary
reason for this seems to be that it is inexpensive compared to any other
form of desiccant.
The material is *Montmorillonite clay*, composed primarily of
magnesium aluminum silicate, a naturally occurring mineral. After
mining it is purified, reduced to granules and subjected to a controlled
dehydration process to increase its sorbent porosity. It recharges
easily and does not swell as it adsorbs water vapor. It works well at
low and room temperatures, but has a rather low ceiling temperature. At
120 deg. F it will begin to desorb or shed the moisture it has adsorbed.
This is an important consideration for storage in hot areas.
Subject to a degree of variability for being a natural material,
clay desiccant will adsorb approximately 25% of its weight in water
vapor at 77 deg. F and 40% relative humidity.
D.2.3 CALCIUM OXIDE
Also known as "quicklime" or "unslaked lime", calcium oxide is a
slow, but strong adsorbent. It is efficient at low humidities and can
drop moisture vapor to below 10% relative humidity. Qucklime is
*caustic* and must be carefully handled, particularly with regards to
dust inhalation and exposure to skin and eyes. It expands as it soaks
up water vapor and this must be taken into account when packaging it.
It will adsorb up to about 28% of its weight in moisture, but does it
slowly over a period of several days rather than a matter of hours like
other desiccants. It is most effective when used in high humidity
environment where a very low level is desired. It will release a great
deal of heat if exposed to direct (liquid) moisture or extreme
humidities.
It can be recharged, but I do not have any details on how to go
about this other than roasting at fire temperatures.
For expedient use, quicklime can be manufactured from clean, pure
lime stone or pickling lime available in the canning sections of many
grocery and hardware stores.
D.2.4 CALCIUM SULFATE
Also known as the mineral gypsum and commercially as Drierite,
calcium sulfate is another naturally occurring mineral. It is produced
by the controlled dehydration of gypsum (CaSO4). It is chemically stable
and does not readily release its adsorbed moisture. It has a low
adsorbency capacity, only approximately 10% of it weight. It can be
regenerated, but apparently not easily so.
For expedient use, gypsum is commonly used in household drywall and
Kearny mentions using this source in his Nuclear War Survival Skills.
D.2.5 OTHER DESICCANTS
------------------------------------------------------------------------
From: Pyotr Filipivich pyotr@coho.halcyon.com
Simple trick is to dry a piece of wood in the oven and once it is
bone dry (more than usual) then put it in your container and seal it.
The wood will suck up any available moisture.
Editors note: Wood can soak up to 14% of its weight in moisture,
depending on species. Woods with coarse, open grains work the best.
I'm not aware at what temperature it will begin to "desorb" or shed its
stored water and it might be fairly low. Some empirical experimentation
would be in order before relying heavily on it.
D.3 WHERE DO I FIND DESICCANTS?
I buy indicating silica gel at Wal-Mart in their dry flower section
where it is sold in one and five pound cans for flower drying. I've
seen it sold the same way in crafts stores and other department type
stores that carry flower-arranging supplies. You can also buy it from
many other businesses already prepackaged in one form or another to be
used as an adsorbent. All of the desiccant that I've found packaged
this way has been rather expensive (to me) so shop carefully.
Businesses carrying packaging supplies sometimes also sell
desiccants. Some businesses commonly receive packets or bags of
desiccants packaged along with the products they receive. I've seen
Montmorillonite clay in bags as large as a pound shipped with pianos
coming in from Japan. Small packets of silica gel seem to be packed in
nearly everything. Naturally, any salvaged or recycled desiccant should
be of a type appropriate for use with the product you want to package.
It is possible to make your own desiccants using gypsum from
drywall and maybe Plaster of Paris. Calcium oxide can also be produced
from limestone (calcium carbonate) or slaked or pickling lime (calcium
hydroxide) by roasting to drive off the adsorbed water and carbon
dioxide. I don't have any clear instructions, as of yet, on how to go
about this. Please do keep in mind that calcium oxide (quicklime) is
caustic in nature and is hazardous if handled incorrectly.
D.4 HOW DO I USE DESICCANTS?
Ideally, the dry foodstuffs you have on hand will have no more than
a 10% moisture content. If they do not then you will need to reduce
moisture to a level appropriate for the kind of food you are storing.
One of the following methods might be of use in lowering moisture
content. The least involved is to wait until the driest time of year
for your location making sure there is plenty of free air circulation
around the food product. If this doesn't suit, then turn your air
conditioning on a little high. Bring in your buckets, lids, and the
storage food. Let everything sit in a well-ventilated place where it's
going to get plenty of cool, dry air from the A/C (avoid anywhere near
the kitchen or bathroom areas, as they put out a lot of moisture). Stir
the food frequently to maximize moisture loss. About three days of
cool, constant air flow and low humidity ought to dry things out a bit.
Due to its highly odor absorptive nature, I would not do this with any
dried milk products or other powdered foods, flours or meals . This
method works best with coarse particles such as grain, legumes and dried
foods.
Warm, dry air can also be used to accomplish this and works well if
you have large quantities of grains and legumes. It is very similar to
what is used on farms for drying harvested grain. You'll need a source
of forced, warm, *not hot*, air. Place the grain in a drum or barrel
and blow the heat from the bottom so that the warm and the moisture it
will carry can exit from the top. It's important to not let the bottom
product get too hot. You should also monitor the top, center of the
drum to be certain that the product there is not getting too damp from
the moisture escaping from other areas. Stirring occasionally may be
necessary. I've seen this done with an old, drum style vacuum cleaner
that put off fairly warm exhaust air and it worked pretty well. Do be
sure to clean the vacuum so you don't blow the grain full of dust.
If the above methods won't do or you have powdery foods to dry, you
can place a large quantity of desiccant in a storage container. Fill
the remaining space with your food product and seal on the lid. After
about a week, unseal and check the desiccant. If it's saturated, change
it out with dry desiccant and reseal. Continue to do this until the
contents are sufficiently dry. Calcium oxide will work particularly
well for this. If it doesn't become saturated the first time, change it
anyway before sealing the bucket permanently. You'd hate to find later
it saturated in storage.
If your food products are sufficiently dry you can pack them in
storage containers using the packaging method of your choice and have a
reasonable expectation of your food staying in good condition. Whether
you will need to use a desiccant will be dependent upon the conditions
discussed above.
I use indicating silica gel for practically everything. My usual
procedure is to save or scrounge clear plastic pill bottles, such as
500ct aspirin bottles or small plastic jars, such as the smaller sizes
of peanut butter comes in. Fill the bottle with the desiccant (remember
to dry the gel first) and then use a double thickness of coffee filter
paper carefully and securely tied around the neck of the bottle to keep
any of it from leaking out. The paper is very permeable to moisture so
the gel can do its adsorbing, but it's tight enough not to let the
crystals out. This way moisture can be safely adsorbed. It won't dry
out a lot of moisture -- you still need to take steps to get everything
as dry as possible before you pack it -- but it will take care of what
little is left.
The above method will also work for the other desiccants, subject
to whatever precautions the individual type may have.
IMPORTANT NOTE: The indicating form of silica gel (has small blue or
pink specks in it) is not edible so you want to use
care when putting together your desiccant package to insure that is does
not spill into your food.
E -- DIATOMACEOUS EARTH
E.1 WHAT IS DIATOMACEOUS EARTH?
Diatomaceous earth is a naturally occurring substance comprised of
the fossilized remains of marine diatoms. These diatoms are microscopic
in size and are covered in sharp spines that make them dangerous to
exoskeletal insects, but not to animals with internal skeletons. The
spines of the diatom skeletons pierce the soft body tissues of insects
between their hard exoskeletal plates and it is through these numerous
microscopic wounds that the insect loses bodily moisture to the point of
desiccating and dying. Creatures with internal skeletons such as
humans, cattle and pets have means of resisting such damage and are not
harmed. Thus, it is possible to mix a small amount of DE into your
stored grains and beans to control insects without having to remove the
dust again before you consume them.
E.2 WHERE DO I FIND D.E. AND WHAT TYPE SHOULD I BUY?
IMPORTANT NOTE: There are actually two kinds of diatomaceous earth to
be found on the market and only one of them is
suitable for use as an insecticide to use in your stored grains. The
kind that you DO NOT WANT FOR FOOD USE is the type sold by swimming pool
suppliers as a filtering agent. It has been subjected to a heat
treatment that dramatically increases it's silicate content and makes it
unsuitable for use with your foodstuffs. The type that you want is sold
by a number of suppliers as a garden insecticide. Many organic garden
suppliers will carry it. Read the label carefully to be certain no
deleterious substances such as chemical pesticides have been added. An
appendix with the names and addresses of some DE suppliers may be found
in the food and equipment suppliers section.
-----------------------------------------------------------------------
From: higgins10@aol.com (Higgins10)
Originally posted in: rec.gardens
Good afternoon all. Diatomaceous earth is approved by the USDA as
an animal feed additive, however I have found out that there are vast
differences between various forms of diatomaceous earth. Some DE
products may not be effective in controlling insects, while others may
be harmful to humans and pets. The most important differences between
individual forms of DE is the shape of the diatom, content of
Crystalline Silica, and the purity of the Silica Dioxide. The World
Health Organization cautions that DE with a crystalline silica content
of three percent or higher is dangerous to humans, (and probably pets
and birds as well). Diatomaceous Earth used in swimming pool filters
has close to a 60% crystalline silica content. I know of a product
called Organic Solutions (insecticide) which is approved by both the EPA
and USDA and has a crystalline silica content ranging between 0.36% to
1.12% according to its labels etc. It is classified as Amorphous Fresh
Water Diatomaceous Earth (whatever that means). However, all literature
I have read assures it is safe for both humans and animals and seems to
be very effective at killing insects. I stumbled across all this info.
while shopping in the mall. If you're interested in reading it too, go
to the Organic Solutions website at http://www.BuyOrgs.com. Hope this
helps answer the question and always use environmentally safe products!
Higgins10
------------------------------------------------------------------------
From: kahless@ns.waymark.net
Date: Sat Aug 24 14:08:48 1996
To: Dunross (A.T. Hagan) Private e-mail
[previous text deleted]
I have always purchased DE at the local feed store. It's cheaper
there than at the garden and hardware stores. The feed store I buy at
has DE available in bulk, but they'll package up a smaller amount if
that's what you want. My package in the garage doesn't have a brand
name but says "Nitron Industries" at the bottom. The label recommends 7
pounds of DE for each ton of grain. Ha! As if I had "tons" of grain in
storage 8-D
I've been using DE for grain storage for about 15 years now but
flea control only for the past 6 years. The only fleas we've seen in
that period of time is the ones that hitch a ride in with friends pets.
A very light dusting afterward takes care of that problem. Miracle
stuff as far as I'm concerned since we'd had an awful time with fleas
before we started using DE. Much much much cheaper and as far as I'm
concerned the advantages FAR outweigh the risks.
Sam
(hope that was helpful)
E.3 HOW DO I USE D.E. IN FOOD STORAGE?
To use, you should mix thoroughly one cup of DE to every forty
pounds of grain, grain products or legumes. You need to make certain
that every kernel is coated so it is better to do the mixing in small
batches where you can insure more even coating.
WARNING: DE is a very powdery kind of dust, so you need to take steps to
keep it out of your lungs and eyes. Even whole wheat flour dust
can cause lung irritation if you breath enough of it.
DE does not kill the insect eggs or pupae, but it will kill adults
and larvae and any eggs or pupae that hatch into adults will die after
coming into contact with it.
=======================================================================
-- V --
SHELF LIVES
=======================================================================
"How long will this keep?" This is the defining question of food
storage. Everything you will read in this work evolves from this
central question. The length of time a particular food will remain
palatable and nutritious in storage determines its usefulness for our
purposes. The fact of the matter is that there are few hard and clear
answers. As a result it is not uncommon to find two or more sources who
purport to know, but that give conflicting data. The following will
hopefully cut through some of the fog.
A. "BEST USED", "USE BY" AND OTHER FOOD PRODUCT DATES
Although there are some twenty States in the U.S. that have food
product dating laws the Federal government has little regulation
concerning food product dating except for infant formulas and some baby
foods. It does, however, require that if a manufacturer puts a calendar
date on a food product it must also put wording to the effect of "use
by" or "best before" next to it to explain what the date means. This is
called "open dating" which is to say that it is a plain, easy to read
calendar date rather than "closed or coded dating" that must be
deciphered. Another date also commonly seen is the "sell by" date.
While not as useful for food storage, it does have importance for
day-to-day fresh food purchases.
Because the Federal government has so few food product dating
standards manufacturers use their own to determine acceptable shelf
lives. For the most part, they are based upon changes in texture,
appearance, taste and cooking qualities. When a food item begins to
exhibit signs of aging that would make it unappealing to customers then
it is considered to be at the end of its marketable shelf life. Look
for statements such as "use by", "best if used by", "best if used
before" or similar wording to find this date. For shelf stable and
frozen products it must include both the month, day and year. These
dates are useful for determining how long a product can be retained in
the storage program before it should be rotated out. When a food begins
to undergo taste and appearance degradation the nutrient content will
have begun to seriously fade and the time will have come to use it up so
it can be replaced with fresh stock. If the product was properly
preserved and not subjected to extreme storage conditions it is not
unsafe to use after this date. If there is nothing to replace it with
it may be kept, but its palatability and nutritive content will just
continue to degrade.
Fresh food items such as meat, milk and eggs use a "sell by" date
which simply means that the item should not be purchased beyond that
date. Products using this date type are only required to use the day
and month. Provided that it was properly transported and stored, an
item kept past this date is not unsafe to use, but will begin to exhibit
signs of aging that will make it unappealing and should be frozen or
consumed shortly thereafter.
NOTE: The shelf life of any food, whether indicated with a "use by"
or "sell by" date or found on some chart, is predicated upon
assumed storage conditions. If the actual storage conditions are
different from the assumed storage conditions then the shelf life will
naturally vary. As is explained in *Section I: Time, Temperature,
Moisture, Oxygen and Light*, environmental storage conditions have a
major impact on the length of time any foodstuff will remain palatable,
nutritious and even whether it will remain safe.
As a general rule, when a shelf life is given, it is for conditions
of 70 deg. F in a dark, dry location unless stated otherwise. Be sure
to read the fine print on any shelf life chart you may come across to
see what its values are predicated upon. There are some floating around
giving shelf lives of foods in storage temperatures as low as 40 deg. F.
At that temperature you would expect to keep your fresh butter, eggs and
milk, but very few have the ability to keep any significant amount of
canned goods in so cool a storage area.
Regardless of what the date or chart may indicate, if storage
conditions have been very poor then a food will become non-nutritious,
unpalatable, perhaps even unsafe to eat even if its listed time is not
yet up. An example of this would be keeping egg salad at room
temperature for several hours at a picnic. The eggs may have been laid
yesterday, but you are taking your chances if you eat it. Never put
blind faith in any date. Always keep in mind that they are predicated
on unspoken assumptions. IF THE CONTAINER IS BULGING, MOLDED, FOUL
SMELLING OR SPEWS LIQUID WHEN OPENED, THROW IT OUT! But throw it out
safely so that children and animals cannot get into it.
*Please see Section III: Spoilage for further information*
B. CLOSED DATING CODES USED BY SOME FOOD MANUFACTURERS.
In spite of the fact that increasing numbers of food processing
companies are moving to open dating it is not yet universal. For those
products that do not come with a plain "best used by" date it is still
possible, albeit with much more difficulty, to determine the rotation
period for that specific product.
For a processor to move their product in interstate commerce it
must exhibit a packing code. This allows them to easily track their
product for purposes of stock rotation and in the event of a recall.
These packing codes are usually a series of letters and numbers that
indicate dates, times, and sometimes places of manufacture. These dates
are not "use by" dates, but the time the container was actually filled.
As they are not really intended for general public knowledge these codes
are frequently unique to a particular processor and are not commonly
published by them.
It is possible to get the keys to these codes by contacting the
processor and asking how to decipher the dating code for specific
product lines. Over time, readers have been doing this and the code
keys below are the ones that have been sent to me. Obviously, they are
only a few of the many, many products that use closed dating and I hope
that future readers will continue to send these codes in as they are
gleaned from the processors.
Frankly, when it comes to the potential dozens of products that
would require deciphering their packing codes the entire process is a
major nuisance. While it is better to have an encoded date than not to
have one at all, it would be far better if processors would just use
clear open dating and (best used by) so we wouldn't have to carry a book
of code keys like covert agents every time we go to the grocery.
Before I list specific manufacturers there is one fairly widely
used code key that may be useful. Some processors use a system where
all the days of the year are listed 1-365 (366 for leap year) as the
first three digits in the code. This number is then followed by a
single letter such as "B" and then by a single digit that represents the
year.
Some examples of this might be:
Packing code Date packed
045B97 February 14, 1997
101H98 May 1, 1998
134K96 July 4, 1996
252U98 October 31, 1998
There may be other widely used coding systems yet to be discovered
and as they become available I will include them in this work.
SPECIFIC PRODUCT LINES:
IMPORTANT NOTE: I have not personally verified all of these code
keys. Also, closed date coding schemes may change
over time. For this reason, the code keys given below may not be
correct. Be sure to check a number of containers in a product line to
verify that a particular code key will work with the product line you
are interested in.
ARMOUR STAR CANNED MEAT PRODUCTS
Vienna Sausage, Stew, Chili, Deviled Ham, Potted Meat, Slice Dried
Beef, Soups, etc. but does NOT include Armour Star Roast Beef or Corned
Beef.
The code is on the bottom of the container. The first letter is
the month of production; A=January, B=February, C=March and so on. The
following two numbers represent the day of the month it was processed
and the third number indicates the year.
Example: A code of B148C23 would be B=Feb, 14 = the fourteenth
day, 8=1998. B148C23=February 14, 1998 and the last three characters
would be plant or processing line locations.
Armour Star Microwaveable Meals have a two line production code on
the container lid. The second line is the is date and uses the same
code as above.
BERTOLLI OLIVE OIL
Packed two years prior to the use by date on the bottle or can.
BUSH BROTHERS & CO.
Baked beans, chili, etc.
A five digit code on the bottom of the can. The first digit is the
month, the next two digits is the day of the month, the next number is
the year and the last digit is ignored.
Example: A code of 50173 deciphers to be:
5 = the fifth month or May
01 = the first day of May
7 = 1997
3 = last number is discarded.
Thus 50173 is May 1st, 1997.
CAMPBELL SOUPS:
Best by date on cans. Filled exactly two years prior to that date.
DEL MONTE
Canned fruits, vegetables, etc. I'm not sure if it applies to
*all* product lines.
A five character packing code, usually on the bottom. The first
character is a digit representing the year. The next three characters
are digits representing the day of the year the product was packed. The
last character is a letter and may be ignored.
Example: A packing code of 8045B deciphers to be:
8 = 1998
045 = The 45th day of the year or February 14th.
B = A plant code.
Thus 8045B is February 14th, 1998.
GENERAL MILLS:
The manufacturing date is coded to their fiscal year that begins on
June 1st and ends on May 31st.
Interpret the code as follows:
The first character of the code is a letter and represents the
month the product was made.
The second character in the code is a number which represents the
year the product was made.
The following two characters are numbers that represent the day of
the month the product was made.
The remaining characters following identify plant location and
shift information.
Example: A packing code of E731B would translate as follows:
E = October
7 = 1997
31 = 31st day of the month
B = A plant location
The following is their 12 month cycle. The letter "I" is not used
because it can be confused with the number "1".
A = June E = October J = February
B = July F = November K = March
C = August G = December L = April
D = September H = January M = May
HANOVER FOODS CORP.
Small whole potatoes, green beans, corn, etc.
A five digit code on the bottom of the can. Omit the first digit.
The next digit is the year. The remaining three digits are the day of
the year the product was packed.
Example: A code of 28304 deciphers to be:
2 - discard this number
8 = 1998
304 = the 304th day of the year or October 31st
Thus 28304 is October 31st, 1998
HEALTHY CHOICE:
First character is a number, second is a letter with the remaining
characters being a lot ID. The number is the year it was packed with
the letter being the month, October = A, November = B, December = C,
January = D, and so on through the year. The recommended shelf life is
2 years.
HORMEL PRODUCTS
Their packing code is a letter followed by five numbers. The
letter is their plant location and the numbers are the dating code in a
MM-DD-Y format.
Example: A code of G07048 decodes to mean:
G = plant location
07 = July
04 = The fourth day of the month
8 = 1998
The can was packed July 4, 1998 at plant location G.
JELL-O BRAND PUDDINGS & GELATINS
The first four digits are the date coding. The first digit is the
year and the following three digits is the day of the year.
Example: A packing code of 804522 10:38 deciphers as:
8 = 1998
045 = the 45th day of the year or February 14th
22 = discard the last two digits.
10:38 = the time it was packed.
Thus 804522 10:38 means that box of pudding mix was packed on
February 14th, 1998 at 10:38 a.m.
McCORMICK HERBS & SPICES:
(See also http://www.mccormick.com/info/oftenasked.html )
There should be a four digit number of the bottom of the spice
package or extract bottle. On foil packages, it will be around the
outside edge. This code is more complicated than other manufacturers so
read closely.
Example: Using a number 3604 as the packing code:
To derive the year, take the first number and add 5 (3 + 5 = 8) so
1998 is the year of manufacture.
To derive the month and day, divide the last three digits by 50
(604 ≈ 50 = 6 with 4 remaining). The six indicates the last whole or
complete month before the month of production, January, February, March,
April, May, and then June. The next month, July, is the production
month. The 4 remaining is the day it was produced.
Therefore a packing code of 3604 means that product was packed July
4, 1998.
While not as precise, you can save considerable time by just
finding the year. The last three digits representing the day and month
will increase as the year grows.
PROGRESSO FOODS
Canned soups, beans, etc.
Two lines of code on top of the can. The top line, the first two
characters are the date portion. The first character is a letter
indicating the month and the second character is a digit indicating the
year.
Example: A packing code of L7N18 1211 (this is the first line)
would be:
L = 12th month or December
7 = 1997
N18 = ignored
1211= ignored.
Thus a packing code of L7N18 1211 indicates the can was packed in
December of 1997.
C. SHELF LIVES OF SOME COMMON STORAGE FOODS.
The chart given below has been adapted from a number of different
shelf-life charts published by the cooperative extension services of
several states. It presupposes no special packagings other than the way
the food comes from the store. The general assumption is that when a
given foods' taste, appearance or texture begin to take on noticeable
changes it has reached the end of its best marketable shelf life and
should be rotated out. This is not to say the food is no longer edible,
but it is losing nutritional content at the same time so no purpose is
served by keeping it for longer than is necessary to replace it with
fresher stock. For what it's worth, I'm not fully in agreement with it
myself, but it's a good working hypothesis and I modify it by my
personal experience which may vary from yours. If it is a dry food then
only dry utensils should be used to remove it from its container. The
less light, moisture, heat and oxygen it comes into contact with, the
longer the food will keep.
All of the below are for new, unopened containers.
RECOMMENDED
STORAGE TIME
FOOD AT 70 deg. F. STORAGE
TIPS Keep the product:
=======================================================================
Baking powder.................Till can date......Sealed & bone dry
Baking soda.....................2 years..........Sealed & bone dry
Biscuit, brownie, muffin mix....9 months.........Sealed, cool and dry
Bouillon, cubes or granules.....2 years..........Sealed, cool and dry
Cake mixes, regular.............9 months.........Sealed, cool and dry
angel food..........1 year...........Sealed, cool and dry
Canned metal can, non-acidic...2 years..........Cool
food, metal can, acidic.....12-18 months.......Cool
glass jars.............2-3 years.........Dark and cool
Chocolate, semi-sweet
or unsweetened.............18 months.........Cool and dark
Chocolate syrup.................2 years..........Cool & tightly sealed
Cocoa, powder or mixes..........8 months.........Sealed and cool
Coffee, regular.................2 years..........Cool, dry and sealed
instant................1-2 years.........Sealed
Coffee creamers, powdered.......9 months.........Sealed and cool
Cornmeal........................1 year...........Guard against weevils
Cornstarch.....................18 months.........Dry
Crackers........................3 months.........Dry
Flour, white...................8-12 months.......Guard against weevils
whole wheat.............6-8 months........Cool and weevil proof
Frostings, canned...............3 months.........Cool
mix..................8 months.........Dry and cool
Fruits, dried..................6-12 months.......Cool & sealed
Gelatin, all types.............18 months.........Protect from moisture
Grains, whole...................2 years..........Dry and weevil proof
Hominy & hominy grits...........1 year...........Guard against weevils
Honey...........................1 year...........Sealed
Jellies, jams, preserves........1 year...........Refrigerate after use
Molasses & syrups...............1 year...........Sealed
Mayonnaise......................6 months.........Refrigerate after use
Milk, condensed or
evaporated................1 year...........Turn over every 2 mos
Non-fat dry...............6 months.........Bone dry and cool
Nuts, vacuum canned.............1 year...........Cool and dark
other packaging...........3 months.........Cool and dark
in shell..................4 months.........Cool, dry and dark
Pancake mix....................6-9 months........Dry and weevil proof
Pastas
(macaroni, noodles, etc).......2 years..........Guard against weevils
Peanut butter..................6-9 months........Sealed, cool, dark
Peas and beans, dry
(not soybeans).................2 years..........Dry and weevil proof
Potatoes, instant..............6-12 months.......Dry and weevil proof
Pudding mixes...................1 year...........Cool and very dry
Rice, white.....................2+ years.........Guard against weevils
brown.....................3-6 months........Cool and weevil proof
flavored or herb...........6 months.........Sealed & weevil proof
Salad dressings...............10-12 months.......Refrigerate after use
Salad oils......................6 months.........Sealed, dark and cool
Sauce and gravy mixes..........6-12 months.......Cool and dry
Shortening, solid...............1 year...........Dark
Soup mixes......................1 year...........Cool and dry
Sugar, brown....................6 months.........Airtight container
confectioners...........18 months.........Dry and sealed
granulated...............2+years..........Dry
Syrups (corn syrup based)......8-12 months.......Sealed and cool
Tea, bags......................18 months.........Sealed and dry
instant....................3 years..........Sealed
loose......................2 years..........Sealed and dry
Vegetables, dried...............1 year...........Cool and sealed
Vinegar.........................2+ years.........Sealed
Yeast (dry)...............Pkg expiration date....Cool and dry
=======================================================================
-- VI --
RESOURCES
=======================================================================
[This FAQ does not tell me what I need to know!]
Please put the question to the *rec.food.preserving*,
*rec.food.cooking*,*misc.survivalism*, *alt.survival* or *misc.rural*
Usenet newsgroups. You could even resort to the tried and true method,
a book.
The following is a list of books that I have found to have useful
information. It is by no means an exhaustive list on the subject. If
you have books you would like to suggest, please feel free to e-mail me
with the particulars. If you can please include the same kind of
information about the book in question as you see below, particularly
the ISBN #, if it has one.
A. BOOKS:
A YEAR'S SUPPLY; Barry G. & Lynette B. Crockett; 1988; ISBN#
0-915131-88-9; Available form the author at P.O. Box 1601, Orem, Utah
84057 and available in some stores. Publisher's Press.
BOOK OF TOFU, THE; William Shurtleff & Akiko Aoyagi; 1975;
ISBN#0-345-35181-9; Ballantine Books.
BUILD YOUR ARK! Book 1: Food Self-Sufficiency; Geri Guidetti; 1996;
ISBN# 0-938928-01-5; Published by the author; The Ark Institute, P.O.
Box 142, Oxford, Ohio 45056; http://www.arkinstitute.com; E-mail to
arkinst@concentric.net
COOKIN' WITH POWDERED MILK and COOKIN' WITH POWDERED EGGS; Peggy
Layton; Both 1994; No ISBN; Available from the author P.O. Box 44,
Manti, Utah, 84682.
COOKIN' WITH HOME STORAGE; Vicki Tate; 1993; ISBN# none; Published by
the author; Address: 302 East 200 North, Manti, Utah, 84642; Tel # (801)
835-8283
COUNTRY BEANS; Rita Bingham; 1996; ISBN 1-882314-10-7; Published by
Natural Meals In Minutes 30500 SE Jackson Rd, Gresham, OR 97080.
CREATING THE COMPLETE FOOD STORAGE PROGRAM; Skipper Clark; 1996; No
ISBN; Available from the author, Sierra Sun Publishing, P.O. Box 6209,
Oroville, CA 95966
HOME FOOD SYSTEMS; Edited by Roger B. Yepsen, Jr.; 1981; ISBN#
0-87857-325-9; Rodale Press.
HOW TO DEVELOP A LOW-COST FAMILY FOOD-STORAGE SYSTEM; Anita
Evangelista; 1995; ISBN 1-55950-130-8; Loompanics Unlimited.
HOW TO DRY FOODS; Deanna DeLong; 1992; ISBN 1-55788-050-6; HP Books
KEEPING FOOD FRESH; Janet Bailey; 1985; ISBN# 0-385-27675-3;
Doubleday & Co.
KEEPING THE HARVEST; Chioffi and Mead; 1991; ISBN# 0-88266-650-9;
Storey Communications.
LIVING WELL ON WHEAT; Geri Guidetti; 1997; ISBN 0-938928-02-3;
Published by the author; The Ark Institute, P.O. Box 142, Oxford, Ohio
45056; http://www.arkinstitute.com ; E-mail arkinst@concentric.net
MAKING THE BEST OF BASICS - FAMILY PREPAREDNESS HANDBOOK; James T.
Stevens; 1996; ISBN #1-882723-25-2; Gold Leaf Press or from the author:
15123 Little Wren Lane, San Antonio, TX 78255; E-mail
jstevens@iamerica.net
MARLENE'S MAGIC WITH FOOD STORAGE; Marlene Petersen; 1991; No ISBN;
Published by the author; Marlene's Magic, 4958 Alpine Circle Highland,
Utah 84003
NUTRIENT CONTENT OF THE U.S. FOOD SUPPLY, 1909-1988; 1992; Nutrient
Education Division; Human Nutrition Information Service of the USDA.
NUTRITIVE VALUE OF AMERICAN FOODS; Catherine S. Adams; 1975; No ISBN;
USDA Handbook No. 456
PERMACULTURE BOOK OF FERMENT & HUMAN NUTRITION, THE; Bill Mollison;
1993; ISBN 0-908228-06-6; Tagari Publications
PUTTING FOOD BY; Greene, Hertzberg and Vaughn; 1982 (14th edition);
ISBN# 0-525-93342-5; Penguin Group.
RECOMMENDED DIETARY ALLOWANCES (The RDA Book); National Research
Council; 1989(10th edition); ISBN 0-309-046335 (paper); National
Academy Press
ROOT CELLARING (1994); Mike and Nancy Bubel; ISBN 0-88266-703-3.
TOFU & SOYFOODS COOKERY; Peter Golbitz; 1998; ISBN 1-57067-050-1;
Book Publishing Company; P.O. Box 99, Summertown, TN 38483
WHOLE GRAINS; Sara Pitzer; 1981; ISBN #0-88266-251-1; Garden Way Books
B. PAMPHLETS:
Consumer Information Center, Department EE, Pueblo CO 81009. Ask for
the Consumer Mailing List Catalog. You can order those nifty USDA
pamphlets from this catalog.
Check your extension service office for pamphlets, which can usually be
bought for a dollar or so. Especially important for high altitude
canning, getting recipes specific for locale, even information on U-Pick
sites and local farmers' markets.
Controlling Indianmeal Moths in Stored Shelled Corn and Soybeans; Phil
Harein and Bh. Subramanyam; FS-0996-A-GO Revised 1990 Minnesota
Extension Service, University of Minnesota
FOOD STOCKPILING FOR EMERGENCY SHELTERS; Food and Materials Division,
Commodity Stabilization Service, USDA, April 1961]
Food Storage In The Home FN502; Utah State University Cooperative
Extension Service Bulletin
Frequently Asked Food Questions FN 250; 1993 Utah State University
Cooperative Extension Service Bulletin
Molds And Mycotoxins In Feeds; C.M. Christensen, C.J. Mirocha, R.A.
Meronuck; FO-3538-C-GO 1988; Minnesota Extension Service, University of
Minnesota
Molds In Grain Storage; Richard A. Meronuck; FO-0564-C-GO; Revised
1987; Minnesota Extension Service, University of Minnesota
Nonfat Dry Milk FN142; Utah State University Cooperative Extension
Service Bulletin
Use of Oxygen Absorbers in Dry Pack Canning; Albert E. Purcell, Theodore
C. Barber, John Hal Johnson; Benson Quality Assurance Laboratory
Department of Food Science, Brigham Young University
C. MAGAZINES:
American Survival Guide
P.O. Box 68033
Anaheim, CA 92817-0833
(714) 693-1866
Backwoods Home Magazine. Dave Duffy, publisher.
P.O. Box 712
Gold Beach, OR 97444
(541) 247-8900
http://www.backwoodshome.com
Countryside & Small Stock Journal
N2601 Winter Sports Rd,
Withee, Wisconsin 54498
(800) 551-5691
Mother Earth News
P.O. Box 56302
Boulder, CO 80322-6302
(303) 678-0439
D. PHONE: (non-modem)
Your local cooperative extension service--check your local university
directory, especially if its a Land Grant College; look under Government
Services, under Dept. of Agriculture. Master Preservers--similar to
Master Gardeners or Master Composters.
E. ELECTRONIC:
E.1 INFORMATION SOURCES
ftp://ftp.ucdavis.edu/pub/extension/4h-youth/fp001.zip-fp008.zip
Files are compressed, written in Word Perfect 5.1 or Post Script
format. Files are eight lessons in food preservation.
ftp://ftp.michvhf.com/pub/rec.food.baking/FAQ
The FAQ for the *rec.food.baking* news group. Good stuff.
http://waltonfeed.com/self/default.htm
The Walton Feed information area on food production, preservation,
and storage, water storage and purification, nutrition, planning,
culture and a great deal of other useful information. One area also
has the labels showing contents, nutritional breakdowns and other
information of most of the products produced and/or sold by Walton
Feed. Also listed are head gas analyses of their packaged products.
He has a good section on do it yourself food storage packaging as
well.
http://www.idos.com
This is the home of The International Dutch Oven Society. There's
more here about how to use Dutch ovens to cook more foods than you
ever thought about. Also a lot of good links, including Macscouter,
a Boy Scout site with a lot of open fire cooking information.
http://www.nyx.net/~dgreenw/sourdoughfaqs.html
A truly vast collection of information, recipes and tips on
sourdough breads of every sort and some really interesting links.
The *rec.food.sourdough FAQs* may be found here as well.
http://sunsite.unc.edu/hermed
A collection of FAQs and other assorted information and pictures of
culinary and medicinal herbs.
http://www.geocities.com/Heartland/Acres/1962/rffl.html
The *rec.food.preserving* FAQ. This work and mine are yin and yang
to each other. What I don't cover, Leslie does and vice-versa.
Unfortunately, there isn't a good way to get a plain ASCII text
version and it hasn't been updated in a while, but it's still chock
full of solid, useful information.
http://www.disasterrelief.org/library/prepare
The library of the Disaster Relief Organization. Some really good
preparedness information.
http://www.fema.gov/library/emfdwtr.htm Emergency Food & Water
/famplan.htm Your Family Disaster Plan
/diskit.htm Your Family Disaster Supplies
Kit
Three of the many files available on the Federal Emergency
Management Agency web site. There's also correspondence classes on a
wide range of subjects available, most of them for free. You should
also check out the Community Emergency Response Team materials
available. There's a tremendous amount of resources and knowledge
available here and you've already paid for it, *so use it*.
http://cypress.idir.net/~medintz/surv_faq/surv_faq_index.html
Mike Medintz's web site and it contains the FAQs native to the
misc.survivalism newsgroup. Particularly look for the *Threat
Assessment FAQ* by Richard DeCastro and the *Water Treatment FAQ* by
Patton Turner.
http://www.millennium-ark.net/News_Files/Hollys.html
http://www.ballarat.net.au/~standeyo/News_Files/Hollys.html
These two sites in the States and Australia mirror each other.
Created by Holly and Stan Deyo, they offer a great deal of useful
food storage information, software, water purification and storage
and more. Well worth a look.
http://www.flashnet/~bhphiker/BHP/
The Back Country homepage. All sorts of knowledge relating to the
back country. Click on the "distilled wisdom" link to get to the
*rec.backcountry* newsgroup FAQs. One of the most important ones
there is the *water treatment FAQ*. It makes a fine complement to
Pat Turner's water treatment FAQ.
http://www.homecanning.com
The Bernardin (Altrista) web site. Wet-pack pressure and
boiling-water bath canning information.
http://www.danonenewsletter.fr/indexangl.html
This is not Dannon, but Danone, the French yogurt maker. The site
has a great deal of information on fermented milk products. It's in
English, but French is available as well.
http://countrylife.net
A village of high quality food information about edible wild plants,
herbs, grain, milling, baking, fermented milk products and more.
http://www.managingdesire.org/Hesperian/Hesperian.html
Nothing to do with food at all, but a page for ordering the various
publications of the Hesperian Foundation, such as *Where There Is No
Doctor*, *Where There Is No Dentist* and *A Handbook For Midwives*.
In many situations where you might have to seriously rely upon your
food storage program these books could surpass the value of their
weight in gold. Think seriously about getting them.
http://www.hollowtop.com/finl_html/finl.html
The Food Insects Newsletter site. Just in case you think you'll
ever have to.
E.2 SOFTWARE SOURCES
[I have not used any of these programs myself, but I'm listing them for
those who might be interested - editor]
http://www.waltonfeed.com/grain/calc.html
There are two Excel spreadsheets here that can also be imported into
Lotus 123, Quattropro or Works For Windows. The first spreadsheet
is a nutritional calculator showing the breakdown of 65 nutrients
for 167 foods with more being importable. The second spread sheet
is a yearly supply calculator.
http://waltonfeed.com/self/plan.html
A nutritional calculator that allows you to enter your food supply
and it gives you a daily nutritional printout. This is a smaller,
less versatile version of the one from Revelar below, but is less
resource intensive and will run on a DOS only machine.
http://www.revelar.com/fsp.html
A more extensive, versatile version of the above program, makes it
much easier to modify for personal use. It also requires at least a
486, Windows and 8mb of Ram. A version for the Mac is available as
well.
http://www.beprepared.com (click on free software area)
Offered on the Emergency Essentials web site. The first program is
a food planner demo for creating shopping lists and planning recipes
for any length of time. The second is a 72 hour preparedness
program that will take you through various disasters and how to
prepare for them.
http://www.millennium-ark.net/News_Files/Hollys.html
http://www.ballarat.net.au/~standeyo/News_Files/Hollys.html
The U.S. and Australian web sites for Holly and Stan Deyo. They
offer food storage calculators similar to the one from Revelar, but
with more food items already built in.
F. ORGANIZATIONS
F.1 THE CHURCH OF JESUS CHRIST OF LATTER DAY SAINTS
The LDS church, commonly known as the Mormon Church, has long had a
welfare program for the benefit of its members in need. Believing that
the best way to deal with the problem of needy members is not to have
any, the church also strongly encourages its membership to be as
self-reliant and self-dependent as possible. To further this end it
provides access to church owned cannery facilities and makes large,
economical bulk purchases of storage foods to sell at cost to any member
with an interest in starting a personal food storage program. Believing
that the more self-dependent people there are in general the fewer there
will be needy in times of hardship the LDS church also makes those same
facilities and supplies accessible to non-church members, or "gentiles",
as well.
Most facilities will be located at one of the LDS Bishop's
Storehouses located in various places around the country, but some
churches will also have their own local facilities. The easiest means
of finding out is simply to ask the LDS church member you know. If they
don't themselves know, or you don't know any Mormons then a little phone
book research will be necessary. Find your nearest local Mormon church
and ask about speaking with the local Bishop of the Ward or Relief
Society president. Either one of those two individuals will be able to
give you the information you seek. Failing any of the above, you can
also call the LDS church headquarters in Salt Lake City at
1-800-453-3860 extension 4164.
Or you can write to:
The Church of Jesus Christ
of Latter-Day Saints
Welfare Services
Seventh Floor
50 East North Temple Street
Salt Lake City, Utah 84150
If you find that you have a cannery within striking distance then
give them a call. Inquire about available times, what you need to
provide and what is not suitable for canning. Be up front and honest
with them, they're sincere about allowing non-church members to use
their facilities. You'll hardly be the first one to want to talk to
them about food storage. Ask for a copy of the cannery guidelines and a
price list of what is available. There may also be classes or seminars
available. There is a certain degree of variability between the
canneries so what is available at one may not be at another.
I've corresponded with many LDS members and have even contacted the
LDS headquarters in Salt Lake City to get the official word. Keeping in
mind that not every area may have facilities for use and that the family
canneries are run by volunteers, they are quite earnest about allowing
non-church members to use their facilities. It's worth investigating.
IMPORTANT NOTE: Please do keep in mind that the individuals
responsible for the family canneries are all
*volunteers* with demands on their time from many areas. Be courteous
when speaking with them and, if there are facilities for use, flexible
in making arrangements to use them. You will, of course, have to pay
for the supplies that you use, cans and lids at the least, and any food
products you get from them. With the onset of the millennium the LDS
family cannery volunteers are becoming quite busy so be prepared to have
to work with their available scheduling. As a general rule they cannot
put your food in storage for you. Be ready to pay for your purchases in
advance, if necessary. They do not take credit cards and probably
cannot make change so take a check along.
Any food products you want to have sealed in cans will need to fall
within their guidelines of suitability for that type of packaging. This
is for reasons of spoilage control since many types of foods just aren't
suitable for just sealing in a container without further processing. If
you purchase food products from them, they will already be within those
guidelines. A brief treatment of these guidelines may be found below.
F.1.1 LDS FAMILY CANNERY GUIDELINES
Subject to some variability, the following foods are generally
available at the canneries:
Apple slices, dried Macaroni Rice, white
Beans, pinto, pink, Milk, non-fat dry Soup mix
great Northern Oats, quick rolled Spaghetti
Carrots, dry Onions, dry Sugar, white
Cocoa, hot mix Pudding mix Wheat berries
Flour, white (chocolate & vanilla) (hard red winter)
Fruit drink mix
You will be able to purchase the necessary cans, oxygen absorbers,
boxes and plastic lids for what you want to can.
The following food items are not thought to store well when dry
pack canned and generally cannot be put up at the cannery:
Baked goods Egg noodles Peanut butter
Baking powder Flour, whole wheat Rice, brown
or soda Granolas Spices
Barley, pearled Honey Sugar, brown
Cereal, milled grain Mixes, if they contain Yeast
Coconut leavening agents
Cornmeal Nuts, roasted or raw
Dried meats Oils or fats
Although I am not in complete agreement with the above list, it is
workable and will get the job done. Make sure that the food you want to
pack has little fat content and strive to make sure it has a low
moisture content and you should be OK. For grains, legumes, flours,
meals and dried fruits and vegetables do make sure to use the oxygen
absorbers. You should not assume the food is insect free. When the
packets remove the available oxygen any insect life in the can will
either die or at least go into stasis.
G. FOOD AND EQUIPMENT SUPPLIERS
G.1 MAIL ORDERING STORAGE FOODS --
WHAT YOU SHOULD KNOW
When it comes to building a food storage program, sooner or later
you may want to seriously consider mail ordering at least a part of the
foods you want. Even for those of us who try do as much as we can
locally there are some things which are not going to be easily available
in our areas. To help with this I have included below a list of food
and equipment suppliers where just about anything can be found.
Because many do find it necessary or desirable to purchase through
mail order I am including a few points which should be considered before
shelling out the cash.
1.-- Find out how much the shipping costs are going to be. Grains
and legumes are relatively cheap, but weigh a lot when bought by the
five or six gallon-bucket. Because of this, shipping charges can
sometimes as much as double the actual cost of the product by the time
you get it to your door. Adding insult to injury is the $2.00 per round
bucket fee UPS is charging. Compare carefully each company's list price
and their shipping charges, combined, when deciding who to order from.
Saving up for a larger order, or trying to find someone to combine
orders with might enable you to make a large enough order to get a price
break on shipping. You could also take a vacation in the area of the
company's location or swing through the area on the way back from one.
If you choose to do this, be certain to call ahead and let them know so
they'll have your order ready and waiting for you. The company in the
next state may be higher on the list price, but end up being cheaper
than having it shipped in from six states away.
2.-- Ask the supplier when your order is going to ship. Some
suppliers are way behind in order filling and you could be waiting and
waiting. Slowness in shipping is not necessarily a sign of bad
business. Some suppliers may drag their feet, but others may be
genuinely swamped by the volume of business they are receiving because
they have a good product at a fair price. The closer we come to the
millennium the worse this problem is going to become.
3.-- How fresh is the product you are ordering? Freshness is what
it's all about when it comes to storage foods. If a food has a five
year shelf life in its container then you want as much of those five
years to be on your shelf, not the supplier's.
4.-- Be very clear as to how the product you are ordering is
packed. Many suppliers offer identical foods packed in several
different ways. Be certain the product number you are giving the
salesperson is for the product packed in the manner in which you want
it.
5.-- What is the head gas analysis? If you are ordering foods
packed in a nitrogen flushed oxygen free container (with or without an
oxygen absorber packet added) then ask about the laboratory test results
that measure the oxygen content of the head gasses in the container.
This is of great importance if you are counting on the extra storage
life such packaging will give you. There are but a few companies such
as Perma Pak, Ready Reserve, and Walton Feed that actually produce
packaged storage foods and most dealers only distribute and retail their
products. If the dealer can not produce the manufacturer's test data
measuring the head gasses of the products they are selling then keep
looking.
6.-- If you are purchasing wheat and intend to use it primarily for
bread making then be sure to ask about its protein content. The best
breads need at least 12% protein and the higher the better. Also take a
close look at the weight of the product. One company's five or six
gallon bucket of wheat may not weigh the same as another's. The same
applies to dehydrated foods such as fruits, vegetables, TVP, etc. Ask
about the moisture content of bulk foods which are not already packaged
for long term storage. 10% moisture is where you want to be for grains,
legumes and most everything else.
7.-- What is the company's damage and return policy? If your
carefully packed SuperPails and #10 cans get dented or cracked in
shipping you'll need to have them replaced. Most mail order companies
will require you to contact the shipper (such as UPS) for a claim
number. The shipper may or may not require an inspection so don't
destroy any packaging or containers until you know for sure.
Does anyone else know of anything else a person should look out for
or ask about when mail ordering storage food?
G.2 ADDRESSES OF SUPPLIERS
DISCLAIMER: The addresses listed below were either found by me or sent
to me by the business owners or interested readers. I
make *NO* representation as to their worthiness to do business with.
Most of these merchants or manufacturers have been in their field for
many years and will be around for many more and are honorable in their
dealings. However, there are some businesses that spring up and then
disappear and with every update of this work there is at least one or
two that I cannot locate from the previous update. The advent of the
World Wide Web has only exacerbated this problem. In addition to the
precautions mentioned in G.1 above you should take all of the usual
precautions in mail or phone ordering.
I have accumulated the following list of names and addresses of
various suppliers of one thing or another relating to food preservation
and storage. They are roughly categorized by type:
STORAGE FOOD MANUFACTURERS: The actual producers or packagers of
storage foods. Some also do retail sales of their products, but most do
not.
FOOD PRESERVATION DEALERS AND SUPPLIERS: These are businesses dealing
with the aspects of food preservation as opposed to storage. Canning,
meat curing, fermented milks, pickling, spices, soybean products,
brewing, vintning, etc.
FOOD STORAGE AND PRESERVATION EQUIPMENT MANUFACTURERS: The actual
manufacturers of equipment. Some will do retail sales and some do not.
DIATOMACEOUS EARTH MANUFACTURERS AND DEALERS: Self-explanatory.
STORAGE FOOD RETAIL DEALERS: Retail sales of all of the above.
Naturally, addresses, phone numbers, web sites, etc change over
time so if you have more current information than I'm giving here,
please be so kind as to let me know. Additionally, I'm always looking
for new companies so if you have some that I don't have I'd like to see
those too. Thanks - ed.
G.2.1. STORAGE FOODS MANUFACTURERS
ALPINEAIRE FOODS
Post Office Box 926
Nevada City, California 95959
(800) 322-6325
(916) 272-2624 fax
http://www.alpineairefoods.com/
E-mail: sales@alpineairefoods.com
Storage food manufacturer. Shelf stable foods with a long storage life.
Many foods that require no cooking. Also backpacking meals. No retail
sales. See suppliers list for retail dealers.
FREEZE DRY FOODS, LIMITED
579 Speer Rd
Oakville, Ontario L6K 264 Canada
(905) 844-1471
(905) 844-8140 fax
http://www.freeze-dry.com
E-mail: info@freeze-dry.com
A Canadian freeze-dried foods manufacturer. Produces Hardee Camping
Foods. List of dealers on site. No retail sales.
HARVEST FOODWORKS
445 HWY 29
RR#1
Toledo, Ontario KOE 1YO, Canada
(800) 268-4268
(613) 275-2218
(613) 275-1359 (fax)
http://www.harvest.on.ca
e-mail: thefolks@harvest.on.ca
A Canadian producer of primarily vegetarian (some have meats) dehydrated
and freeze dried foods. No retail sales, but a links page gives
location of dealers. Ingredients and nutrition information on site.
OREGON FREEZE DRY, INC (Mountain House)
P.O. Box 1048
Albany, OR 97321
(800) 547-0244
(541) 967-6527 fax
(541) 926-6001 international
http://www.ofd.com/mh/index.html
E-mail: mtnhouse@ofd.com
Manufacturer of Mountain House freeze dried foods in pouches and larger
cans. Does not sell direct, but through distributors. A list of
dealers and stocking stores on site.
PERMA-PAK
3999 S. Main St., Suite #S-2
Salt Lake City, UT 84107
(800) 594-8974
(801) 268-3913
(801) 268-4376 fax
http://permapak.com
A major producer of storage foods. No retail sales. See retail
suppliers list for dealers.
READY RESERVE FOODS
Post Office Box 697
1442 S. Gage
Beaumont, California 92408
(800) 453-2202
Over 100 different dry food products for long term storage. No retail
sales. Contact company for a list of dealers.
SOPAKCO
P.O. Box 1129
215 South Mullins St
Mullins, South Carolina 29574
(800) 276-9678
(888) 276-9678
(803) 464-0121
(803) 464-2178 fax
http://www.sopakco.com
Manufacturer of military MRE's, their civilian MRE equivalent brand
*Camp & Trail* and humanitarian pouch meals. Some product info on site.
No retail sales, but does have dealer contact info.
STAR FOOD PROCESSING, INC.
3444 East Commerce Street
San Antonio, Texas 78220
(800) 882-MEAL
RETAIL SALES. Fully cooked heat & eat serving trays. Each tray contains
106 ounces of fully cooked, ready to eat products. Thirty minutes time
required to prepare a meal from pantry to the table. This product is
shelf stable and requires no refrigeration or freezing for storage.
Normal shelf life is two years.
WALTON FEED,INC
135 North 10th
P.O. Box 307
Montpelier, ID 83254
(800) 269-8563
http://www.waltonfeed.com
RETAIL SALES. Major manufacturer and supplier of storage foods. Bulk &
N2 packed dehydrated foods, grains/legumes bulk and N2 packed, oxygen
absorbers. Free food storage planning software. Can labels and head
gas analyses of most products available for viewing on site. Very
informative web site.
WORNICK COMPANY, THE (formerly Right Away Foods and Shelf Stable Foods)
200 North First Street
McAllen, TX 78501
(800) 565-4147 (Mil-Spec orders)
(210) 687-9401
(210) 687-7028 fax
http://www.wornick.com
Manufacturer of military MRE's, their civilian MRE equivalent brand
*Mil-Spec* and humanitarian pouch meals. Good information on military
and civilian MRE's on their site. No retail sales.
G.2.2 FOOD PRESERVATION DEALERS AND SUPPLIERS
Canning, meat curing, food drying, spices, pickling, cultured milk
products, soybean products, etc.
ALLIED-KENCO SALES
26 Lyerly St.
Houston, Texas 77022
(800) 356-5189
(713) 691-2935
(713) 691-3250 fax
http://www.alliedkenco.com
E-mail: alliedkenco@msn.com
A butcher supply house specializing in sausage and jerky making supplies
and equipment. Seasoning, sausage casings, meat grinders, sausage
stuffers, commercial vacuum sealing machines and more.
CON YEAGER SPICE COMPANY
144 Magill Rd
Zelienople, PA 16063
(800) 222-2460
(412) 452-6171
http://www.nauticom.net/w-pa/yeager.htm
E-mail: bkrever@fyi.net
Meat curing, smoking, herbs and spices. Bulk sales.
COOKBOOK SHOPPE, THE
Vickie Tate
302 East 200 North
Manti, Utah 84642
(801) 835-8283
Home Storage & Preparedness Books including Cooking With Home Storage.
CUMBERLAND GENERAL STORE
#1 Highway 68
Crossville, TN 38555
(800) 334-4640
(931) 456-1211 fax
http://www.cumberlandgeneral.com
The rival to Lehman's Hardware. A good deal of food preservation and
storage equipment with the emphasis on non-modern gear. Can sealers,
grain mills, water pumps and a great deal of other non-electrically
powered equipment.
DOUBLE SPRINGS HOMEBREW SUPPLY
4697 Double Springs Rd.
Valley Springs, CA 95252
(888) 499-2739
(209) 754-4888
http://www.doublesprings.com/
E-mail: homebrew@GOLDRUSH.com
Home brewing and vintning supplies of all sorts. May have oxygen
absorbers. Preservative chemicals. Many books, including vinegar
making. Vinegar mothers. A lot of equipment.
GEM CULTURES
30301 Sherwood Rd.
Ft Bragg, CA 95437
(707) 964-2922 (mornings are best time to call, Pacific time)
Fermented food starter cultures such as natto, tempeh, amazake, miso,
shoyu, tamari, koji, miso, sourdough and other bread leavens (barm,
etc.), fil mjolk, viili, and kefir grains. Also natural nigari
(bitterns) and calcium sulfate (gypsum) as well as a form box for tofu
making.
HOME CANNING SUPPLY & SPECIALTIES
P. O. Box 1158
(1815 LaBraya St.)
Ramona, CA 92065
(619) 788-0520 (phone)
(619) 789-4745 (fax)
(800) 354-4070 (orders only)
Home canning and food preservation supplies such as bulk pectin. They
offer regular pectin, low-methoxyl pectin without preservatives, and
low-meth pectin with preservatives.
KOCH SUPPLIES
1411 West 29th St
Kansas City, Missouri 64108
(800) 456-5624
(816) 753-2150
(816) 561-3286 fax
http://www.kochsupplies.com
E-mail: koch@kochsupplies.com
Primarily wholesale dealer in meat curing, smoking and sausage making
supplies.
LEHMAN'S HARDWARE
P.O. Box 41
Kidron, OH 44636
(330) 857-5757
http://lehmans.com
E-mail: getinfo@lehmans.com
Not a great deal of food, but a lot of food related equipment, grain
mills, can sealers, water pumps, butchering, cheese making, dehydrators,
pitters, peelers, etc. Most of it non-electric. Many books. Free
shipping on many orders.
PENZEYS, LTD. SPICE HOUSE
P.O.Box 933
Muskego, WI 53150-0933
(414) 679-7207 voice
(414) 679-7878 fax
http://www.penzeys.com/
E-mail: info@penzeys.com
Herb and spice supply house. Excellent prices on bulk quantities of
herbs and spices. Good quality and variety.
SAUSAGE MAKER, THE
1500 Clinton St
Building 123
Buffalo, NY 14207-2875
(716) 824-6510 voice
Mail order sausage making, meat curing and smoking supplies, training
videos, equipment, etc
STUFFERS SUPPLY COMPANY
22958 Fraser Highway
Langley, B.C. V2Z 2T9
(604) 534 7374
(604) 534 3089 fax
http://www.harb.net/stuffers
E-mail: bleathem@stuffers.com
A Canadian source of sausage making and meat curing supplies.
G.2.3. FOOD STORAGE AND PRESERVATION EQUIPMENT MANUFACTURERS
BERLIN PACKAGING
National Customer Service Center
435 East Algonquin Rd
Arlington Heights, IL 60055
(also regional sites, addresses on web site)
(800) 423-7546
http://www.berlinpackaging.com
E-mail: info@berlinpackaging.com
Food grade packaging and containers, primarily plastic, but also metal
and glass. They claim no order is too small.
CONSOLIDATED PLASTICS
8181 Darrow Rd
Twinsburg, OH 44087
(800) 362-1000
(216) 425-3900
(216) 425-3333 fax
FDA approved plastic food storage containers, food grade plastic bags,
screw off bucket lids and more. Ask for their Rubbermaid,
laboratory/industrial catalogs and bags/packaging/shipping catalogs.
COUNTRY LIVING PRODUCTS
14727 56th Avenue NW
Stanwood, Washington 98292
Manufacturer of the Country Living grain mill.
DESICCARE, INC
East coast facility West coast facility
211 Industrial Dr 10600 Shoemaker Ave, Bldg C
Richland, MS 39218 Santa Fe Springs, CA 90670-4026
(888) 932-0405 (800) 446-6650
(601) 932-0442 fax (562) 903-2272
http://dessicare.com/homeprod.htm
E-mail: desiccant@desiccare.com
Retail sales of pre-packaged and bulk desiccants.
DRYING PANTRY, THE
9756 South Kristin Drive
Sandy, Utah 84070
(801) 571-9115
A non-electric kitchen food dryer. Uses naturally occurring heat,
either from the sun or your homes heating system. Hangs from a hook to
save counter space. It can also serves as a sprouter.
FREUND CAN COMPANY
155 West 84th St
Chicago, IL 60620-1298
(773) 224-4230 ext 179
(773) 224-8812 fax
http://www.freundcan.com
Metal, glass and plastic containers. Can sealers of several sorts.
Claims will sell any quantity.
GLITCHPROOF.COM
3171 Green Valley Rd #11
Birmingham, AL 35243
(205) 302-0706
(205) 969-9356
http://www.glitchproof.com
E-mail: info@glitchproof.com
No food, but carries kits and products for do-it-yourself food storage.
Buckets, lids, oxygen absorbers, Mylar and poly liner bags, 55 gallon
food-safe drum liners, and other packaging items.
LIFE SPROUTS
Post Office Box 150
Paradise, Utah 84328-0150
(800) 241-1516
Manufactures the Sprout Master Sprouter and carries organic sprouting
seeds. Also markets recipe books, food storage.
UNITED STATES PLASTICS
1390 Neubrecht Rd
Lima, OH 45801
(800) 537-9724
(419) 228-5034 fax
http://www.usplastic.com
E-mail: usp@usplastics.com
FDA approved plastic food storage containers, food grade plastic bags,
screw off bucket lids and more.
WELLS CAN COMPANY, LTD.
8705 Government St
Burnaby, British Columbia V3N 4G9 Canada
(604) 420-0959
(604) 420-0975 fax
http://www.cobra-net/wellscan/canning.html
E-mail: wellscan@lightspeed.bc.ca
A Canadian manufacturer of pressure canners & cookers, can sealers,
metal cans, canning jars, plastic and metal buckets and vacuum sealers.
Retail sales.
G.2.4 DIATOMACEOUS EARTH MANUFACTURERS AND DEALERS
ALL GONE!
Phone: 800-373-3423
E-mail allgone1@vero.com
Diatomaceous earth
DIATECT CORPORATION
c/o Gordon Dill 410 E. 48th St Holland, MI 49423
Diatomaceous earth
FOSSIL SHELL SUPPLY COMPANY
P.O. Box 50225 Amarillo TX 79159
(800) 370-9920
(806) 355-4236 voice
(806) 351-0777 fax
http://www.webtex.com/webtex/com/fssc /
E-mail jandj@arn.net
Diatomaceous earth
NECESSARY ORGANICS, INC
One Nature's Way
New Castle, VA 24127-0305
Concern brand diatomaceous earth. This is the brand I've been buying.
PLANET NATURAL
1612 Gold Ave
P.O. Box 3146
Bozeman, MT 59772
(800) 289-6656
(406) 587-0223 fax
http://www.webcom/ecostore/index.html
E-mail: ecostore@webcom.com
A very green dealer. The DE is in the Soaps, Oils and More directory.
G.2.5 STORAGE FOOD RETAIL DEALERS
AMERICAN FREEDOM NETWORK, THE
P.O. Box 1750
Johnstown, CO 80534
(800) 205-6245 orders
http://www.amerifree.com/index.htm
E-mail: comments@amerifree.com
Mainstay Emergency Ration bars, Country Living grain mill, Katadyn water
filters. Pre-packaged storage foods, including organic.
B&A PRODUCTS
Rt 1 Box 100
Bunch, OK 74931-9705
(918) 696-5998
(918) 696-5999 fax
http://www.baproducts.com
E-mail: Byron@baproducts.com
Water filters, Ready Reserve, Alpineaire foods and Heater Meals.
BACK TO BASICS (KATHLEEN LAMONT)
P.O. Box 1138
Waynesville, NC 28786
(704) 452-2866
http://www.dnet.net/~basics
E-mail: basics@dnet.net
Many good books, food dehydrator, Tilia vacuum sealer, video taped food
storage courses. Lamont lectures at some preparedness expos.
BEST PRICES STORABLE FOODS by Bruce Hopkins
1737 Cascade St
Mesquite (Dallas) Texas 75149
(972) 288-0262 in the p.m.
(972) 288-4610
(214) 742-7777 weekdays in the a.m.
http://web2.airmail.net/foodstr2/
E-mail: foodstr2@airmail.net
Pre-packaged dehydrated foods, bulk foods, grains, legumes, and grain
mills. Mylar bags, oxygen absorbers, containers and DE. Mountain House
freeze dried foods. Organic foods.
COUNTRYSIDE GRANARY
P.O. Box 701
Hull, Iowa 51239
(888) 435-3948
(712) 439-1861
Web site & E-mail coming.
Grains, lequmes, dry milk and other bulk foods in bags and 6 gallon
SuperPails. Sprouting seeds. Diatomaceous earth, oxygen absorbers and
food-grade 55 gallon drums.
CSIN
P.O. Box 538
Libby, MT 59923
(406) 293-8121 9a.m.-9p.m. MST
http://www.kootenet.net/csin/index.htm
E-mail: CSIN@kootenet.net
Grain mills, bulk and nitrogen packed (buckets & cans) grains, legumes,
dehydrated and freeze dried foods, sprouting seeds. Oxygen absorbers and
Mylar bags. $100 minimum order.
EMERGENCY ESSENTIALS
National Catalog Sales Office
165 S. Mountain Way Drive
Orem, Utah 84058-5119
(801) 222-9596
(800) 999-1863 Toll Free Order Line
http://www.beprepared.com
E-mail: webmaster@beprepared.com
A major preparedness retailer. Storage foods of all types, MRE's, water
purifiers, storage containers, grain mills and other food equipment.
Excellent costs on shipping. Free preparedness software.
EMERGENCY FOOD STORAGE
322 Buckingham
Prescott, AZ 86303
(800) 414-9324
http://www.northlink.com/~gwiatt
E-mail: permapak@usa.net
A PermaPak foods distributor, pre-packaged food plans.
EPICENTER, THE (EMERGENCY PREPAREDNESS INFORMATION CENTER)
6523 California Ave SW, #161
Seattle, WA 98136
(206) 937-5658 voice/fax
http://TheEpicenter.com
e-mail: bjnelson@TheEpicenter.com
Heater Meals, Datrex ration bars and MREs. Water filters.
FC SURPLUS
1712 Dundas St. E.
London, Ontario N5W 3E1 Canada
(519) 451-0246 voice & fax
(519) 451-9341 fax, if above line is busy.
http://www.fcsurplus.com/mltryfd.htm
E-mail: question@fcsurplus.com
Canadian "Freddy Chef" MREs and other surplus related items, primarily
Canadian or British.
HAPPY HOVEL FOODS
P.O. Box 781
Yelm, WA 98597
(800) 637-7772
(360) 458-4445
(360) 458-7977 fax
http://www.wwmagic.com/haphov
e-mail: haphov@seanet.com
Pre-packaged foods, bulk grains, legumes and dehydrated foods. MRE's,
freeze dried foods, grain mills.
HOMESTEAD PRODUCTS
Contact via phone or e-mail for postal address
(541) 688-9263
(541) 688-9775 fax
http://www.teleport.com/~dany/mill
E-mail: dany@teleport.com
Several grain mills, Katadyn water filters and Aladdin lamps.
J&K ENTERPRISES
519 Griffith Ave
Terrell, TX 75160
http://www.hischaracter.com/foods.htm
E-mail: jseitz@hischaracter.com
Pre-packaged storage foods, bulk grains, legumes, dehydrated foods
organics, Alpineaire, sprouting seeds. Oxygen absorbers, grain mills.
JOSEPH PROJECT, THE
P.O. Box 6701
Lubbock, TX 7493-6701
No phone listed.
http://corporate.odyssey1.net/josephproject/
E-mail: JosephProject@odsy.net
Bulk dehydrated foods.
LAKERIDGE FOOD STORAGE
896 E. 640 N.
Orem, Utah 84097
(801) 221-8207 fax
(800) 336-7127
http://www.shopsite.com/lfs
E-mail: lfsfood@ix.netcom.com
Pre-packaged long term storage foods, bulk grains, legumes, organic
foods, sprouting seeds, dehydrated foods and some freeze-dried. Grain
mills.
LIVE OAK FARMS
(877) 878-4867
(405) 794-7365
The site did not list a postal address
http://www.universalweb.com/food/index.htm
E-mail: ron@universalweb.com
Pre-packaged foods, bulk foods, MRE's, sprouting seeds. Grain mills and
other equipment.
MAJOR SURPLUS
435 W. Alondra Boulevard
Gardena, California 90248
(800) 441-8855
(310) 324-6909 fax
http://majorsurplusnsurival.com
E-mail: info@majorsurplusnsurvival.com
MRE's and some food/water storage containers.
MEYERS CUSTOM SUPPLY
P.O.Box 212
Cassel, CA 96016
(800) 451-6105
(530) 335-4320
http://www.C-zone.net/meyerscs/mcs
E-mail: mcs@C-zone.net
Alpineaire foods, civilian MREs.
MILLENNIUM FOOD STORES
726 North 1890 West #34
P.O. Box 50597
Provo, UT 84605
(800) 500-9893
(801) 375-2264
(801) 356-1523 fax
E-Mail: food@itsnet.com
http://www.millenniumfoods.com
Dehydrated & freeze-dried foods in #10 cans, and Mylar lined buckets.
Some bulk foods.
NITRO-PAK PREPAREDNESS CENTER
151 N. Main Street
Heber City, Utah 84032
(800) 866-4876
(888) 648-7672 toll free fax
http://www.nitro-pak.com (It's been under construction for a long while)
E-mail: nitropak@shadowlink.net
Pre-packaged and bulk dehydrated, freeze-dried, storage foods. Datrex
and Mainstay ration bars. Mountain House and Alpineaire foods and
civilian MREs. Water storage containers and filters. Grain mills, #10
can sealer. Oxygen absorbers and Mylar bags..
PONDEROSA SPORTS & MERCANTILE, INC.
6854 Highway 55
Horseshoe Bend, Idaho 83629
(208) 793-3121
(208) 793-3133 fax
E-mail: ponder@micron.net
Preparedness food, equipment and supplies. MRE's, Mountain House freeze
dried foods, Heatermeals, BFM (Balanced Food Mix), 26 page catalog,
send $2.
PRODUCT SOURCE INTERNATIONAL
255 East 400 South, Ste 150
Salt Lake City, Utah 84111
(801) 531-8996 voice
(801) 328-1243 fax
http://www.downtown-web.com/psi
E-mail: psiusa@aros.net
Pre-packaged and bulk long term storage foods, books, grain mills,
containers (empty #10 cans for home use). Oxygen absorbers (in
emergency preparedness section).
PROVISIONS 2000, INC
2271 W 12th Lane
Yuma, AZ 85364
(520) 329-7158
http://home.sprynet.com/sprynet/prov2000/main.htm
E-mail: prov2000@sprynet.com
Alpineaire gourmet reserves & Canadian military MREs.
SAFE TREK
90 Safe Trek Place
Bozeman, MT 59718
(406) 587-5571
(406) 586-4842 fax
(800) 424-7870
http://www.safetrek.com
E-mail: Sales@avicom.net
Alpineaire pre-packaged foods, their own cannery line as well. Grain
mills, books, Oxygen absorbers.
SECURE FUTURE
640 Bailey Rd, #128
Pittsburgh, CA 94565
http://www.securefuture.com
E-mail: questions@securefuture.com
N2 packed dehydrated foods (Ready Reserve), Pre-packaged food plans,
grain mills.
SHERRY'S STOREHOUSE
P.O. Box 1507
Merlin, OR 97532
(541) 471-7859 days
(541) 660-8267 evenings
(800) 662-0137 fax
http://www.homezen.com/sherstor/sherstor.html
E-mail: none listed.
Grains, legumes, dehydrated, freeze dried, organic bulk and nitrogen
packed foods (buckets and cans), sprouting seeds, Mainstay ration bars.
Oxygen absorbers, Mylar bags, #10 cans and grain mills.
SOUTH SUMMIT CORPORATION
P.O. Box 851293
Richardson, TX 75085
(972) 495-5270 voice
(972) 495-9579 fax
http://www.southsummit.com
E-mail: southsummit@topher.net
Provident Pantry long term storage foods, MRE's, water storage, filters
and containers, ration bars, freeze dried foods (multiple
manufacturer's), plastic food storage buckets.
STOREHOUSE PRODUCTS
Post Office Box 690021
San Antonio Texas 78269
(210) 690-7632
http://www.dcci.com/DCCI/storehouse.html
E-mail: deyer@dcci.com
A Texas distributor providing a complete line of dehydrated foods, grain
mills, water purification systems. Call or write for a free catalogue.
SURVIVAL CENTER, THE
19223 Cook Road
P.O. Box 234
McKenna, Washington 98558
(360) 458-6778 voice
(360) 458-6868 fax
(800) 321-2900 orders only
http://www.zyz.com/survivalcenter
E-mail: sales@survivalcenter.com
A lot of books, not all of them useful. Pre-packaged food plans.
Mountains House freeze dried foods in pouches and cans. MRE's. Grain
mills. For catalog send $2.00.
WHEAT MONTANA FARMS & BAKERY
10778 Hwy 287
Three Forks, MT 59752
(406) 285-3614
(406) 285-3749 fax
(800) 535-2798 (small quantity UPS orders)
http://www.wheatmt.com
Hard red wheat, hard white wheat, organic wheat, other bulk and packaged
grains, pinto beans. Empty buckets and lids. Small qty and bulk flours
as well.
=====================================================================
Please direct orders, comments, questions, contributions and criticisms
to: athagan@sprintmail.com
Postal mail address:
A.T. Hagan
P.O. Box 140008
Gainesville, Fl 32614-0008
Information concerning emergencies and emergency management
Disaster may strike quickly and without warning. These events can be
frightening for adults, but they are traumatic for children if they don't know
what to do.
Children and Their Response to Disaster
Children depend on daily routines: They wake up, eat breakfast, go to school,
play with friends. When emergencies or disasters interrupt this routine,
children may become anxious. In a disaster, they'll look to you and other
adults for help. How you react to an emergency gives them clues on how to act.
If you react with alarm, a child may become more scared.
They see our fear as proof that the danger is real. If you seem overcome
with a sense of loss, a child may feel their losses more strongly. Children's
fears also may stem from their imagination, and you should take these feelings
seriously. A child who feels afraid is afraid. Your words and actions can
provide reassurance. When talking with your child, be sure to present a
realistic picture that is both honest and manageable. Feeling or fear are
healthy and natural for adults and children. But as an adult, you need to keep
control of the situation.
When you're sure that danger has passed, concentrate on your child's
emotional needs by asking the child what's uppermost in his or her mind.
Having children participate in the family's recovery activities will help them
feel that their life will return to "normal." Your response during this time
may have a lasting impact. Be aware that after a disaster, children are most
afraid that the event will happen again. someone will be injured or killed.
they will be separated from the family. they will be left alone.
Advice to Parents: Prepare for Disaster
You can create a Family Disaster Plan by taking four simple steps. First,
learn what hazards exist in your community and how to prepare for each. Then
meet with your family to discuss what you would do, as a group, in each
situation. Next, take steps to prepare your family for disaster such as:
posting emergency phone numbers, selecting an out-of-state family contact,
assembling disaster supplies kits for each member of your household and
installing smoke detectors on each level of your home. Finally, practice your
Family Disaster Plan so that everyone will remember what to do when a disaster
does occur.
Develop and practice a Family Disaster Plan. Contact your local emergency
management or civil defense office, or your local Red Cross chapter for
materials that describe how your family can create a disaster plan. Everyone
in the household, including children, should play a part in the family's
response and recovery efforts.
Teach your child how to recognize danger signals. Make sure your child knows
what smoke detectors, fire alarms and local community warning systems (horns,
sirens) sound like.
Explain how to call for help. Teach your child how and when to call for
help. Check the telephone directory for local emergency phone numbers and post
these phone numbers by all telephones. If you live in a 9-1-1-service area,
tell your child to call 9-1-1. Help your child memorize important family
information. Children should memorize their family name, address and phone
number. They should also know where to meet in case of an emergency. Some
children may not be old enough to memorize the information. They could carry a
small index card that lists emergency information to give to an adult or
babysitter.
AFTER THE DISASTER: TIME FOR RECOVERY
Immediately after the disaster, try to reduce your child's fear and
anxiety.Keep the family together. While you look for housing and assistance,
you may want to leave your children with relatives or friends. Instead, keep
the family together as much as possible and make children a part of what you
are doing to get the family back on its feet. Children get anxious, and
they'll worry that their parents won't return. Calmly and firmly explain the
situation. As best as you can, tell children what you know about the disaster.
Explain what will happen next. For example, say, "Tonight, we will all stay
together in the shelter." Get down to the child's eye level and talk to them.
Encourage children to talk. Let children talk about the disaster and ask
questions as much as they want. Encourage children to describe what they're
feeling. Listen to what they say. If possible, include the entire family in
the discussion. Include children in recovery activities. Give children chores
that are their responsibility.
This will help children feel they are part of the recovery. Having a task
will help them understand that everything will be all right. You can help
children cope by understanding what causes their anxieties and fears. Reassure
them with firmness and love. Your children will realize that life will
eventually return to normal. If a child does not respond to the above
suggestions, seek help from a mental health specialist or a member of the
clergy. The Federal Emergency Management Agency's Community and Family
Preparedness Program developed this brochure in cooperation with the American
Red Cross' Community Disaster Education Program. Both are national efforts to
help people prepare for disasters of all types. For more information on how to
prepare for and respond to disaster, contact your local or State office of
emergency management and your local Red Cross chapter. Ask for Your Family
Disaster Plan.
Or, write to: FEMA, P.O. Box 70274, Washington, D.C. 20024.
FACT SHEET: TSUNAMIS
A tsunami is a series of waves that may be dangerous and destructive. When you
hear a tsunami warning, move at once to higher ground and stay there until
local authorities say it is safe to return home.
BEFORE
Find out if your home is in a danger area. Know the height of your street
above sea level and the distance of your street from the coast. Evacuation
orders may be based on these numbers. Be familiar with the tsunami warning
signs. Because tsunamis can be caused by an underwater disturbance or an
earthquake, people living along the coast should consider an earthquake or a
sizable ground rumbling as a warning signal. A noticeable rapid rise or fall
in coastal waters is also a sign that a tsunami is approaching. Make sure all
family members know how to respond to a tsunami. Make evacuation plans. Pick an
inland location that is elevated. After an earthquake or other natural
disaster, roads in and out of the vicinity may be blocked, so pick more than
one evacuation route. Teach family members how and when to turn off gas,
electricity, and water. Teach children how and when to call 9-1-1, police or
fire department, and which radio station to listen for official information.
Have disaster supplies on hand. Flashlight and extra batteries, Portable,
battery-operated radio and extra batteries, First aid kit and manual, Emergency
food and water, Nonelectric can opener, Essential medicines, Cash and credit,
cards, Sturdy shoes, Develop an emergency communication plan. In case family
members are separated from one another during a tsunami (a real possibility
during the day when adults are at work and children are at school), have a plan
for getting back together. Ask an out-of-state relative or friend to serve as
the "family contact." After a disaster, often it's easier to call long
distance. Make sure everyone knows the name, address, and phone number of the
contact person. Contact your local emergency management office or American Red
Cross chapter for more information on tsunamis.
DURING
Listen to a radio or television to get the latest emergency information, and be
ready to evacuate if asked to do so. If you hear an official tsunami warning or
detect signs of a tsunami, evacuate at once. Climb to higher ground. A
tsunami warning is issued when authorities are certain that a tsunami threat
exists. Stay away from the beach.
Never go down to the beach to watch a tsunami come in. If you can see the wave
you are too
close to escape it. Return home only after authorities advise it is safe to do
so.
A tsunami is a series of waves. Do not assume that one wave means that the
danger over.
The next wave may be larger than the first one. Stay out of the area.
AFTER
Stay tuned to a battery-operated radio for the latest emergency information.
Help injured or trapped persons. Give first aid where appropriate. Do not move
seriously injured persons unless they are in immediate danger of further
injury. Call for help. Remember to help your neighbors who may require
special assistance--infants, elderly people, and people with disabilities. Stay
out of damaged buildings. Return home only when authorities say it is safe.
Enter your home with caution. Use a flashlight when entering damaged buildings.
Check for electrical shorts and live wires. Do not use appliances or
lights until an electrician has checked the electrical system. Open windows and
doors to help dry the building. Shovel mud while it is still moist to give
walls and floors an opportunity to dry. Check food supplies and test drinking
water. Fresh food that has come in contact with flood waters may be
contaminated and should be thrown out. Have tap water tested by the local
health department.
INSPECTING UTILITIES IN A DAMAGED HOME
Check for gas leaks--If you smell gas or hear a blowing or hissing noise,
open a window and quickly leave the building. Turn off the gas at the outside
main valve if you can and call the gas company from a neighbor's home. If you
turn off the gas for any reason, it must be turned back on by a professional.
Look for electrical system damage--If you see sparks or broken or frayed wires,
or if you smell hot insulation, turn off the electricity at the main fuse box
or circuit breaker.
If you have to step in water to get to the fuse box or circuit breaker,
call an electrician first for advice. Check for sewage and water lines
damage--If you suspect sewage lines are damaged, avoid using toilets and call a
plumber. If water pipes are damaged, contact the water company and avoid the
water from the tap. You can obtain safe water by melting ice cubes.
MITIGATION
Mitigation includes any activities that prevent an emergency, reduce the
chance of an emergency happening, or lessen the damaging effects of unavoidable
emergencies.
Investing in preventive mitigation steps now, such as checking local
building codes and ordinances about wind-resistant designs and strengthening
unreinforced masonry, will help reduce the impact of tornadoes in the future.
For more information on mitigation, contact your local emergency management
office.
FACT SHEET: TSUNAMIS
A tsunami is a series of waves that may be dangerous and destructive. When
you hear a tsunami warning, move at once to higher ground and stay there until
local authorities say it is safe to return home.
BEFORE
Find out if your home is in a danger area. Know the height of your street
above sea level and the distance of your street from the coast. Evacuation
orders may be based on these numbers. Be familiar with the tsunami warning
signs. Because tsunamis can be caused by an underwater disturbance or an
earthquake, people living along the coast should consider an earthquake or a
sizable ground rumbling as a warning signal.
A noticeable rapid rise or fall in coastal waters is also a sign that a
tsunami is approaching. Make sure all family members know how to respond to a
tsunami. Make evacuation plans. Pick an inland location that is elevated.
After an earthquake or other natural disaster, roads in and out of the vicinity
may be blocked, so pick more than one evacuation route. Teach family members
how and when to turn off gas, electricity, and water. Teach children how and
when to call 9-1-1, police or fire department, and which radio station to
listen for official information. Have disaster supplies on hand. Flashlight and
extra batteries, Portable, battery-operated radio and extra batteries, First
aid kit and manual, Emergency food and water, Nonelectric can opener, Essential
medicines, Cash and credit cards, Sturdy shoes, Develop an emergency
communication plan. In case family members are separated from one another
during a tsunami (a real possibility during the day when adults are at work and
children are at school), have a plan for getting back together. Ask an
out-of-state relative or friend to serve as the "family contact." After a
disaster, often it's easier to call long distance. Make sure everyone knows
the name, address, and phone number of the contact person. Contact your local
emergency management office or American Red Cross chapter for more information
on tsunamis.
DURING
Listen to a radio or television to get the latest emergency information, and
be ready to evacuate if asked to do so. If you hear an official tsunami warning
or detect signs of a tsunami, evacuate at once. Climb to higher ground. A
tsunami warning is issued when authorities are certain that a tsunami threat
exists. Stay away from the beach. Never go down to the beach to watch a
tsunami come in. If you can see the wave you are too close to escape it.
Return home only after authorities advise it is safe to do so. A tsunami is a
series of waves. Do not assume that one wave means that the danger over. The
next wave may be larger than the first one. Stay out of the area.
AFTER
Stay tuned to a battery-operated radio for the latest emergency information.
Help injured or trapped persons. Give first aid where appropriate. Do not move
seriously injured persons unless they are in immediate danger of further
injury. Call for help.
Remember to help your neighbors who may require special assistance--infants,
elderly people, and people with disabilities. Stay out of damaged buildings.
Return home only when authorities say it is safe. Enter your home with caution.
Use a flashlight when entering damaged buildings. Check for electrical shorts
and live wires. Do not use appliances or lights until an electrician has
checked the electrical system. Open windows and doors to help dry the building.
Shovel mud while it is still moist to give walls and floors an
opportunity to dry. Check food supplies and test drinking water. Fresh food
that has come in contact with flood waters may be contaminated and should be
thrown out. Have tap water tested by the local health department.
INSPECTING UTILITIES IN A DAMAGED HOME
Check for gas leaks--If you smell gas or hear a blowing or hissing noise,
open a window and quickly leave the building. Turn off the gas at the outside
main valve if you can and call the gas company from a neighbor's home. If you
turn off the gas for any reason, it must be turned back on by a professional.
Look for electrical system damage--If you see sparks or broken or frayed wires,
or if you smell hot insulation, turn off the electricity at the main fuse box
or circuit breaker. If you have to step in water to get to the fuse box or
circuit breaker, call an electrician first for advice. Check for sewage and
water lines damage--If you suspect sewage lines are damaged, avoid using
toilets and call a plumber.
If water pipes are damaged, contact the water company and avoid the water
from the tap. You can obtain safe water by melting ice cubes.
MITIGATION
Mitigation includes any activities that prevent an emergency, reduce the
chance of an emergency happening, or lessen the damaging effects of unavoidable
emergencies. Investing in preventive mitigation steps now, such as checking
local building codes and ordinances about wind-resistant designs and
strengthening unreinforced masonry, will help reduce the impact of tornadoes in
the future. For more information on mitigation, contact your local emergency
management office.
FACT SHEET: VOLCANOES
Volcanic eruptions can hurl hot rocks for at least 20 miles. Floods,
airborne ash, or noxious fumes can spread 100 miles or more. If you live near
a known volcano, active or dormant, be ready to evacuate at a moment's notice.
BEFORE
Learn about your community warning systems. Be prepared for these disasters
that can be spawned by volcanoes. Earthquakes, Flash floods, Landslides and
mudflows, Thunderstorms, Tsunamis, Make evacuation plans. You want to get to
high ground away from the eruption. Plan a route out and have a backup route
in mind. Develop an emergency communication plan. In case family members are
separated from one another during a volcanic eruption (a real possibility
during the day when adults are at work and children are at school), have a plan
for getting back together. Ask an out-of-state relative or friend to serve as
the "family contact." After a disaster, it's often easier to call long
distance.
Make sure everyone knows the name, address, and phone number of the contact
person. Have disaster supplies on hand. Flashlight and extra batteries,
Portable, battery-operated radio and extra batteries, First aid kit and manual,
Emergency food and water, Nonelectric can opener, Essential medicinesCash and
credit cards, Sturdy shoes, Get a pair of goggles, and a throw-away breathing
mask for each member of the household, Contact your local emergency management
office or American Red Cross chapter for more information on volcanoes.
Evacuation Although it may seem safe to stay at home and wait out an eruption,
doing so could be very dangerous. The rock debris from a volcano can break
windows and set buildings on fire. Stay safe. Follow authorities'
instructions and leave the area before the disaster begins.
DURING
Follow the evacuation order issued by authorities. Avoid areas downwind of
the volcano. If caught indoors: Close all windows, doors, and dampers. Put all
machinery inside a garage or barn. Bring animals and livestock into closed
shelters. If trapped outdoors: Seek shelter indoors. If caught in a rockfall,
roll into a ball to protect head. Avoid low-lying area where poisonous gases
can collect and flash floods can be most dangerous. If caught near a stream,
beware of mudflows. Protect yourself: Wear long sleeved shirts and pants. Use
goggles to protect eyes. Use a dust-mask or hold a damp cloth over face to help
breathing. Keep car or truck engines off. Stay out of the area. A lateral blast
of a volcano can travel many miles from the mountain. Trying to watch an
erupting volcano is a deadly idea. Mudflows are powerful "rivers" of mud that
can move faster than people can walk or run. Mudflows occur when rain falls
through ash-carrying clouds or when rivers are damed during an eruption. They
are most dangerous close to stream channels. When you approach a bridge, first
look upstream.
If a mudflow is approaching or moving beneath the bridge, do not cross the
bridge. The power of the mudflow can destroy a bridge very quickly.
AFTER
Listen to a battery-powered radio or television for the latest emergency
information. Stay away from volcanic ashfall. When outside cover your mouth
and nose. A number of victims of the Mount St. Helens volcano died from
inhaling ash. Wear goggles to protect your eyes. Keep skin covered to avoid
irritation or burns. If you have a respiratory ailment, avoid contact with any
amount of ash. Stay indoors until local health officials advise it is safe to
go outside. Avoid driving in heavy ashfall. Driving will stir up more ash that
can clog engines and stall vehicles. Clear roofs of ashfall. Ashfall is very
heavy and can cause buildings to collapse. Remember to help your neighbors who
may require special assistance--infants, elderly people, and people with
disabilities.
FACT SHEET: WILDLAND FIRES
The threat of wildland fires for people living near wildland areas or using
recreational facilities in wilderness areas is real. Advance planning and
knowing how to protect buildings in these areas can lessen the devastation of a
wildland fire.
BEFORE
Learn and teach safe fire practices. Build fires away from nearby trees or
bushes. Always have a way to extinguish the fire quickly and completely. Never
leave a fire--even a cigarette--burning unattented. Obtain local building codes
and weed abatement ordinances for structures built near wooded areas.
Use fire-resistant materials when building, renovating, or retrofitting
structures. Create a safety zone to separate the home from combustible plants
and vegetation. tone walls can act as heat shields and deflect flames. Swimming
pools and patios can be a safety zone. Check for fire hazards around home.
Install electrical lines underground, if possible. Keep all tree and shrub
limbs trimmed so they don't come in contact with the wires. Prune all branches
around the residence to a height of 8 to 10 feet. Keep trees adjacent to
buildings free of dead or dying wood and moss. Remove all dead limbs, needles,
and debris from rain gutters. Store combustible or flammable materials in
approved safety containers and keep them away from the house.
Keep chimney clean. Avoid open burning completely, and especially during dry
season. Install smoke detectors on every level of your home and near sleeping
areas. Make evacuation plans. Plan several routes in case the fire blocks
escape
route. Have disaster supplies on hand, flashlight with extra batteries,
Portable, battery-operated radio and extra batteries, First aid kit and manual,
Emergency food and water, Nonelectric can opener Essential medicines, Cash and
credit cards, Sturdy shoes, Develop an emergency communication plan. In case
family members are separated from one another during a wildland fire (a real
possibility during the day when adults are at work and children are at school),
have a plan for getting back together. Ask an out-of-state relative or friend
to serve as the "family contact." After a disaster, it's often easier to call
long distance. Make sure everyone knows the name, address, and phone number of
the contact person.
Fire-Resistant Building Materials
Avoid using wooden shakes and shingles for a roof. Use tile, stucco, metal
siding, brick, concrete block, rock, or other fire-resistant materials. Use
only thick, tempered safety glass in large windows and sliding glass doors.
Contact your local emergency management office or American Red Cross chapter
for more information on wildland fires.
DURING
Turn on a battery-operated radio to get the latest emergency information.
Remove combustible items from around the house. Lawn and poolside furniture,
Umbrellas, Tarp coverings, Firewood, Take down flammable drapes and curtains
and close all venetian blinds or noncombustible window coverings. Take action
to protect your home. lose all doors and windows inside your home to prevent
draft. Close gas valves and turn off all pilot lights. Turn on a light in each
room for visibility in heavy smoke. Place valuables that will not be damaged by
water in a pool or pond. If hoses and adequate water are available, leave
sprinklers on roofs and anything that might be damaged by fire. Be ready to
evacuate all family members and pets when fire nears or when instructed to do
so by local officials.
AFTER
Take care when re-entering a burned wildland area. Hot spots can flare up
without warning. Check the roof immediately and extinguish any sparks or
embers. Check the attic for hidden burning sparks. For several hours afterward,
re-check for smoke and sparks throughout the home. If trapped in a wildland
fire, you cannot outrun a fire. Crouch in a pond or river. Cover head and
upper body with wet clothing. If water is not around, look for shelter in a
cleared area or among a bed of rocks. Lie flat and cover body with wet
clothing or soil.
Breathe the air close to the ground through a wet cloth to avoid scorching
lungs or inhaling smoke.
SHEET: HURRICANES
Hurricanes can be dangerous killers. Learning the hurricane warning
messages and planning ahead can reduce the chances of injury or major property
damage.
BEFORE
Plan an evacuation route. Contact the local emergency management office or
American Red Cross chapter, and ask for the community hurricane preparedness
plan. This plan should include information on the safest evacuation routes and
nearby shelters. Learn safe routes inland. Be ready to drive 20 to 50 miles
inland to locate a safe place. Have disaster supplies on hand. Flashlight and
extra batteries Portable, battery-operated radio and extra batteries First aid
kit and manual Emergency food and water Nonelectric can opener Essential
medicines Cash and credit cards Sturdy shoes Make arrangements for pets.
Pets may not be allowed into emergency shelters for health and space reasons.
Contact your local humane society for information on local animal shelters.
Make sure that all family members know how to respond after a hurricane.
Teach family members how and when to turn off gas, electricity, and water.
Teach children how and when to call 9-1-1, police, or fire department and which
radio station to tune to for emergency information. Protect your windows.
Permanent shutters are the best protection. A lower-cost approach is to put up
plywood panels. Use 1/2 inch plywood--marine plywood is best--cut to fit each
window. Remember to mark which board fits which window. Pre-drill holes every
18 inches for screws. Do this long before the storm. Trim back dead or weak
branches from trees. Check into flood insurance. You can find out about the
National Flood Insurance Program through your local insurance agent or
emergency management office. There is normally a 30-day waiting period before
a new policy becomes effective. Homeowners polices do not cover damage from the
flooding that accompanies a hurricane. Develop an emergency communication plan.
In case family members are separated from one another during a disaster (a real
possibility during the day when adults are at work and children are at school),
have a plan for getting back together. Ask an out-of-state relative or friend
to serve as the "family contact." After a disaster, it's often easier to call
long distance. Make sure everyone in the family knows the name, address, and
phone number of the contact person.
Hurricane Watches and Warnings
A hurricane watch is issued when there is a threat of hurricane conditions
within 24-36 hours. A hurricane warning is issued when hurricane conditions
(winds of 74 miles per hour or greater, or dangerously high water and rough
seas) are expected in 24 hours or less.
DURING A HURRICANE WATCH
Listen to a battery-operated radio or television for hurricane progress
reports.
Check emergency supplies. Fuel car. Bring in outdoor objects such as lawn
furniture, toys, and garden tools and anchor objects that cannot be brought
inside. Secure buildings by closing and boarding up windows. Remove outside
antennas. Turn refrigerator and freezer to coldest settings. Open only when
absolutely necessary and close quickly. Store drinking water in clean bathtubs,
jugs, bottles, and cooking utensils. Review evacuation plan. Moor boat
securely or move it to a designated safe place. Use rope or chain to secure
boat to trailer. Use tiedowns to anchor trailer to the ground or house.
DURING A HURRICANE WARNING
Listen constantly to a battery-operated radio or television for official
instructions. If in a mobile home, check tiedowns and evacuate immediately.
Store valuables and personal papers in a waterproof container on the highest
level of your home. Avoid elevators. If at home: Stay inside, away from
windows, skylights, and glass doors. Keep a supply of flashlights and extra
batteries handy. Avoid open flames, such as candles and kerosene lamps, as a
source of light. If power is lost, turn off major appliances to reduce power
"surge" when
electricity is restored. If officials indicate evacuation is necessary:
Leave as soon as possible. Avoid flooded roads and watch for washed-out
bridges.
Secure your home by unplugging appliances and turning off electricity and the
main water valve. Tell someone outside of the storm area where you are going.
If time permits, and you live in an identified surge zone, elevate furniture to
protect it from flooding or better yet, move it to a higher floor. Bring
pre-assembled emergency supplies and warm protective clothing. Take blankets
and sleeping bags to shelter. Lock up home and leave.
AFTER
Stay tuned to local radio for information. Help injured or trapped persons.
Give first aid where appropriate. Do not move seriously injured persons unless
they are in immediate danger of further injury. Call for help. Return home
only after authorities advise that it is safe to do so. Avoid loose or
dangling power lines and report them immediately to the power company, police,
or fire department. Enter your home with caution. Beware of snakes, insects,
and animals driven to higher ground by flood water. Open windows and doors to
ventilate and dry your home. Check refrigerated foods for spoilage. Take
pictures of the damage, both to the house and its contents and for insurance
claims. Drive only if absolutely necessary and avoid flooded roads and
washed-out bridges. Use telephone only for emergency calls.
INSPECTING UTILITIES IN A DAMAGED HOME
Check for gas leaks--If you smell gas or hear blowing or hissing noise, open
a window and quickly leave the building. Turn off the gas at the outside main
valve if you can and call the gas company from a neighbor's home. If you turn
off the gas for any reason, it must be turned back on by a professional. Look
for electrical system damage--If you see sparks or broken or frayed wires, or
if you smell hot insulation, turn off the electricity at the main fuse box or
circuit breaker. If you have to step in water to get to the fuse box or
circuit breaker, call an electrician first for advice. Check for sewage and
water lines damage--If you suspect sewage lines are damaged avoid using the
toilets and call a plumber. If water pipes are damaged, contact the water
company and avoid the water from the tap. You can obtain safe water by melting
ice cubes.
MITIGATION
Mitigation includes any activities that prevent an emergency, reduce the
chance
of an emergency happening, or lessen the damaging effects of unavoidable
emergencies. Investing in preventive mitigation steps now such as
strengthening
unreinforced masonry to withstand wind and flooding and installing shutters on
every window will help reduce the impact of hurricanes in the future. For more
information on mitigation , contact your local emergency management office.
FEMA - FACT SHEET: WINTER DRIVING SHEET: WINTER DRIVING
The leading cause of death during winter storms is transportation accidents.
Preparing your vehicle for the winter season and knowing how to react if
stranded or lost on the road are the keys to safe winter driving.
BEFORE
Have a mechanic check the following items on your car.
Battery, Antifreeze, Wipers and windshield washer fluid, Ignition system,
Thermostat, Lights, Flashing hazard lights, Exhaust system, Heater,
Brakes, Defroster, Oil level (if necessary, replace existing oil with a winter
grade oil or the SAE 10w/30 weight variety)
Install good winter tires. Make sure the tires have adequate tread.
All-weather radials are usually adequate for most winter conditions. However,
some jurisdictions require that to drive on their roads, vehicles must be
equipped with chains or snow tires with studs. Keep a windshield scraper and
small broom for ice and snow removal. Maintain at least a half tank of gas
during the winter season. Plan long trips carefully. Listen to the radio or
call the state highway patrol for the latest road conditions. Always travel
during daylight and, if possible, take at least one other person. If you must
go out during a winter storm, use public transportation. Dress warmly. Wear
layers of loose-fitting, layered, lightweight clothing. Carry food and water.
Store a supply of high energy "munchies" and several bottles of water. Contact
your local emergency management office or American Red Cross chapter for more
information on winter driving.
Winter Car Kit
Keep these items in your car:
Flashlights with extra batteries, First aid kit with pocket knife, Necessary
medications, Several blankets, Sleeping bags, Extra newspapers for insulation
Plastic bags (for sanitation), Matches, Extra set of mittens, socks, and a wool
cap, Rain gear and extra clothes, Small sack of sand for generating traction
under wheels, Small shovel, Small tools (pliers, wrench, screwdriver), Booster
cables, Set of tire chains or traction mats, Cards, games, and puzzles,
Brightly colored cloth to use as a flag, Canned fruit and nuts, Nonelectric can
opener, Bottled water,
DURING
IF TRAPPED IN CAR DURING A BLIZZARD
Stay in the car. Do not leave the car to search for assistance unless help is
visible within 100 yards. You may become disoriented and lost is blowing and
drifting snow. Display a trouble sign. Hang a brightly colored cloth on the
radio antenna and raise the hood. Occasionally run engine to keep warm. Turn on
the car's engine for about 10 minutes each hour. Run the heater when the car
is running. Also, turn on the car's dome light when the car is running. Beware
of carbon monoxide poisoning.Keep the exhaust pipe clear of snow, and open a
downwind window slightly for ventilation. Watch for signs of frostbite and
hypothermia. Do minor exercises to keep up circulation. Clap hands and move
arms and legs occasionally. Try not to stay in one position for too long. If
more than one person is in the car, take turns sleeping. For warmth, huddle
together.
Use newspapers, maps, and even the removable car mats for added insulation.
Avoid overexertion. Cold weather puts an added strain on the heart.
Unaccustomed exercise such as shoveling snow or pushing a car can bring on a
heart attack or make other medical conditions worse. Be aware of symptoms of
dehydration.
Wind Chill
"Wind chill" is a calculation of how cold it feels outside when the effects of
temperature and wind speed are combined. A strong wind combined with a
temperature of just below freezing can have the same effect as a still air
temperature about 35 degrees colder.
Winter Storm Watches and Warnings
A winter storm watch indicates that severe winter weather may affect your
area. A winter storm warning indicates that severe winter weather conditions
are definitely on the way. A blizzard warning means that large amounts of
falling or blowing snow and sustained winds of at least 35 miles per hour are
expected for several hours.
Frostbite and Hypothermia
Frostbite is a severe reaction to cold exposure that can permanently damage
its victims. A loss of feeling and a white or pale appearance in fingers,
toes,
or nose and ear lobes are symptoms of frostbite. Hypothermia is a condition
brought on when the body temperature drops to less than 55 degrees Fahrenheit.
Symptoms of hypothermia include uncontrollable shivering, slow speech, memory
lapses, frequent stumbling, drowsiness, and exhaustion. If frostbite or
hypothermia is suspected, begin warming the person slowly and seek immediate
medical assistance. Warm the person's trunk first. Use your own body heat to
help. Arms and legs should be warmed last because stimulation of the limbs can
drive cold blood toward the heart and lead to heart failure. Put person in dry
clothing and wrap their entire body in a blanket.Never give a frostbite or
hypothermia victim something with caffeine in it(like coffee or tea) or
alcohol. Caffeine, a stimulant, can cause the heart to beat faster and hasten
the effects the cold has on the body. Alcohol, a depressant, can slow the
heart and also hasten the ill effects of cold body temperatures.
FACT SHEET: HOUSE AND BUILDING FIRES
A fire can engulf a structure in a matter of minutes. Understanding the basic
characteristics of fire and learning the proper safety practices can be the key
to surviving a house or building fire.
BEFORE
Install smoke detectors. Check them once a month and change the batteries at
least once a year. Develop and practice an escape plan. Make sure all family
members know what to do in a fire. Draw a floor plan with at least two ways of
escaping every room. Choose a safe meeting place outside the house. Practice
alerting other household members. It is a good idea to keep a bell and a
flashlight in each bedroom for this purpose. Practice evacuating
the building blindfolded. In a real fire situation, the amount of smoke
generated by a fire will most likely make it impossible to see. Practice
staying low to the ground when escaping. Feel all doors before opening them.
If the door is hot, get out another way. Learn to stop, drop to the ground, and
roll if clothes catch fire. Post emergency numbers near telephones. However, be
aware that if a fire threatens your home, you should not place the call to your
emergency services from inside the home. It is better to get out first and
place the call from somewhere else. Purchase collapsible ladders at hardware
stores and practice using them. Install A-B-C type fire extinguishers in the
home and teach family members how to use them. Do not store combustible
materials in closed areas or near a heat source. Cooking keep the stove area
clean and clear of combustibles such as bags, boxes, and other appliances. If
a fire starts, put a lid over the burning pan or use a fire extinguisher. Be
careful. Moving the pan can cause the fire to spread. Never pour water on
grease fires. Check electrical wiring. Replace wiring if frayed or cracked.
Make sure wiring is not under rugs, over nails, or in high traffic areas. Do
not overload outlets or
extension cords. Outlets should have cover plates and no exposed wiring. Only
purchase appliances and electrical devices that have a label indicating that
they have been inspected by a testing laboratory such as Underwriter's
Laboratories (UL) or Factory Mutual (FM).
DURING
Get out as quickly and as safely as possible. Use the stairs to escape. When
evacuating, stay low to the ground. If possible, cover mouth with a cloth to
avoid inhaling smoke and gases. Close doors in each room after escaping to
delay the spread of the fire. If in a room with a closed door. If smoke is
pouring in around the bottom of the door or it feels hot, keep the door closed.
Open a window to escape or for fresh air while awaiting rescue. If there is no
smoke at the bottom or top and the door is not hot, then open the door slowly.
If there is too much smoke or fire in the hall, slam the door shut. Call the
fire department from a location outside the house.
AFTER
Give first aid where appropriate. Seriously injured or burned victims should be
transported to professional medical help immediately. Stay out of damage
buildings. Return home only when local fire authorities say it is safe. Look
for structural damage. Discard food that has been exposed to heat, smoke, or
soot. Contact insurance agent. Don't discard damaged goods until after an
inventory has been taken. Save receipts for money relating to fire loss.
Heating devices such as portable heaters, wood stoves, and fireplaces demand
safe operation. Use portable heaters in well-ventilated rooms only. Refuel
kerosene heaters outdoors only. Have chimneys and wood stoves cleaned
annually. Buy only approved heaters and follow the manufacturers' directions.
Smoke detectors more than double the chance of surviving a fire. Smoke
detectors sense abnormal amounts of smoke or invisible combustion gases in the
air. They can detect both smoldering and burning fires. At least one smoke
detector should be installed on every level of a structure. Test the smoke
detectors each month and replace the batteries at least once a year. Purchase
smoke detectors labeled by the Underwriter's Laboratories (UL) or Factory
Mutual.
Family Disaster Plan and Personal Survival Guide there are many differentkinds
of disasters. Earthquakes, floods, fires, airplane crashes, chemical spills,
pipeline leaks and explosions, and others, small and large,
which seldom give warning are equally devastating to their victims. This
guide is primarily geared to earthquakes, but the planning you and your family
do now will be of benefit when and if any disaster strikes you. Family
Meetings: At least once a year have a meeting with your family to discuss and
update your plan and determine what training, equipment and supplies are
needed. Occasional drills will assure quick reaction and avoid injury and
panic in an emergency. Share your plans with neighbours, friends, relatives,
and co-workers.
Preparedness Activities
Learn how to protect yourself from falling objects, smoke, fire, caustic fumes,
etc. Learn First Aid (available through your local Red Cross Chapter)
Persons Trained: ____________________________ Date: ___________________
Location of First Aid kit: ___________________________________
Learn how and where to shut off utilities.
Location of gas valve: _______________________
Location of wrench: _________________________
Location of main water valve: ______________________
Location of main circuit breaker: ____________________
Location of other utilities:_______________________________________________
Draw a Plan of your home
On a piece of paper draw a floor plan of your home showing the location
of exit windows and doors, utility cutoffs, First Aid Kit, emergency
supplies, food, clothing, tools, etc. Be sure everyone in you household
is familiar with it. Show it to baby-sitters and house guests when
you're going to be away. They could use it to direct someone to a
utility cutoff in an emergency. List alternate places to meet around home
Outside: ___________________________________________
Inside: ____________________________________________
Alternate reunion locations when family is not at home, e.g. Red Cross shelter,
neighbour, relative, park, school.
___________________________________________________________________
Learn and discuss school disaster policy. Church? Club? Other? Are medical
consent
forms complete? ___________________________________________________________
Identify where emergency supplies and equipment are located.
Fire extinguisher: ___________________________
Flashlight/Batteries: ________________________
Portable radio: ______________________________
Tools: _______________________________________
Safety equipment: ____________________________
Water: _______________________________________
Sanitation supplies: _________________________
Food: ________________________________________
Cooking equipment: ___________________________
Blankets: ____________________________________
Extra eyeglasses: ____________________________
Medication: __________________________________
First Aid Supplies: __________________________
Complete set of clothes, shoes, gloves:_______
After an Earthquake be prepared for after shocks If you must evacuate
Special Health Needs
be prepared for after shocks Put on Heavy shoes immediately to avoid injury
from
stepping on glass and other debris. Check for injuries and give first aid.
Check for fires and fire hazards.Remove fallen objects from top of stove.
Sniff for gas leaks, starting at the hot water heater. If you smell gas or
suspect a leak, turn off main gas valve, open windows and carefully leave
house.
Do not turn lights on or off or light matches or do anything that makes a
spark.
Note: Do not shut off gas unless an emergency exists. Do Not turn it back on
until the gas company or plumber has checked it out. If damage to electrical
system is suspected, (frayed wires, sparks or the smell of hot insulation) turn
off system at main circuit breaker or fuse box. If water leaks are suspected,
shut off water at main valve. Check neighbours for injury. Turn on radio and
listen for advisories. Locate light source if necessary. Do not touch downed
power lines or objects touched by downed wires. Clean up potentially harmful
materials. Do not use phone except for genuine emergencies. Check house, roof
and chimney for damage. Check emergency supplies. Check to see that sewage
lines are intact before continued flushing of toilets. Do not go sightseeing.
Open closets and cupboards carefully. Cooperate with public safety officials.
Be prepared to evacuate when necessary. If you must evacuate prominently post a
message indicating where you can be found. Take with you a First Aid kit
Flashlight, radio and batteries Important papers and cash, Food, Sleeping
bags/blankets, Clothes, Toiletries and personal item, Baby supplies, Special
Health Needs, Keep a list posted of supplies/equipment that your particular
family members may need to take with them in case of evacuation. Include such
items as: Medication, insulin & syringes, Dentures, Eyeglasses, contact lens
supplies, Wheelchairs, walker, crutches, Oxygen tanks, Special dietary needs,
special baby formula. Name and number of family doctor and dentist.
Pets In a Disaster
Pets are not permitted in shelters, so families should plan for their pets in
the event of a disaster such as an earthquake., if you must leave your home,
you should very seriously consider provisions for leaving your pets behind.
They should be confined to a basement, garage or bathroom. Leave only friendly
dogs together. Never leave cats with dogs, even friendly dogs. Do not leave
pets in a car with windows closed. The most important task is to provide
water. Dogs and cats adapt well to deprivations of food, but not water. Fill
a tub or several buckets. Tie any vessel so that it cannot be tipped over. It
may be better to leave no food than to leave food which will spoil. It is
probably best to leave only dry pet food, low in protein and fat.
General Family Preparedness
Disasters can affect any part of the United States anytime of the
Year, swiftly and without warning. Most people do not think of a
disaster until it is too late; then they suddenly realize how
unprepared they are for the massive changes it makes in their lives.
Local officials can be overwhelmed and emergency response personnel
may not be able to reach everyone who needs help right away.
Each type of disaster requires clean up and recovery. The period
after a disaster is often very difficult for families, at times as
devastating as the disaster itself. Families that are prepared
ahead of time can reduce the fear, confusion and losses that come
with disaster. They can be ready to evacuate their homes, know what
to expect in public shelters and how to provide basic first aid.
Family Disaster Supply Kit
One of the first steps toward preparedness is the creation of a Family
disaster supply kit. This will help families get through the First few days
after a disaster. Public shelter after a disaster may not offer some basic
necessities. The development of a kit will make a stay in a public shelter
more comfortable, should it be necessary. Store the kit in a convenient place
known to all family members. Store items in airtight bags or containers.
Replenish the kit twice a year. Include Water, Food, First Aid Kit, Tools,
Supplies, Clothing, Bedding, and
Special Items.
Water
Store water in clean plastic containers such as thoroughly washed
and rinsed soft drink bottles with tight fitting screw-on caps.
Store 1 gallon per day per family member (Two quarts for drinking, two
quarts for food preparation / sanitation). Children, nursing mothers
and ill people will need more. A 3-day supply of water should be
stored for every family member. Replace water every 6 months.
Food
Store at least a 3-day supply of non-perishable food. Select foods
that require no refrigeration, preparation or cooking and little or
no water. If you must heat food, pack a can of sterno. Rotate these
foods into the regular diet frequently to keep the supply fresh.
In a disaster supply kit include:
Ready-to-eat canned meats, fruits and vegetables
Canned juices, milk, soup (if powdered, store extra water)
Staples such as sugar, salt, pepper.
High energy foods such as peanut butter, jelly, crackers,
granola bars, and trail mix.
First Aid Kit:
2-inch and 4-inch sterile gauze pads (4-6 of each)
Hypoallergenic adhesive tape
Triangular bandages (3)
2-inch and 3-inch sterile roller bandages (3 rolls each)
Scissors
Tweezers
Needle
Moistened towelettes
Antiseptic
Thermometer Tongue blades (2)
Sunscreen
Tube of petroleum jelly or other lubricant
Assorted sizes of safety pins
Cleansing agent/soap
Latex gloves (2 pairs)
Non-prescription drugs
Aspirin or nonaspirin pain reliever
Anti-diarrhea medication
Antacid (for stomach upset)
Syrup of Ipecac (use to induce vomiting if advised by the Poison Control
Center)
Laxative
Activated charcoal (use if advised by the Poison Control Center)
4. Tools and Supplies:
Various tools and supplies may be needed for temporary repairs or personal
needs.
Include these items in your disaster supply kit:
Battery operated radio, Flashlight and extra batteries,
Non-electric can opener, utility knife,
Map of the area (for locating shelters)
Cash or traveler's checks, change
Fire extinguisher: small canister, ABC type
Tube tent
Pliers, Tape, Compass, Matches in waterproof container,
Aluminum foil, Plastic storage containers, Plastic sheeting, Signal flare,
Paper, pencils, pens, Needles, thread, Medicine dropper, Shut-off wrench, to
turn off household gas and water, a Whistle,
Mess kits or paper cups, plates and plastic utensils
Emergency preparedness manual
Toilet paper
Soap, liquid detergent2
Feminine hygiene supplies
Personal hygiene items
Plastic garbage bags, ties (for personal sanitation uses)
Plastic bucket with tight lid
Disinfectant
Household chlorine bleach
5. Clothing and Bedding
Your disaster supply kit should include at least one complete change
of clothing and footwear per person. Items to include are:
Sturdy shoes or work boots
Rain gear Blankets or sleeping bags
Hat and gloves
Thermal underwear
Sunglasses
6. Special Items
Family members may have special needs. Other items you may add to your kit
include:
For Babies:
Formula
Diapers
Bottles
Powdered milk
Medications
For Adults:
Heart and high blood pressure medication
Insulin
Prescription drugs
Denture needs
Contact lenses and supplies
Extra pair of eye glasses Entertainment
Games and books
Important Family Documents:
Keep these in a waterproof, portable container.
Wills, insurance policies, contracts, deeds, stocks and bonds
Passports, social security cards, immunization records
Bank account numbers, Credit card account numbers and companies
Inventory of valuable goods, important telephone numbers
Family records (birth, marriage, death certificates)
4-Step Family Preparedness Plan
In addition to your family disaster supply kit, develop a family
preparedness plan. This plan needs to be known to all family
members. A basic preparedness plan has four steps:
Do your homework, Create a family disaster plan,
Make a checklist and periodically update it, Practice and
maintain your plan. Do your homework! Find out what disasters could happen in
your area. Contact your local emergency management or civil defense office and
American Red Cross chapter to learn which disasters are possible where you live
and how these disasters might affect your family. Request information on how to
prepare and respond to each potential disaster. children's school or day-care
center, as well as other places where your family spends time. Develop a list
of important telephone numbers (doctor, work, school, relatives) and keep it in
a prominent place in your home. Ask about animal care. Pets may not be allowed
inside shelters because of health regulations. Create a family disaster plan
Discuss with your family the need to prepare for disaster. Explain the danger
of fire, severe weather (tornadoes, hurricanes) and floods to children.
Develop a plan to share responsibilities and how to work together as a team.
Discuss the types of disasters that are most likely to occur and how to
respond. Establish meeting places inside and outside your home, as well as
outside the neighborhood. Make sure everyone knows when and how to contact each
other if separated. Decide on the best escape routes from your home. Identify
two ways out of each room. Plan how to take care of your pets. Establish a
family contact out-of-town (friend or relative). Call this person after the
disaster to let them know where you are and if you are okay. Make sure everyone
knows the contact's phone number. Learn what to do if you are advised to
evacuate. Make a checklist and periodically update it. Post emergency
telephone numbers by phones (fire, police, ambulance, etc.). Teach your
children how and when to call 911 or your local EMS number for help. Show each
family member how to turn off the water, gas and electricity at the main valves
or switches. Teach each family member how to use a fire extinguisher (ABC
type) and have a central place to keep it. Check it each year. Install smoke
detectors on each level of your home, especially near bedrooms. Conduct a home
hazard hunt. Stock emergency supplies and assemble a disaster supply kit.
Learn basic first aid. At the very least, each family member should know CPR,
how to help someone who is choking and first aid for severe bleeding and shock.
The Red Cross offers basic training of this nature. Identify safe places in
your home to go for each type of disaster. Check to be sure you have adequate
insurance coverage.
4. Practice and maintain your plan
Test children's knowledge of the plan every 6 months so they remember what to
do. Conduct fire and emergency evacuation drills. Replace stored water and
food every 6 months. Test your smoke detectors monthly and change the batteries
once a year. And... In conjunction with the preparedness plan, working with
neighbors can save lives and property. Meet with neighbors to plan how the
neighborhood could work together after a disaster until help arrives. Members
of a neighborhood organization, such as a home association or crime watch
group, can introduce disaster preparedness as a new activity. Know your
neighbors' special skills (medical, technical) and consider how to help
neighbors who have special needs, such as disabled and elderly persons. Make
plans for child care in case parents can't get home.
Preparing Children for Disaster
As you develop your preparedness plan, include children in the planning
process. Teach your children how to recognize danger signals. Make sure they
know what smoke detectors and other alarms sound like. Make sure they know how
and when to call for help. If you live in a 9-1-1 service area, tell your
child to call 9-1-1. If not, check your telephone directory for the number.
Keep all emergency numbers posted by the phone. Help your children make
preparations for People with disabilities. People with disabilities may need to
take additional steps to prepare for disaster. If you are disabled or know
someone who is, the following precautions should be taken. Ask about special
assistance that may be available to you in an emergency. Many communities ask
people with disabilities to register, usually with the fire department or
emergency management office, so needed help can +be provided quickly in an
emergency. If you currently use a personal care attendant obtained from an
agency, check to see if the agency has special provisions for emergencies (e.g.
providing services at another location should an evacuation be ordered).
Determine what you will need to do for each type of emergency. For example,
most people head for a basement when there is a tornado warning, but most
basements are not wheelchair accessible. Determine in advance what your
alternative shelter will be and how you will get there. Learn what to do in
case of power outages and personal injuries. Know how to connect or start a
back-up power supply for essential medical equipment. If you or someone in your
household uses a wheelchair, make more than one exit from your home wheelchair
accessible in case the primary exit is blocked. Consider getting a medic alert
system that will allow you to call for help if you are immobilized in an
emergency. Store back-up equipment, such as a manual wheelchair, at a
neighbor's home, school or your workplace. Avoid possible hazards by fastening
shelves to the wall and placing large, heavy objects on the lower shelves or
near the wall. Also hang pictures or mirrors away from beds. Bolt large
pictures or mirrors to the wall. Secure water heaters by strapping them to a
nearby wall.
Special Preparations for the Hearing Impaired
Deaf or hearing impaired individuals will have a more difficult time
communicating after a disaster. People may not realize you can't hear warning
signals and instructions, and may leave you behind. If there is a power
failure, your teletypewriter will be useless, and communicating in the dark
will require a flashlight. To avoid potential problems you should:
Make sure you have a flashlight, pad and pencil by your bed at home. Ask a
neighbor to be your source of information as it comes over the radio. Remind
co-workers that you can't hear an evacuation order. If you are trapped in a
room, knock on the door or hit objects together to let others know you are
there.
Special Preparations for the Visually Impaired
Blind or visually impaired individuals will have a difficult time after a
disaster if surroundings have been greatly disrupted. In addition, seeing eye
dogs may be too frightened or injured to be reliable. Have an extra cane at
home and work, even if you have a seeing eye dog. If you are trapped, make
noise to alert others. Also keep in mind that, if electricity fails, blind
people can assist sighted people and potentially save lives.
Evacuation Procedures
Evacuations during a disaster are a common event. Evacuation procedures vary
by location and disaster. Contact your local emergency management or civil
defense office for specific evacuation plans. The amount of time you will have
to evacuate depends on the disaster. Some disasters, such as hurricanes, may
allow several days to prepare. Hazardous materials accidents may only allow
moments to leave. This means that preparation is essential since there may not
be time to collect the basic necessities. Evacuations can last for several
days. During this time you may be responsible for part or all of your own
food, clothing and other supplies.
Preparing for Evacuation
Advance planning will make evacuation procedures easier. First, you should
have your family disaster supply kit and plan ready. Additional steps that can
aid preparedness include:
1. Review possible evacuation procedures with your family. Ask a friend or
relative outside your area to be the check-in contact so that everyone in the
family can call that person to say they are safe. Find out where children will
be sent if they are in school when an evacuation is announced.
2. Plan now where you would go if you had to evacuate. Consider the homes of
relatives or friends who live nearby, but outside the area of potential
disaster. Contact the local emergency management office for community
evacuation plans. Review public information to identify reception areas and
shelter areas.
3. Keep fuel in your car's gas tank at all times. During emergencies,
filling stations may be closed. Never store extra fuel in the garage.
4. If you do not have a car or other vehicle, make transportation
arrangements with friends, neighbors or your local emergency management
office.
5. Know where and how to shut off electricity, gas and water at main switches
and valves. Make sure you have the tools you need to do this (usually pipe
and
crescent or adjustable wrenches). Check with your local utilities for
instructions.
Evacuating
When you are told to evacuate there are four steps you need to take:
1. If there is time, secure your house. Unplug appliances.In a flood hazard
area, store propane tanks or secure them safely to the structure. Turn off the
main water valve. Take any actions needed to prevent damage to water pipes by
freezing weather, if this is a threat. Securely close and lock all doors,
windows and garage.
2. Follow recommended evacuation routes. Do not take shortcuts, they may
be blocked.
3. Listen to the radio for emergency shelter information.
4. Carry your family disaster supply kit.
Returning Home After the Disaster
1. Do not return until the local authorities say to do so. There may be
leaking gas or other flammable materials present. Use battery-operated
flashlights for light. If you suspect a gas leak, do not use any kind of
light.
The light itself could cause an explosion. If you smell leaking gas, turn off
the
main gas valve at the meter. If you can open windows safely, do so. Do not turn
on lights they can produce sparks that may ignite the gas. Leave the house
immediately and notify the gas company or the fire department. Do not reenter
the
house until an authorized person tells you it is safe to do so. Notify the
power
company or fire department if you see fallen or damaged electrical wires. If
any
of your appliances are wet, turn off the main electrical power switch in your
home before you unplug them. Dry out appliances, wall switches and sockets
before you plug them in again. Call utility companies for assistance. Check
food
and water supplies for contamination and spoilage before using them. Wear
sturdy
shoes when walking through broken glass or debris, and use heavy gloves when
removing debris. After the emergency is over, telephone your family and friends
to tell them you are safe.
When Disaster Strikes
Hopefully you will never have to experience disaster. When it does happen,
however, try to remain calm and patient and put your family preparedness
plan
into action. You should follow the following steps:
Retrieve your disaster supply kit. Wear protective clothing and sturdy
shoes.
Confine or secure pets to protect them. Go to the safe place in your home
you
identified and stay there until well after the disaster is over. Listen to
your
battery-powered radio for news and instructions. Evacuate, if advised to do
so.
The Role of Government After a Disaster
After a preliminary damage assessment report has been completed, the governor
of
a state can request a major disaster or emergency declaration from the
president.
Declaration of an Emergency.
The president can issue a Declaration of Emergency to supplement the state and
local effort to save lives and protect property. The president can act only
after a state governor has requested a Declaration of an Emergency be issued.
Total
assistance provided in any given emergency declaration may not exceed $5
million.
Declaration of a Major Disaster.
A major disaster declaration may be requested by the governor to the
president after a natural catastrophe occurs. Assistance is offered to both
the public and private sectors. With the declaration, the Federal Emergency
Management Agency (FEMA) has the authority to engage the services of 12 federal
departments, two agencies, one commission, one corporation and one authority
offering 97 different Federal assistance programs. These 97 programs provide
many different services to help people and state and local governments deal
with recovery from a disaster. A listing of the main agencies that provide
assistance can be found in General Family Preparedness, Insurance and Resources
After a Disaster.
Emotional Recovery After a Disaster
In addition to the physical damage a disaster brings, stress and emotional
disequilibrium need to be addressed by victims. Steps you can take to reduce
the effects of a disaster include:
Be extra patient. Keep in mind that other people may have a different
viewpoint
about what should be top priority. Realize that it will take time to restore
things, both physically and emotionally for them to express disbelief, sadness,
anger, anxiety and depression. Also realize that these emotions and moods can
change unexpectedly.
Helping Children Cope After a Disaster
Children may require special attention after experiencing a disaster. Four
common fears children have are death, darkness, animals and abandonment. In a
disaster children may experience any or all of these. You should encourage
children to talk about what they are feeling and to express this through play,
drawing or painting.
A child's reaction to a disaster may vary depending on age, maturity and
previous experience. In all cases it is important to acknowledge what happened
and take time to talk with children about their fears. Some behaviors you may
find children exhibiting after a disaster include:
Being upset at the loss of a favorite toy, blanket, teddy bear, etc.
Hitting, throwing or kicking to show their anger and frustration.
Fear of the disaster coming again.
Fear of being left alone or sleeping alone. They may want to sleep
with another person.
Behaving as they did when they were younger, including wetting
the bed, sucking their thumb, wanting to be held, etc.
Exhibiting symptoms of illness such as nausea, fever, headaches,
not wanting to eat, etc.
Becoming quiet and withdrawn. Becoming easily upset.
Feeling that they caused the disaster in some way.
Feeling neglected by parents who are busy cleaning up or rebuilding.
Refusing to go to school or to be out of the parent's sight.
Parents and other adults can help children come to terms with their
feelings in
several ways. Let children know you love them and they can count on you.
Reassure them that they are not responsible for what occurred. Talk with
your
children about your own feelings. Give simple, accurate answers to
children's
questions, Hold them. Close contact assures children you are there for them
and will not abandon them. Let children grieve for a lost toy or blanket
that was
special to them. It will help them cope with their feelings. Provide play
experiences to relieve stress. Repeat assurances and information as often
as
you need to; do not stop responding. Spend extra time putting children to
bed
at night. Listen to what children say. Repeat their words to clarify what
they
are feeling. If additional help is needed for adults or children, contact
a
community resource such as a counseling center, minister or mental health
agency.
Food Safety
Food safety precautions can make an important difference after a disaster
occurs. Food can become contaminated as a result of fire, flood and wind
related exposure. It also may spoil or become unsafe after a power outage.
Precautions Against Power Outages
If your area comes under an advisory that may lead to prolonged power outages
(hurricanes, prolonged flooding, etc.) take these steps to help keep your
food safe:
Turn your refrigerator and freezer to the coldest setting. This will help
the food stay frozen. Purchase a 50-pound block of dry ice. This will keep
food in a full 18 cubic foot freezer safe for 2 days. Wrap it in brown paper
for longer storage. Separate it from direct food contact with a piece of
cardboard. Fill partially filled freezers with crumpled newspaper to reduce air
currents which will dissipate dry ice. After a Power Outage if you should lose
power, the emergency food supplies in your family disaster supply kit will be
safe. Food in the refrigerator and freezer may be in trouble. Generally, food
in a refrigerator will be safe if the following measures are taken. Group meat
and poultry to one side, or on a tray, so their juices won't contaminate other
foods if they begin to thaw. Be wary of using meat, poultry and foods
containing milk, cream, sour cream or soft cheese. Don't rely on odor or
appearance of food. If perishable food has been at room temperature for more
than 2 hours, discard it. In an emergency the following foods should keep at
room temperature (above 40 degrees F) a few days.
Discard anything that turns moldy or has an unusual odor or look. Butter,
margarine, Fresh fruits and vegetables, Dried fruits and coconut, opened jars
of salad dressing, peanut butter, jelly, relish, taco sauce, barbecue sauce,
mustard, catsup, olives, Hard and processed cheeses, Fruit juices, Fresh herbs
and spices, Flour and nuts, Fruit pies, Bread, rolls, cakes and muffins.
Discard the following foods if kept for more than 2 hours above 40 degrees F.
Raw or cooked meat, poultry and seafood Milk, cream, yogurt, soft cheese,
Cooked pasta, pasta salads, Custard, chiffon or cheese pies, Fresh eggs, egg
substitutes, Meat topped pizzas, lunchmeats, Casseroles, stews or soups,
Mayonnaise and tartar sauce, Refrigerator and cookie doughs, Cream filled
pastries, Refreeze thawed foods that still contain ice crystals or feel cold.
Tornado and Wind Related Contamination
If you live in an area that has sustained tornado or wind damage, take the
following measures. Drink only approved or chlorinated water. Consider all
water from wells, cisterns, and other delivery systems in the disaster area
unsafe until tested. Check foods and discard any containing particles of glass
or slivers of other debris. Discard canned foods with broken seams.
Flooded Food Recovery
Flood waters may carry contaminants such as silt, raw sewage or chemical waste.
Disease bacteria in the water also can contaminate any food it touches. If you
have experienced flood conditions, follow these guidelines:
Save undamaged commercially canned foods (except as noted later). Do not
use
home-canned foods that have been covered with flood water. Commercial glass
jars of food are safe if the containers are sanitized (except as noted later).
Remove the labels from jars and cans and mark the contents on can or jar lid
with indelible ink. Paper can harbor dangerous bacteria. To sanitize jars,
cans, dishes and glassware, wash in a strong detergent solution with a scrub
brush. After washing, immerse them in a solution of 2 teaspoons chlorine
bleach per gallon of room temperature water. Air dry before using. If needed,
clean empty glass also may be sanitized by boiling in water for 10 minutes. To
sanitize metal pans and utensils, boil in water for 10 minutes. Discard wooden
and plastic utensils, baby nipples, pacifiers and any other porous nonfood
items that are used with food.
Discard the following foods:
Meat, poultry, fish and eggs, Fresh produce, Preserves sealed with paraffin,
Unopened jars with waxed cardboard, seals such as mayonnaise and salad
dressing, All foods in cardboard boxes, paper, foil, cellophane or cloth,
Spices, seasonings and extracts, Home-canned foods, Opened containers and
packages of Flour, grain, sugar, coffee and other staples in canisters or
dented, leaking, bulging or rusted cans.
Food Safety After a Fire
Food after a fire may be exposed to toxic fumes that contaminate food.
Discard any type of food stored in permeable packaging such as cardboard or
plastic wrap.
Discard raw food outside the refrigerator. Food in refrigerators and freezers
also may be contaminated. The seal on these appliances is not completely
airtight. Discard any food with an off-flavor or smell. The chemicals used to
fight fires contain toxic material that can contaminate food and cookware.
Throw away foods exposed to the chemicals used in fire fighting. Chemicals
cannot be washed off the food. This includes foods stored at room temperature,
as well as foods stored in permeable containers such as cardboard and
screw-topped jars and bottles.
Sanitize canned goods and cookware in the same method as recommended for
flooded foods.
Insurance and Resources After a Disaster
Most homeowner policies offer coverage for losses due to natural disasters
except flooding. If you are unsure what your policy covers, check it before a
disaster happens. Contact your agent for clarification if you are still unsure.
In general most insurance policies cover:
Your house, rental units that are part of the building and any attachments
to the building, such as the garage. Structures on the grounds that are not
attached to the house, such as a pool, gazebo, tool shed, etc. This also
includes the lawn, trees and shrubs on the property. Vacant land you own or
rent, with the exception of farmland. Cemetery plots or burial vaults you may
own. Personal possessions, including those of members of your household and
guests, and contents of the house. This does not include the possessions of
tenants in your home. Any items that have been loaned to you, or given for safe
keeping. Living expense if your home is unlivable due to damage. Rental
payments, if you rent one part of your house but it is unlivable due to damage.
Responsibility for unauthorized use of your credit cards, forged checks or
counterfeit currency accepted in good faith. Settlement, medical expenses and
court costs brought against you for bodily injury of others or damage to the
property of others. Most homeowner policies DO NOT cover loss due to flooding.
You should check to see if your community participates in the National Flood
Insurance Program. If you need financial assistance, programs are available.
Programs include:
The American Red Cross...offers emergency assistance for groceries, new
clothes,
medical needs and immediate building repairs.
Farmers Home Administration(FmHA)...offers agricultural loans only when other
credit is not available. Qualifying farmers can get short, medium or long
term loans, with moderate interest.
Federal Crop Insurance Corporation (FCIC)...Farmers can insure crops for 50, 65
or 75 percent of yield. Unavoidable losses due to any adverse weather
conditions including drought, excessive moisture, hail, wind, hurricanes,
tornadoes and
lightning are covered. Unavoidable losses due to insect infestations, plant
diseases, floods, fires and earthquakes also are covered. You must have this
insurance prior to the disaster.
Small Business Administration (SBA)...offers medium- and long-term loans for
rebuilding non-farm homes and small businesses with moderate interest rates.
Commercial and federal land banks offer loans for home repair and improvement,
land, equipment and livestock. Insurance companies offer long-term loans at
relatively high interest for the same things. Assistance also may be available
through a variety of state or local agencies and volunteer groups. Listen to
your battery operated radio after a disaster for information on disaster relief
services and locations.
Non-financial resources like The Agricultural Stabilization and Conservation
Service (ASCS)...for information on livestock and wildlife feeding, production
and conservation practices.
The Animal and Plant Health Inspection Service (APHIS)...offers technical
assistance on animal and plant pests and diseases.
Extension Service-USDA...offers information, educational material and advice
on
cleanup.
The Food Safety Inspection Service (FSIS)...can be reached toll free at (800)
535-4555 for questions on the safe handling of meat and poultry.
Special Post-Disaster Considerations
Restoring Flooded Water Systems
Do not start submerged electric motors until they have been cleaned, dried and
checked for safety. Disconnect the motor. An ejector or jet pump motor may be
a separate unit mounted on the pump, or the end bell of the motor may be part
of the pump. The separate motor unit can be disconnected and serviced easily.
With the second type, remove the pump and motor as a unit. It is not necessary
to remove the drop pipes. Take the motor to an electrical repair shop. In the
shop, the motor should be checked for any short circuits or grounding caused
by moisture. If the motor was submerged in mud and water, it should be
thoroughly cleaned. Windings should be dried in a drying oven. The bearings
should be lubricated before you use the motor again. Clean and dry electrical
controls and pressure switches. Check all wiring for short circuits. Pumps
usually are damaged by sediment deposited in the bearings. Clean pumps. Check
valves for silt and sand. Remove all dirt and water from the gears in the gear
box and replace the lubricant with fresh oil.
Submersible pumps. The bearings on water lubricated pumps will not be damaged
by flood waters, since these bearings are constantly submerged in water. As
soon as possible, flush clean water down the casing to remove the sediment and
silt. Then disinfect the well.
Centrifugal pumps.
Many centrifugal pumps contain two sets of oil-lubricated bearings along the
drive shaft between the motor and the pump. If the pump has been flooded,
dismantle the container bracket and remove the bearings. Clean the bearings, or
install new bearings if the old ones are worn out. Close-coupled centrifugal
pumps contain no bearings, so there is little chance of flood damage except to
the electric motor.
Injector-type pumps.
These pumps usually contain watertight packing at the ground surface, with
sealed impellers. Flood waters probably will not damage this type of pump. The
storage tank and piping should be all right unless muddy water was pumped
through it. If tank is contaminated, disinfect the entire system with a strong
chlorine solution. Use 1 quart household laundry bleach or check with local
health department for recommended solution strength. Open all faucets while the
system is being filled. Do not close the spigot until a definite smell of
chlorine is evident. Do not use the system for 24 hours. Then start the pump
and run water from all faucets until the chlorine odor is gone. Wells probably
will not be damaged structurally from floods, but they may be contaminated.
Have your well tested by health officials before you use the water after
sterilizing the walls of the well casing. Leave it there at least 4 hours, or
preferably overnight. Pump the chlorinated water into the piping system, and
leave it there for at least 2 hours or even overnight. The next day, pump and
flush out the system until the taste and odor of chlorine are no longer
apparent. Two days after you have disinfected the water system take a sample
of water according to recommended procedures and have it tested for purity.
Boil or treat all drinking water until a water test indicates that water is
safe for all purposes. Do not drink water from a flooded cistern until you
disinfect the cistern and the entire piping system. To disinfect the cistern:
Use an auxiliary pump to remove the water and empty the cistern. Do not pump
water through the pipeline distribution system. Wash down the walls and ceiling
with clean water, and pump out the dirty water with an auxiliary pump. Check
the cistern walls, ceiling and floor for cracks where groundwater could come
in. Disinfect the interior with a solution of 1 quart laundry bleach in 3
gallons of water. Be sure the bleach contains no soap. Apply the chlorine
solution with a sprayer or scrub with a stiff broom. Swab or pump out the
disinfecting solution that collects in the bottom of the cistern. Leave the
chlorine solution in the pipes for at least 2 hours (overnight if possible)
before you drain them. Fill the cistern with water for use. This water will
have a chlorine taste for awhile, but it will be safe for all purposes.
Regenerate water softeners before you use them. Use clean chlorinated water to
backwash the filterbed.
Disinfecting Wells
Disinfect flooded wells before they are used as a source of drinking water. To
disinfect a well:
1. Scrub the pumproom and wash all equipment, including piping, pump and
pressure tank.
2. Remove the well seal at the top of the casing. Pour a solution of 1 quart
laundry bleach and 3 gallons of water into the top of the well. Pour the
solution so it washes down the inside of the casing and the outside of the drop
pipes. In
some wells you will need only to remove a plug from the seal to pour the
solution into the well.
3. Leave the solution in the well about 4 hours. Then pump it into the
pressure tank and distribution system.
4. Draw the chlorinated water into all piping by opening each faucet until the
odor of chlorine is apparent. Leave the chlorine in the piping at least 2
hours. Then
run the water until the taste and odor are no longer objectionable.
Disposing of Animal Carcasses
1. Prompt and sanitary disposal of animal carcasses is necessary to protect the
living animals in an area from disease.
2. Search all pastures for dead animals as soon as possible. Carcasses may
have some commercial value, so send them to a rendering plant if possible.
3. If rendering is impractical, dispose of the dead animals on the premises.
Use the following procedure: Immediately after finding a carcass, cover it with
crude
oil or kerosene to keep away dogs, buzzards and vermin. Fat swine are the only
animal carcasses that will burn satisfactorily. Used railroad ties can be used
as starters. Bury other carcasses. Use power equipment if it is available.
Choose a site where subsurface drainage will not reach water supplies. Bury the
carcasses at least 3 to 4 feet deep so predatory animals won't get at it.
Drought
Water Conservation
Water conservation is defined as the efficient use of water so that unnecessary
or wasteful uses are eliminated. In many areas, more groundwater is drawn out
of the aquifers each year than is recharged through rainfall and stream flow.
As a result, groundwater levels have dropped dramatically. Demand for water
from a state's streams and reservoirs may rapidly approach the available
long-term supply.
Across many states, many communities are regularly required to limit water
use at some time during the year. While some additional water supplies can be
developed by constructing new reservoirs, in many locations the demand for
water will still
equal or exceed the available long-term supply. For these towns and cities,
water conservation can make the difference between adequate supplies and
shortages. Importantly, the way water is used and, in some instances, wasted
must be rethought. This section explains easy ways that water can be conserved
and money
can be saved at the same time. Useful information is also provided on how to
measure home water use, how simple repairs can be made, and how water-saving
devices are installed. In addition to the measures found in this section, also
refer to the General Family Preparedness section found at the beginning of this
handbook. Water conservation at home, there are dozens of ways to conserve
water and save money around the home. As a starting point, To determine
whether a low-flow showerhead needs to be installed, check the flow rate of the
current showerhead by using the water meter or by putting a gallon container
under the showerhead while the water is on and measuring the time it takes to
fill the container at the usual shower setting. If it fills in less than 20
seconds, the flow is greater than 3 gallons per minute. Low-flow showerheads
can be purchased at most department, hardware and plumbing stores. Models
costing from under $3 are available. A showerhead can usually be installed in
10 minutes.
Place displacement devices in the toilet. Three types of displacement devices
can be used in toilets, but they should not be used in newer, low-water use
toilets which use less than 3? gallons per flush. To determine the capacity of
the toilet tank, either turn off the water supply valve to the toilet (usually
located on the pipe behind the toilet) or hold the float ball up so that the
tank does not refill, and flush the toilet. Measure the capacity of the tank
by filling it to the normal level with a gallon container. Toilet dams can be
installed in toilet tanks to reduce the amount of water used, typically saving
? to 2 gallons per flush. Toilet dams are available from many utilities or
from most plumbing supply stores from under $5 per pair. A plastic bottle
filled with water and weighted down with a few stones can accomplish the same
purpose as dams. It is important to place the bottle in the toilet tank where
it will not interfere with the flushing mechanism. A plastic bottle in the
tank will save ? to 1 gallon per flush. A toilet bag which is available free of
charge from many utilities, can also be used in place of dams. A displacement
bag in the tank will save ? to 1 gallon per flush. Bricks should not be used in
the tank because small pieces can break off and permanently damage the plumbing
system.
Install faucet aerators. The standard faucet flow rate is 5 gallons a minute.
A low-flow aerator can reduce this flow to approximately 2? gallons a minute
while still providing adequate water for washing and rinsing. Installing
aerators on the kitchen sink and lavatory faucets will save hot water and cut
water use by as much as 60 gallons a month for a typical family of four. Most
aerators have either internal or external threads. Before purchasing aerators,
the location of the threads and the diameter of each spout should be
determined. If the faucet already has a standard aerator (not a low-flow type),
it can be removed and taken to the store to ensure that the correct low-flow
size is purchased. Aerators are available for less than a dollar from most
stores that sell plumbing fixtures.
Water Conservation
If the kitchen has a portable dishwasher that must be connected to the faucet,
do not install a low-flow aerator because the reduced flow may affect the
performance of the dishwasher and result in dishes that are not properly
cleaned.
Change your water use patterns. The washing machine and dishwasher should only
be used when fully loaded. This practice can save at least two loads or
approximately 60 gallons each week. Examine personal water use habits.
Changing tooth brushing habits can save as much as 14 gallons of water to water
utilities, leaks can easily account for 10 percent of a water bill and waste
both water and energy if the source is a hot water tap.
Toilet Leaks.
When a toilet leaks, water escapes from the tank into the bowl. Toilets are
notorious for hidden or silent leaks, because leaks are seldom noticed unless
the toilet "runs" after each flush (which can waste 4 to 5 gallons a minute).
To determine if the toilet is leaking, look first at the toilet bowl after the
tank has stopped filling. If water is still running into the bowl or if water
can be heard running, the toilet is leaking. Often the toilet may have a
"silent leak." To test for a silent leak, mix a few drops of food coloring or
place a dye capsule or tablet (available from many utilities and hardware
stores) into the water in the toilet tank after the water has stopped filling
and the tank is full. Do not flush the toilet. Wait for about 10 minutes, and
if the dye or food coloring appears in the toilet bowl, the toilet has a silent
leak. Leaks of this type usually are caused by a defective flush valve
(flapper) ball or a corroded or scaled valve seat. Replacement balls and
valves, which can be installed in less than 30 minutes, are available from most
hardware and plumbing stores for under $3.
Faucet Leaks.
Faucet leaks are obvious. However, periodically check seldom used taps in the
basement or outside the house. The cause of faucet leaks is frequently a worn
washer that can be replaced with two or three hand tools. Replacement washers
can be purchased from most hardware and variety stores and cost only a few
cents.
Use efficient outside watering practices. Plant native vegetation.
Once established, which usually takes two years, these plants require less
frequent watering. Water grass only when needed. If grass springs up after
being walked on, it does not need watering. Soak grass long enough for water to
reach the roots. Water slowly and deeply. Water during the cool, early morning
hours to minimize water loss by evaporation and discourage disease. Do not
water on windy days. Use sprinklers that produce droplets instead of mist and
that have a low trajectory. This type of sprinkler will lose less water by
evaporation and be less affected by the wind. Use drip irrigation systems for
shrubs, flowerbeds and other frequently watered areas. During the summer, keep
the grass about 2 to 3 inches high. This height shades the root system and
holds soil moisture better than does a closely clipped lawn. Do not water
streets and sidewalks. Adjust the hose or sprinkler until it waters just the
grass or shrubs. For flowerbeds, shrubs and trees, use drip or soaker systems.
Reading a Water Meter To Measure Leaks
If your house has a water meter, the entire plumbing system can be checked
for an undetected leak in five easy steps:
1. Find the water meter. (It may be outdoors or hidden in a dark corner of the
basement.)
2. Turn off all running water and water-using appliances, and do not flush the
toilet.
3. Read the dial (or dials) and record the reading.
4. After 15 to 20 minutes, re-check the meter.
5. If no water has been turned on or used and the reading has changed, a leak
is occurring. The rate (gallons per minute) of the leak can be determined by
dividing pipe. This is often the case when the neck ends in a ball joint. Most
necks can be unscrewed and replaced, or an adaptor can be used. Adapters or
replacement necks are readily available in plumbing and most hardware stores.
When installing the new showerhead, teflon tape or pipe joint compound could be
applied to the exposed threads of the new neck so that the joint will be sealed
and provide a leakproof connection. If the shower neck has been on for a few
years and the neck joint is too stiff to unscrew with moderate pressure,
consider having a plumber replace it.
Installing Shower Flow Restrictors to Conserve Water
Restricting devices fit into the space between the showerhead and the shower
neck. These devices range from a simple washer with a small hole in it to
small chrome-plated pressure compensating fittings. While restrictors reduce
water flow, low-flow showerheads produce a flow that is more satisfying to most
individuals.
Installing Toilet Dams, Toilet Bags and Plastic Bottles to Conserve Water
Many of the toilets in homes today use from 5 to 7 gallons per flush.
Several effective retrofit devices are available that can reduce the volume of
water used with each flush by 2 to 3 gallons. While these devices can be used
in some of the low-flush toilets on the market today that use from 3 to 4
gallons per flush, they generally perform better when used in the older 5- to
7-gallon per flush models.
The height of water in the toilet tank (not just the volume) causes the bowl to
flush, so the purpose of displacement devices is to reduce the volume of water
used in each flush without affecting water height in the tank. The following
three types of devices have proven to be effective.
1. Toilet Dams:
To install a dam, flex or bend the dam and insert it into the tank.
The dam should fit tightly against the tank sides and bottom and should curve
outward away from the plumbing fixtures in the tank. Most tanks work best when
a single dam is used.
2. Toilet Bags:
Fill the bag with water, securely seal the top of the bag with the bag
clamp and hang the bag in the tank by using the bag clip and hanger that are
provided. Make sure the bag is located in the tank so it does not interfere
with the operation of the toilet tank.
3. Plastic Bottles:
Fill a plastic bottle with water and weight down with a few stones, and
place in the most open portion of the tank. This will save as much water as is
displaced by the bottle. Make sure the bottle does not interfere with the
operation of the moving parts of the tank. Check all such devices periodically
to ensure that they remain in place.
Water Saving Steps When Remodeling or Replacing Fixtures and Appliances
1. Hot Water Pipes.
Where possible, insulate hot water pipes from the hot water heater to
fixtures and appliances. This will reduce the time between turning the water
on and the time hot water comes out of the faucet and reaches a constant
temperature.
2. New or Replacement Fixtures and Appliances.
Install low-water use fixtures when remodeling or replacing fixtures. Install
toilets that use 3? gallons or less per flush. Install low-flow showerheads
that flow at 3 gallons or less per minute. Install water-saving dishwashing and
clothes-washing machines. Be sure to check the water efficiency of appliances
when shopping for replacement appliances.
3. Pools and Hot Tubs.
Simple repair steps that can be done without contacting a plumber are listed
below.
1. If the water is too high in the toilet tank and is spilling into the
overflow tube, the float can be adjusted by turning the adjustment screw or by
very gently bending the float arm down so that the water shuts off at a level
slightly below the top of the overflow tube. Ideally, the water level should be
set so that it is about even with the fill line on the back of the toilet tank.
2. A frequent problem that causes a toilet to leak is a worn flapper ball or a
flapper ball that does not seat properly into the valve seat. If the flapper
ball is worn, it can be removed and replaced with a new flapper ball. When
replacing a flapper ball, take care to note how the chain is adjusted before
the old ball is removed. Also, check the valve seat for scale or corrosion and
clean if necessary. If cleaning does not work, install a retrofit valve seat,
available from most plumbing or hardware stores.
3. If the handle needs to be jiggled to keep the toilet from "running," the
guide-wire or the handle itself may be sticking. If the handle is sticking,
adjust the nut that secures it in the toilet tank. If that does not work,
replace the handle.
4. If none of the preceding steps solve the problem, contact a plumber to
repair the toilet.
Repairing Faucet Leaks
1. Leaky faucets, which can develop even in new houses, are wasteful and a
nuisance. With a few simple tools, a leaky faucet can be repaired in less than
an hour.
2. Most water faucets in houses today are compression-type units in which a
washer is compressed over a pipe opening when the faucet is closed, thus
closing off the
water. All compression-type faucets may not look alike, but all are similar in
their operation and repair.
3. The exact point where a leak appears on a faucet is a good clue to finding
its cause:
A spout drip is usually caused by a worn upper faucet washer or a corroded
seat.
Leaks at the stem result from a loose cap nut or worn cone or bonnet packing.
A cap leak, or water oozing below the cap nut, indicates a worn bib or packing
washer. A leak at the base of the faucet results from water seeping past a worn
lower faucet washer.
4. To repair a leaky compression type faucet, use the following steps:
Turn off the water supply at the valve nearest the faucet. Next, open the tap
to drain the faucet. Remove the handle screw and lift handle off the spindle.
Unscrew the cap nut. Use a protective cover of adhesive tape or a rag to avoid
marring the finish. Unscrew the stem with finger pressure and lift it out.
Remove the screw from the bottom end of the spindle. Scrape away all worn
washer parts. Be careful not to damage the rim. Install a new washer. (Take
either the old washer or the complete spindle unit with you to purchase the
correct size and shape (flat or conical) replacement washer.) Double-check to
make sure the replacement is like the worn washer. Check the seat (which is
located down inside the faucet) to make sure it is not pitted or rough. If the
seat is scarred or rough, use a seat-dressing kit to grind the seat to a smooth
finish. A leak at the stem usually means that the packing inside the cap nut
needs replacing. To replace the packing, pry out the old packing washer with a
screwdriver. If a washer is used, replace it with a new one. If there is no
washer, wrap the spindle tightly with "packing wicking." String can be used if
commercial wicking is not available. Reassemble the faucet. Tighten the cap
nut just enough to prevent leaking. Screwing the nut down too tightly causes
rapid wear on the stem. Turn the shutoff valves to the on position and check
the faucet for leaks.
5. A mixing faucet may look more complicated than a single faucet, but repairs
are made in much the same way. Actually, a mixing faucet is two separate units
with a single spout. Mixing faucets are used on sinks, bathtubs and laundry
tubs. Repairs must be made separately on each faucet unit. Follow the same
steps listed above, but remember to turn off the water before beginning work.
6. Every washerless and single-lever faucet model is a little different. When
repairs are required, homeowners can purchase a repair kit for their model
which includes instructions and the parts that generally will be worn. By
replacing all the parts at once, the faucet should function for several years
without needing further repair.
Adding New Landscape Or Redesigning The Yard To Conserve Water
When planning to add new landscaping or to redesign existing landscaping, the
following suggestions may help you to save 50 percent or more of the water
needed to maintain a traditional lawn.
1. If hiring a landscape architect or gardener, select one who is experienced
in Xeriscape, the conservation of water and energy through creative
landscaping.
2. Design the yard to reduce the grassed areas to only that amount which will
actually be used for recreation and entertainment. Front and side yards are
most frequently just for show and are logical areas that can be completely or
partially converted from lawns to native grasses, ground covers and shrubs.
3. Use native grasses, ground covers, shrubs and trees. Many beautiful
varieties of native species can be used in landscaping and are preferable to
imported species. The advantage of native species is that, once they are
established (usually about 2 years), they do not need to be watered as
frequently (about half as often), and they can survive a dry period without any
watering.
4. When installing an irrigation system for lawn, shrubs and trees, sprinkler
heads for the lawn should be low-angle spray heads that sprinkle the grass
without spraying the water high into the air or allowing the water to drift
onto the sidewalks and streets. The heads should produce droplets of water
instead of a mist. The preferable irrigation system for shrub beds and trees is
a drip-type system. There are several varieties, including soaker hoses,
bubblers and "leaky pipe." If a sprinkler system is installed for shrubs, an
upright pipe extension may be needed if low-angle spray heads are to be used.
This is done to spray evenly without obstructions.
5. Shape the soil to protect against erosion and use conditioners to promote
water
penetration and retention. Shape the soil into earthen basins around all
shrubs.
If the original soil is rocky, shallow or a heavy clay, improve the soil by
adding 2 to 4 inches of organic material or topsoil that is compatible with the
soil type.
6. Watering needs vary:
Plants: During summer month, most plants will need about 1 inch of water every
5 to 7 days.
Lawns: The frequency of watering depends on the type of grass.
Landscape Water Conservation
A water conscious landscape design can reduce water use for landscape
maintenance by 50 percent or more and also reduce the amount of maintenance
required. Of equal importance, the natural beauty and function of the
landscape also can be preserved by using adapted plant materials.
1. By using plant materials adapted to specific areas, water needs for
landscape maintenance can be reduced by more than 50 percent. Water conscious
landscaping involves more than just using adapted plant materials it includes
the use of other conservation techniques and practices. Water saving practices
include the use of low pressure drip or trickle irrigation systems for watering
trees, shrubs, gardens and individual plants or beds; the use of mulches around
shrubs, beds and gardens to conserve water; the use of bark, rock or other
landscape material in ground cover in areas difficult to water or in areas
where plants are not needed; the use of vegetative groundcovers such as ivy,
jasmine, liriope and vinca in small, isolated areas, sloping sites that are
difficult to water and in heavily shaded sites.
2. Water conscious landscape designs minimize intensively maintained lawn
space. Manicured lawn areas may be the focal point of the landscape, but they
do not
need to cover the entire area unless the lawn is used as a playground or sports
field. Highly maintained grass areas generally require more irrigation than any
other component of the landscape. On golf courses, for example, only the
landing areas need to be intensively maintained. Rough areas may have a more
drought tolerant grass, taller mowing heights and a separate water system.
Large open areas of the landscape where a grass cover is needed can be planted
to low maintenance grasses such as buffalograss, centipede grass or bahiagrass.
Native plants and wildflowers also can be allowed to develop in these areas.
Such plantings require very little maintenance and no supplemental water once
they become established.
3. Proper site preparation will produce a more beautiful landscape and result
in more efficient water utilization. Slopes, areas with shallow topsoil,
compacted soils and deep sands are difficult sites to establish grass and are
inefficient with respect to water use. Modifying or amending the sites before
planting is more effective than waiting until problems develop.
4. As the foundation is the strength of a building, the seedbed is the
support for a turf. The seedbed refers to the few surface inches of soil that
are modified prior to planting. Poor soil conditions result in continuous turf
maintenance problems. To prepare a seedbed, first remove all debris such as
large stones, wood or other trash that may sawdust (preferably hardwood), leaf
mold or similar material. Thoroughly mix 1 inch of organic matter with the top
3 to 4 inches of soil to produce a uniform seedbed. This mixing can be done by
repeated cultivation with a garden tiller or with a tractor and rotovator. When
adding un-decomposed organic matter to the soil, also add 3 pounds of ammonium
nitrate or 5 pounds of ammonium sulfate per 1,000 square feet to aid
decomposition of the organic material. Most soils are deficient in the major
nutrients required for turf. Sandy soils normally are deficient in nitrogen,
phosphorus, potassium and lime.
In the black land areas, nitrogen and phosphorus may not be adequate for good
turf development. Potassium in the soil may become deficient for turf growth
when high amounts of nitrogen are used in areas not normally deficient in
potassium.
If possible, base rates and combinations of fertilizer nutrients on the results
of soil tests. In the absence of a soil test, apply a complete fertilizer to
the surface of the seedbed. Apply a fertilizer with a 1-2-1 (10-20-10, 6-12-6)
or 1 (8-8-8) ratio at a rate to supply 1 pound of phosphorus per 1,000 square
feet of lawn. Grade the seedbed to provide surface drainage away from
structures, walks and driveways. A fall of 6 inches for every 40 to 50 surface
feet is adequate for drainage on sandy soils, provided no pockets or
depressions exist. Clay or clay loam soils may require twice that slope to
provide adequate surface drainage. In some cases, subsurface drainage systems
may be needed to remove excess water from poorly drained sites. If a
considerable part of the landscape needs to be filled, use a loam or sandy loam
soil. Repeated wetting of the filled site will help settle the soil. The final
step in seedbed preparation is raking the surface to remove large clods and
stones. At the same time, fill depressions that have developed and level high
spots. Walks and driveways should be about 1 inch above the final soil
surface. The site is now ready to be seeded, sprigged or sodded.
5. Conservation and reduced maintenance costs are enhanced by good cultural
practices. By some estimates as much as 50 percent of the water used for
landscape maintenance is wasted through run-off and evaporation. Proper timing
and method of application will reduce much of this water loss. The most
important water conserving practice is to water only when grasses show symptoms
of water stress. Grasses wilt and begin to go off color when under moisture
stress. Shrubs and small trees wilt and begin to drop their leaves under
moisture stress. Ideally, water shrubs before the first sign of moisture
stress. When water is needed, thoroughly wet the soil 4 to 6 inches deep by
applying water slowly or at intervals to avoid run-off. One inch of water,
properly applied, will wet most soils 4 to 6 inches deep. (One inch of water
is equivalent to 62 gallons per 100 square feet.) During summer months an inch
of water will meet most plant needs for 4 or 5 days. But wait until the plants
(or grass) show moisture stress before watering again. Early morning dew,
cooler temperatures or rain may extend the interval between irrigations several
days.
6. Mowing is the key to maintaining neat, attractive turf areas. Low
maintenance grasses such as buffalograss require lrecycle plant nutrients.
When clippings are picked up, they can be composted or used for mulch in
gardens. During hot, dry conditions raise mowing heights to reduce water needs.
Grass mowed at 2 to 3 inches maintains a deeper root system than grass mowed at
1 inch. Supplemental water needs are reduced with more effective use of water
in the soil by deep rooted grasses. Mow St. Augustine, bluegrass and tall
fescue lawns at 3 inches during drought conditions. Do not mow bermudagrass
and zoysia higher than 2 inches.
7. Thatch, the organic layer between the soil and the green leaves, can slow
water movement into the soil and cause excess run-off. Thatch accumulation
results from heavy fertillizing, improper mowing practices, over watering and
frequent pesticide use. Aeration and thatch removal increase water penetration
and reduce run-off. Under some conditions wetting agents (surfactants) improve
water penetration in a heavily thatched lawn. Water movement into the root zone
is even more difficult where compaction develops. Aeration of compacted soils
once or twice a year helps break up the compacted layer and increases water
penetration. Aeration also reduces run-off from sloping sites.
8. In soils containing high levels of sodium salts, gypsum can aid water
penetration. Soil test information available through county Extension agents
can reveal the presence of high levels of sodium. Like the other three factors
affecting water use, the quality of the water used can influence the amount of
water needed to keep a turf healthy. Where salt is a problem, it is important
to thoroughly wet the soil during each application. Light, frequent
applications of water high in salts result in an sccumulation of salts near the
surface. Thorough watering helps move the salts below the root zone of grasses.
Watering Lawns and Plants During a Drought
1. If water is rationed during a drought, give priority to shrubs that are
more
expensive and harder to replace than grass and annual plants.
2. During a severe drought when outside watering is prohibited, water plants
with "gray water" saved from bathing, dishwashing and clothes washing, if this
is permitted by the city or local health department.
Special Considerations for Agricultural Producers
In addition to the precautions and responses covered in the previous pages,
the agricultural producer will want to consider the following measures.
Developing a Crop Water Management Plan
Develop a water management system before you are faced with a drought
situation.
1. Water Use Efficiency
In areas where water supply is limited or expensive, it is economically
important for farmers to attain high water use efficiency as well as high
yields. Water use efficiency values can be calculated in several ways and
should be clearly defined to avoid misinterpretation. Water use efficiency for
a crop and irrigation system can be expressed as crop yield (pounds) per unit
of water applied to or actually used by the crop (acre-inches).
2. Rainfall Patterns
Average monthly rainfall data can be misleading because large variations
occur. Therefore, percent probability that a certain rainfall amount will
occur is a better way of assessing risk. Dryland crops should be grown during
periods of high rainfaing widely practiced on drought tolerant crops to take
advantage of expected rainfall.
1. Sorghum
Sorghum has good ability to adjust to water stress. Sorghum requires 13 to 24
inches of seasonal water use (evapotranspiration) from precipitation, stored
soil moisture and irrigation to achieve grain yields of 3,000 to 6,700 pounds
per acre.
Dryland sorghum yields an average of about 1,600 pounds per acre, although
yields of up to 3,000 pounds per acre are not uncommon during high rainfall
years. Pre-plant irrigation is often not needed and may be inefficiently
applied, especially when using conventional graded furrow irrigation systems.
The same amount of water may be more efficiently used if applied at later
stages of crop growth.
Conservation tillage can reduce the need for pre-plant irrigation of sorghum
through improved soil moisture storage. Irrigations should be timed to avoid
water stress during periods of peak water use (boot, heading and flowering
stages) to achieve reasonably good yields and maximum irrigation water use
efficiency. Two well-timed seasonal irrigations of 4 inches per application or
the equivalent are adequate in normal years for good yields of medium maturity
hybrids. Saving irrigation water by withholding a 4-inch rrigation reduces
sorghum grain yields by only about 10 percent during the early 6- to 8-leaf
stage but by almost 50 percent if withheld at the heading and bloom stage.
2. Corn
Corn is much more sensitive to water stress than sorghum, wheat or cotton.
Corn is planted earlier than sorghum and typically allows more efficient use of
the May-June wet season than sorghum. The early planting date required for
corn increases the need for pre-plant irrigation for stand establishment. The
total seasonal water use to achieve any corn grain yield is about 13 inches.
Pre-plant irrigation is often necessary. Drought seasons require one or two
additional irrigations. Moisture stress caused by low soil water availability
or hot, dry conditions during the flowering stage (which includes tasseling,
silking and pollination) can severely restrict corn yield. Reduced irrigation
of corn has generally resulted in significant yield decreases. Planned water
deficits into the stress range are not recommended and may be feasible only on
soils with moderate to high water storage and during the early vegetative or
grain ripening stages. Reduced acreage, rather than reduced irrigation, offers
the best way to
adjust corn irrigation to limited water supplies.
3. Wheat
Winter wheat is a major drought-tolerant crop that grows vegetatively during
the normal dry period from fall to early spring and develops grain during a
period of increasing spring rainfall. Wheat is normally planted around October
1 and requires available soil moisture from irrigation or precipitation for
germination and early growth. Wheat also should receive one late fall
irrigation followed by two to three spring irrigations for high grain yields.
One additional early irrigation (together with additional applied fertilizer)
is usually needed for early planted wheat that is grazed and also managed for
grain production. The highest wheat yield response to irrigation, deficits and
application.
Early fruit set is important in cotton production. However, the production,
placement and retention of fruiting sites are sensitive to soil water
availability.
Under dryland conditions, expected lint yields are in the range of 250 to 300
pounds per acre. Cotton requires more than 13 inches of seasonal water use to
produce appreciable lint yields. High levels of water application can decrease
lint yield by causing excessive vegetative development and fall immaturity. A
pre-plant irrigation of 4 inches is usually advantageous, especially if spring
rainfall is not adequate, but heavier pre-plant irrigations are not warranted.
Cotton has the ability to overcome moisture stress at most growth stages if
water becomes available and low temperatures do not limit growth. The most
critical period for irrigation is early to mid-bloom. If water is available, a
second irrigation should be applied at peak to late bloom.
Developing and Improving Vegetative Cover
1. Good cover (standing vegetation and mulch) lessens the impact of rain that
dislodges soil particles, and thus reduces the amount of sediment in surface
run-off. Good cover also slows the movement of run-off so that more water soaks
into the soil and more sediment is deposited on the grazing land rather than
being carried into streams or ponds. Vegetative cover also entraps manure and
prevents pollution of streams with animal waste.
2. Best management practices for preventing nonpoint source pollution from
grazing lands include locating animal holding pens and feeding areas away from
streams
and other hydrologically sensitive areas, and establishing and maintaining good
vegetative cover.
3. The amount and type of vegetation present significantly influence the rate
of infiltration of water. Standing vegetation and a mulch or litter layer
increase infiltration. Organic matter in the surface soil improves soil
aggregation, making it easier for water to move through the soil.
4. Pores in the soil created by plant roots increase the rate at which water
can enter the soil by providing pathways for water movement. Long-lived,
perennial bunchgrasses have deeper root systems than sodgrasses and allow water
to move deeper.
5. The height of grass also affects water movement. Water moves more rapidly
across closely grazed grass than grasses left with several inches of stubble.
6. If the watershed has been severely overgrazed, the vegetative cover will
need to be improved by controlling undesirable plants such as broadleaf weeds
and shrubs and/or seeding desirable plants.
Maintaining Vegetative Cover
1. If at least 10 to 15 percent of the desirable vegetation is present, the
most
practical and economical way to maintain a desirable vegetative cover is
through
proper grazing management. The key to proper grazing management is to balance
the number of grazing animals with the forage produced. The proper balance
will leave a sufficient amount of plant residue to maintain stored food
reserves, plant vigor, a healthy root system and seed production of the desired
plants. It also allows seedlings to become established.
2. For planning purposes, an appropriate long-term stocking rate may be
determined
based on the "take half and leave half" rule of thumb. However, a more
realistic
approach is to manage the grazing stocking rate so that a given amount of
residue is left prior to resumption of growth in the spring. The amount of
residue required
will vary according to the area of the state and the vegetation types. For
example,
300 pounds of plant residue may be adequate for a semi-arid area with
short-grass
vegetation, while 1,200 pounds of residue may be required in a more humid area
with
tall-grass vegetation.
3. It also is important to properly distribute animals over the grazing land.
Poor distribution may result in extreme overgrazing of one area and little use
of another in the same unit. Often these overgrazed areas are located near
water, thus increasing the potential for pollution. Practices which contribute
to proper grazing distribution include the development and strategic placement
of water sources, construction of fences, strategic location of salt and
feeding sites, building of trails, fertilization, prescribed burning and spot
seeding.
4. Plants benefit from periods of no grazing. Deferment from grazing is
particularly useful on areas where vegetation needs to be improved.
5. Planned grazing systems divide an area into two or more grazing units to
allow
periods of grazing and rest from grazing in a sequence determined by
management
objectives, physiological needs of the plants and the design of the system.
Grazing systems may include as few as 2 or as many as 30 or more grazing units.
Some temporary soil compaction may occur with systems that concentrate animals
in a
small area for short periods of time. However, if the period is short, the
soil
will recover rapidly from the compaction. A planned grage plants and water
quality.
Managing Salinity
Salinity problems normally occur in arid or semi-arid climatic regions.
Salinity is a major nonpoint source pollutant in the west as irrigation return
flows can carry dissolved salts into waterways. In humid climates, soluble
salts are generally eached downward through the soil profile where they cannot
cause problems.
In general, accumulation of salt results from water evaporation at the soil
surface. This condition can render land vegetatively nonproductive, and may
lead to nonpoint source pollution through erosion and sedimentation. Further,
the salt concentration may run off during a storm and affect adjacent lands.
These problems normally occur where either surface seep areas appear or where a
high water table exists in the soil profile. Sometimes rainfall moves through
the ground to the water table or to a barrier above the water table. Here it
accumulates and moves laterally, often parallel with the land slope, toward an
outlet or low point in the landscape. It then forms a wet weather or saline
seep. During the summer or periods of low rainfall, such seepage spots may
completely dry out. Only detailed analyses of borings, soils and surveys can
establish the source and amount of groundwater contributing to seep areas.
1. Irrigated land in arid areas sometimes must be drained to prevent or
reduce salinity problems. Topographic surveys and subsurface investigations
should be made to obtain information on the soils, geology and water table
elevations. These data are the basis for determining the extent of the problem
and for setting design parameters.
2. Plant nutrients and pesticides should be applied in such a manner as to
limit the potential for contamination of surface and groundwater supplies by
outflow from
drainage systems.
3. One alternative treatment is to establish permanent salt tolerant species
such as bermudagrass, aikali sacaton, gramas and kleingrass. Salt tolerant
species will
allow a vegetative cover where bare ground would otherwise lead to water
quality
problems.
4. Cropping with salt tolerant, seasonal species such as cotton or small grains
assists in addressing the problem of saline soils. Planting high water use
crops
such as alfalfa, four-wing saltbush or trees above a seep area helps control
the
amount of moisture that accumulates.
5. Organic or inorganic additives to the soil surface will increase water
infiltration. This will allow water to force dissolved salts below the root
zones
and prevent further concentration of salts on the soil surface. Organic
amendments
include cotton burs and gin "trash" that may be obtained from cotton processing
facilities. Inorganic agents to increase soil tilth include gypsum or calcium
sulfate.
6. Land alterations are sometimes used to alleviate salinity problems. Such
constructed systems have a place in salinity control, but use caution when
implementing them. In some cases, altering the land surface by smoothing or
grading may eliminate the effects of the problem by confining the seep area
or
providing natural surface drainage. Practices such as closed-end terraces
or
basin terraces which impound water can be used on areas with minimal
seepage,
but should be scrutinized where they might contribute to problems associated
with salinity of the site.
7. A surface drainage system may be the least expensive alternative, but
potential
maintenance problems and obstructions to farming operations should be
onsidered.
Maintaining water quality of any discharge waters is of utmost importance.
Most
subsurface drainage uses corrugated plastic tubing installed with a
synthetic filter envelope. Again, as with any other drainage system, an
adequate outlet
is imperative, especially considering the discharge water quality in
comparison
to receiving waters.
8. Irrigation water management is important on saline soils. Salt accumulates
in soils because of salts in irrigation water or the presence of a high water
table. To prevent harmful accumulation of salts in soils irrigated with saline
water, an additional quantity of water, above that required for the crop, must
be passed through the root zone to leach salt from the soil. A high water
table contributes to salt accumulation because capillary action causes water
and soluble salts to rise to the soil surface. There the water evaporates,
leaving behind salt deposits. Enough water must be applied periodically to
leach out accumulated salts without excessive waste of water. If a seep area
could be made worse by applying liquid agricultural waste, proper management
must be used, including nutrient management.
Earthquakes
The crust of the earth is made up of seven masses called tectonic plates.
They are in steady motion. Accumulated stress builds up from the continental
plates grinding, sliding or colliding against or slipping under each other.
Pressure is released in a powerful explosion of energy that fractures the
earth's surface, shakes the ground, causes the ground to roll, liquefies some
soil and generates
giant water waves. When an earthquake will unleash its force remains
unpredictable.
Preliminary cracks may send off foreshocks before a main fracture. These
foreshocks
can occur months or minutes before the rapid onset of the earthquake. An
earthquake
lasts for seconds or minutes, while aftershocks may occur for months after the
main earthquake. Powerful and widespread ruptures or shaking ground can cause
buildings to move off their foundations or collapse; damage utility lines,
other structures and roads; set off fires; and threaten the lives of people and
animals. It is the damage to structures that presents the greatest risks to
life and property.
Earthquakes create a trigger for other natural hazards such as landslides,
tsunamis, avalanches, fires and flash floods. The greatest likelihood of major
earthquakes is in the western United States, particularly along the San Andreas
Fault in California and up the Alaskan Coast, in the New Madrid Fault Zone in
the Midwest, and in a few pockets on the East Coast, particularly in South
Carolina
and New England. There is no seasonal or yearly cycle of occurrence.
Earthquakes can happen at any time. Major earthquakes appear to occur in cycles
of between 50 and 275 years. Earthquakes are measured in intensity of ground
vibrations, the
elasticity of buildings and tructures, and how well structures are connected to
their foundation, falling or collapsing objects and structures accompany
earthquakes. Structural instability, such as dam failures, can trigger flash
floods. Fires have been the greatest cause of damage in the past. Offshore
earthquakes may cause tsunamis.
Preparing for an Earthquake
In addition to precautions outlined in the sections on General Family
Preparedness, Residential Fires and Hazardous Material Accidents, you
need to take the following steps.
1. Become familiar with earthquake terms.
Aftershocks: Tremors that occur in the hours or days after the initial
earthquake shaking is over.
Epicenter: The place on the surface of the earth directly above an
earthquake's
first movement (focus).
Fault: A fracture in the earth's crust along which rocks have been
displaced.
Focus: The point beneath the surface of the earth where the rocks first
break
and move, beginning the earthquake.
Intensity: An indication of an earthquake's apparent severity at a specific
location, based on its effects on people and structures.
Magnitude: Size of an earthquake determined from the size of the seismic
waves
it generates as recorded by seismographs.
Mercalli Scale: The scale used to measure the strength of an earthquake as
determined by people's eyewitness observations.
Tidal wave: This is a misnomer for a tsunami. Tidal waves occur from the
interaction of the moon and large bodies of water. Waves you see
rolling into the ocean shore every day are tidal waves. Tsunami: A seismic sea
wave. An unusually large wave (or series of them) produced by an undersea
earthquake or volcanic eruption.
2. Safeguard your home by:
Bolting bookshelves, water heaters and cabinets to wall studs. Anchoring
things so that they will not move or fall during an earthquake is the most
important thing you can do to make yourself safe. Keeping things in place also
means they will not break.
3. There are many ways to make the contents of your home and workplace less
hazardous. Move cabinets and tall furniture so that if they fall they are not
likely to hit people. Use steel angle brackets to anchor them to studs in the
wall. Put heavy or breakable things on bottom shelves. You can even put
"fences" or restraining wires to keep items from falling off open shelves. Put
child-proof or swing-hook latches on bathroom and kitchen cabinets. At work,
put strong latches on cabinets where hazardous items are stored. Use screw-eyes
or tongue-in-groove hangers to mount mirrors or pictures instead of hanging
them on nails.
Preparing for an Earthquake
Be sure that ceiling fans and light fixtures are well anchored or have
earthquake safety wiring. Anchor typewriters, computers, televisions, stereos
and like items with heavy duty Velcro, at home and at work. Strap your water
heater to anchor it to wall studs. You can buy metal strapping, called
plumber's tape or strap iron, in hardware stores. Use it to strap the heater
at the top and bottom. This not only preserves your best source of water but
also significantly reduces the fire hazard in your home by preventing a broken
gas line. Do not assume that anything is too heavy to move in an earthquake.
When the ground is going up and many injuries occur when people act on their
impulse to run. Train yourself to take cover where you are.
Responses Inside Buildings During an Earthquake
For most of us the biggest danger in an earthquake is not from a building
collapsing, but from things inside the building falling or flying around
while
the building is shaking. Hazards found inside buildings include overhead
lights,
ceiling tiles, cabinets, windows, furniture and equipment.
If an earthquake happens, the best thing to do is:
1. Drop, cover, and hold on. Get under a table. If there are no tables, get
under or down between rows of chairs or against inner walls.
2. Do not stand in a doorway. Buildings today have so much partitioning,
much
of which is temporary, that many doorways are actually weak points.
Doorways
are not a good solution in a group situation either.
3. If you have nothing to get under, sit down against an interior wall or
next to a chair, holding on if possible.
4. If you are in bed, it's best to stay there, hold on, and pull the pillows
over
your head for protection.
5. If children are in another room, take cover in the closest safe place and
call
to them to do the same. Children will need you alive and unhurt after the
earthquake. Avoid the urge to run to protect your children, as that puts
you
in more danger of being hurt or injured.
Responses if You are Outside During an Earthquake
1. Outside, get away from buildings, walls, trees and power lines. If you
cannot
get clear of hazards, getting back inside a building is better than staying
on
the sidewalk. Sidewalks next to buildings are among the worst places to be.
2. In a car, ease off the accelerator and slow down carefully. Do not stop
on or
under overpasses and bridges if you can avoid them. Be aware of what traffic
around you is doing and act accordingly.
3. If you live in coastal areas, be aware of possible tsunamis.
After an Earthquake
1. Take basic precautions immediately after an earthquake. In addition to
those
outlined in the General Family Preparedness, Residential Fires and
Hazardous
Materials Accidents sections you should:
Expect aftershocks. Avoid using vehicles except in emergencies.
2. Check yourself for injuries and protect yourself by putting on shoes, work
gloves and any other protective gear at hand.
3. If the electricity is off, turn on a flashlight.
4. Once you are sure that you're all right, check the people around you for
injuries. You might ask loudly, "Is everyone okay?" This will also help
calm
people. The types of injuries that happen most often in an earthquake
include
cuts, bruises, fractures and physiological shock.
5. Check the entire building for structural damage and chemical spills.
Refer to
the section on Hazardous Materials Accidents for further response
information.
Check chimneys for cracks and damage. The initial check should be made
from a
distance. Have a professional inspect the chimney for internal damage that
could lead to fire.
6. Right after an earthquake, hang up your phone. If the receivers are
shaken
off the hooks, these lines register as "open" in the system and it
overloads.
You can help restore telephone service by hanging up your phone.
Special Considerations for Agricultural Producers
In addition to animals right after an earthquake. Aftershocks are quite
frequent after large earthquakes, and further increase the fear and skittish
reactions of animals. The best thing to do for animals after an earthquake is
to get them out in the open, to open pasture or rangeland. Let the animals run
free. Do not
attempt to rope or chain large animals such as cows and horses because they may
injure or kill themselves if an aftershock occurs and they try to run. Get
animals out of barns or buildings that may have been damaged in an earthquake.
Barns are especially susceptible to earthquake damage. Large beams and rafters
may not be well secured, thus making the barn subject to collapse during
aftershocks. Hay bales and large equipment may be tossed around and come
tumbling down on animals and people inside barns. Immediately open the doors
and let the animals out. It's easier to recover a live animal than replace a
dead one. Ensure that mechanical equipment has not been turned over or damaged.
If there is danger of electrical shock, turn off the main electrical circuit
breaker or fuse. If you smell gas or suspect a gas leak, turn off the main
valve. Check fence lines and posts. You may need to build a make-shift yard
from temporary posts and fencing. Then repair/
rebuild the regular fencing, and open the temporary yard when completed. If
animal carcasses need to be disposed of refer to the General Family
Preparedness, Special Post-Disaster Considerations section for appropriate
handling.
Residential Fires
Fire safety and prevention are important for everyday emergencies,
but they are crucial during disasters. More than 6,000 Americans die
and 100,000 more are injured by fires each year. Fire spreads
quickly. A fire's heat is more dangerous than the flames; inhaling
super hot air can sear your lungs. Fires produce poisonous gases
that make you drowsy and disoriented. In addition to those measures
outlined in the General Family Preparedness section, the following
fire specific measures should be followed.
Fire Safety and Prevention
1. Install smoke detectors in your house or apartment. Place detectors on
every
level of your house: outside bedrooms at the top of open stairways or the
bottom of enclosed stairs - near (but not in) the kitchen. Clean smoke
detectors regularly and replace batteries once a year.
2. Plan escape routes with your family. See the General Family Preparedness
section of the Handbook.
3. Clean out storage areas. Don't let trash accumulate.
4. Check electrical wiring. Inspect extension cords for frayed or exposed
wires
or loose plugs. Do not overload extension cords or outlets.
5. Never use gasoline, benzine, naptha or similar liquids indoors. Never
smoke
near these flammable liquids. Safely discard all rags or materials soaked
in
flammable material after use.
6. Check heating sources. Make sure they are clean and in working order.
7. Alternative heating sources such as wood, coal and kerosene should be used
carefully.
8. Make sure that home insulation is not in contact with electrical wiring.
9. Know where your gas meter and central electrical panels are so you can
shut
them off in an emergency. If you shut off your gas line, allow only a gas
company representative to turn it on again to make sure it is done
properly.
10. Ask your local fire department to inspect your house for fire safety and
prevention.
11. If you live in wildland areas, your house could be a target for wildfire.
Call local authorities and get information about wildfires in your area.
Do not install an untreated wood shake roof. Make your landscape fire
safe by
removing excess brush and undergrowth, planting fire resistant plants,
and
pruning trees of low branches.
What to Do in Case of a Fire
1. To put out a small fire, take away its air or fuel, or cool it with water
or fire extinguishing chemicals.
2. Never use water on an electrical fire. Use only a fire extinguisher.
3. Oil and grease fires occur primarily in the kitchen. Smother the flames
with baking soda or salt or put a lid over the flame if it is burning in a pan.
4. Small fires can be controlled with water or fire extinguishers, but do not
try to put out a fire which is getting out of control.
5. If your clothes catch on fire, stop, drop and roll until the fire is
extinguished. Running only makes the fire burn faster.
6. Sleep with your door closed. If you wake up to the sound of a smoke
detector, feel the door before you open it. If the door is cool, leave
immediately. Be prepared to bend low or crawl. Smoke and heat rise, and the
air is cooler near the floor. If the door is hot, escape through a window.
After
1. Ask your insurance agent about estimates and loss coverage.
2. Do not enter a fire-damaged building unless authorities have given you
permission.
3. When entering a building, be watchful for signs of heat or smoke because
they may be
signs of smoldering remains of fire.
4. Have an electrician check your household wiring before the current is
turned back on. Do not attempt to reconnect any utilities yourself.
5. Beware of structural damage. Roofs and floors may be weakened and need
repair.
6. Discard food, beverages and medicines that have been exposed to heat,
smoke or soot.
7. If you have a safe or strong box, do not try to open it. A safe or fire
proof box can hold intense heat for several hours. If the door is opened
before the box is cooled, the entering air combined with the high internal
temperature may cause the contents to burst into flames. Refer also to the
General Family Preparedness section.
Floods
Floods are the most common and widespread of all natural hazards.
Some floods develop over a period of days, but flash floods can
result in raging waters in just a few minutes. Even very small
creeks, gullies, culverts, dry streambeds or low-lying ground that
may appear harmless in dry weather can flood. Wherever you live, be
aware of potential flooding hazards. If you live in a low-lying
area, near water or downstream from a dam, you must be prepared for
floods. In addition to the information provided here, also refer to
the General Family Preparedness section.
Preparing for Floods and Flash Floods
Some simple advance preparation will help you be ready for possible
floods in your area.
1. Know the flood warning system in your community and be sure your family
knows the warning. Instruct family members in emergency procedures during a
flood warning. If you live in an area subject to frequent or sudden floods,
especially flash floods, you may wish to have family flood drills. Assign each
family member an emergency task such as gathering emergency supplies, turning
off utilities, or
listening to the radio for instructions.
2. Flood proof your buildings. Install check valves in sewer traps to prevent
water
from backing up in sewer drains. Seal cracks in walls and floors with hydraulic
cement.
Watch for these these fire hazards on your property:
- Broken or leaking gas lines
- flooded electrical circuits,
- submerged furnaces or electrical appliances
- flammable or explosive materials coming from
upstream.
5. Before floodwaters crest, turn off the main power switch if you think the
electrical circuits are going to be under water. Never Touch The Switch While
You Are Wet Or Standing In Water. Do not turn the electrical system back on
until it has been inspected by an electrician.
6. Know what a river height forecast means for your property especially how far
your property is above or below expected flood levels.
7. Know where to go in case of flooding. Remember that you must seek higher
ground as quickly as possible, on foot if necessary.
8. If you are camping, know how far your campsite is above nearby waterways.
Know how to seek higher ground. Stay out of unknown water paths such as dry
creeks or river beds. If advised to leave the area, do so immediately.
9. Refer to the General Family Preparedness section of this Handbook for
additional steps to take.
Building Dikes To Prevent Minor Surface Flooding
Standing water from melting snow or heavy rains can flood basements and
damage yards, wells, feed supplies, machinery and other property. Flooding is
more apt to occur in areas with poor surface drainage systems or ice dams. A
1- to 3-foot high sandbag earth dike offers protection from shallow flooding
(water depth less than 3 feet). Contact a construction firm, lumber yard or
Civil Defense officials for information on where to buy sandbags in the area. A
sandbag dike can be constructed as follows:
1. Select the site for the dike, making the best use of natural land features
to keep it as short and low as possible. Avoid trees or other obstructions
which would weaken the structure. Do not build the dike against a basement
wall. Leave about 8 feet of space to maneuver between the dike and buildings.
2. Remove ice and snow (down to the bare ground if possible) from a strip of
land about 8 feet wide.
3. Fill and lap sandbags. Fill bags approximately half full of clay, silt or
sand. Do not tie. Alternate direction of bags with bottom layer lengthwise of
dike. Lap unfilled portion under next bag. Tamp thoroughly in place. Build the
dike three times as wide as it is high.
4. Seal the finished dike to increase its watertightness. To seal the dike:
Spread a layer of earth or sand 1 inch deep and about 1 foot wide along the
bottom of the dike on the water side. Lay polyethylene plastic sheeting so
that the
bottom edge extends 1 foot beyond the bottom edge of the dike over the loose
dirt. The upper edge should extend over the top of the dike. (This plastic
sheeting, available from construction supply firms, comes in 100-foot rolls and
is 8 or 10 feet wide.) Lay the plastic sheeting down very loosely so that the
pressure of the water will make the plastic conform easily with the sandbag
surface. If the plastic is stretched too tightly, the water force can puncture
it. Place a row of tightly fitting sandbags on the bottom edge of the plastic
to form a watertight seal along the water side. Place sandbags at about 6-foot
intervals to hold damp or flooded basements.Leaks in basements may be caused by
cracked walls, improper grading, water in window wells or water pressure under
floors.
Cracks
Watertight concrete is important to prevent water seepage in the basement.
Fill cracks when the soil is dry, so cracks will be dry. It is best to fill
cracks when there is no artificial heat in the basement so thin layers of
mortar can cure.
1. Wide cracks (? inch or more). Shape the crack like a V with a star drill
or cold chisel. Fill with mortar. Chisel out the sides of the crack to make a
V opening about 1 inch deep and 1 inch wide at the surface. Coat the crack with
a creamy mixture of cement and water. With a trowel immediately fill the
opening with a 1:2 mixture of cement and sand mortar (one amount of cement to
two amounts of sand mortar). Or use a chemically treated cement available at
hardware or building supply stores.
2. Hairline cracks. Fill the cracks with a cement base paint. With a scrub
brush
apply a cement wash of Portland cement and water. Or check for other
leak-stopping
materials at your local lumberyard or hardware store.
3. The ground around foundations should slope away from the house at a rate of
at least 6 inches in 10 feet. You should regrade by cutting and filling if you
notice
water standing along foundations, or if the surrounding ground is flat or
slopes
toward the house.
4. Carry roof water away from the building by eave gutters and downspouts.
Water from downspouts should be carried about 3 feet away from the foundation
wall. Use a splash block, downspouting or tile drain. Do not direct water from
the downspouting into the drain around the footing.
Preventing Leaks in Basements
Window Wells
1. Check window wells to be sure that surrounding ground ends a few inches
below the top of the well.
2. To prevent water seeping down the outer surface and under the well, compact
several inches of dirt around the well.
3. If there is tile around basement footing, dig a post hole inside the well to
this tile. Fill with clean gravel.
4. If there is no tile around footing, improve drainage by laying drain tile
from the bottom of the window well to a lower point in the yard.
Basement Floors
Water pressure under concrete basement floors may cause them to leak or
buckle.
To relieve this pressure:
1. Build a sump so water can run into it and be pumped out.
2. If there is a layer of clean gravel under the floor, drill a hole in the
side of a floor drain. This will allow water to flow through the gravel to
the drain, and will relieve the pressure under the floor.
3. Leaks sometimes can be diverted through concrete lined channels below or
above floor level. Make a channel by chipping away floor and smoothing it
with mortar, or by building a ditch above floor level. Carry the channel
around the wall to a floor drain.
Cleaning Up After a Flood Setting Priorities
Priorities will vary with the kind and seriousness of damage. Buildings may
not be habitable during repair.
1. Examine building structure. Check foundations for settling, cracking or
undermining. Examine walls, floors, doors and windows to determine what
repairs are necessary. You may want to repair only temporarily until
extensive work can
be done.
2. If basement is flooded, start pumping the water and water system.
3. Shovel out mud and silt before it dries.
4. Before they dry, wash down flooded walls and floors with a hose. Start at
upper limit of flooding and work downward.
5. Scrub and disinfect walls and floors.
6. Start the heating system if possible to speed up drying. Before operating
it,
the heating system may need to be cleaned, dried and reconditioned. Make
sure
chimneys are clean before starting system.
7. Dry out walls and floors. If necessary for proper drying, strip walls
open up
to water level. Drill holes in exterior siding. Complete drying may take
months.
8. Repair buckled walls and floors.
9. Clean and dry household items, furniture, carpets, clothing, dishes and
bedding. Disinfect when necessary.
10. Treat items for mildew as needed.
11. Care for damaged trees, shrubs and lawn.
12. Repaint, repair, refinish as necessary.
Salvaging Sewing Machines and Sergers
Most damage to flooded sewing machines and sergers is caused by rust.
Even if the machine was not submerged, check for rust caused by general
dampness.
Rust develops quickly on highly polished, machined or plated surfaces.
1. If the equipment was submerged, the machine (head and controls) or the
serger should be serviced by a dealer or professional sewing machine/serger
repair person
within 10 days if possible.
2. Try to prevent as much damage as possible by drying equipment quickly. Use
a hand-held hair dryer to help dry interior parts. Dry attachments with a soft
cloth or a hair dryer. Rinse attachments and removable metal parts in dry
cleaning solvent or a light machine oil. Oil replaces water and protects the
metal.
3. Oil interior parts to protect them. Put a few drops of machine oil on
each moving part and operate the sewing machine or serger by hand for several
minutes to
distribute oil. If the equipment has been submerged, do not use the motor and
controls to operate the equipment until they have been inspected by a dealer or
a
repair person.
4. If the sewing machine, serger or attachments have already begun to rust,
follow preventive measures as above. Then rub rusted parts with very fine
steel
wool and reapply a coating of oil.
5. If the equipment cannot be serviced within 2 weeks, be sure a light film of
oil
remains on the parts. Store equipment in a large plastic bag until serviced to
protect other surfaces from leaking oil. Place a chemical dehumidifier in
the bag with the machine to absorb any residual moisture.
6. If equipment and controls were not submerged, professional servicing may
not be
necessary. Follow rust prevention measures for metal parts and then operate the
equipment with the motor. If the equipment works properly, remove excess oil
from attachments and other removable parts with a soft cloth. To remove excess
oil from interior metal parts and thread-handling mechanisms sew/serge through
scrap
fabrics until no more oil is absorbed into fabric.
Cleaning Flood-soiled Pillows and Mattresses
Mattresses
1. A good innerspring mattress should be sent to a commercial renovating
company.
Renovation is too difficult to do at home. Ask about the cost of the
work.
It may be less expensive to buy a good reconditioned or new mattress.
2. If a mattress must be used temporarily, scrape off surface dirt and expose
mattress to sunlight to dry as much as possible. Cover mattress with
a rubber
or plastic sheet or mattress cover before using it.
3. If you decide to keep a flood-soiled mattress, it should be sterilized.
This
must be done at a sterilizing plant such as a mattress company or a state
hospital. Ask your local public health department or county Extension
agent
for information on mattress sterilizing plants in your area. Have
mattresses
as dry as possible before taking them to a sterilizing plant. Use crop
drying
fans or household fans to speed up the drying process.
Feather Pillows
1. For feather pillows, if ticking is in good condition and does not contain
red or yellow stains, wash feather and ticking together. Brush off surface
dirt. Wash in machine or by hand in warm (not hot) suds 15 to 20 minutes. Use
a disinfectant, following product directions for use. If using an automatic
washer, wash no more than two pillows at one time. If washing by hand, rinse at
least three times in clear warm water. Spin off water or squeeze out as much
water as possible. Do not put pillows through a wringer. Dry in an automatic
dryer at moderate heat setting. Put several bath towels in the dryer with the
pillow to speed up drying. Allow about 2 hours. Or dry pillows in a warm room
on a sweater drying rack with a fan on them. Shake and turn pillows
occasionally to fluff feathers and hasten drying. Or hang pillows on a
clothesline by two corners. Change position end to end and shake occasionally
to fluff feathers and speed drying.
2. If ticking is not in good condition or is stained with red or yellow mud,
wash
feathers and ticking separately. Find or make a bag of light weight, firmly
woven
fabric such as muslin. The bag should be two to three times larger than the
ticking. Open one edge of the ticking.
Radiological Accidents
Radiation is energy in the form of waves or particles and is part of our
everyday lives. Our planet receives radiation from outer space and from the
sun. Other naturally occurring radioactive materials are present in the soil,
in the structures where we live, and in the food and water we consume. These
natural forms of radiation are referred to as "background radiation."
Radioactive materials also are a source of fuel for nuclear power plants.
While the history of such plants in the United States has been generally safe,
residents living near power plants should know what preparations and responses
are appropriate to take in the event of a radiological accident. In addition
to the information in this section, also refer to the General Family
Preparedness section.
Radiation Types
The three basic forms of radiation are:
1. Alpha particles can be stopped by a single sheet of paper or a few layers
of dead skin. Therefore, alpha radiation is not an external hazard. However,
if the
source of radiation is within the body, it is the most serious hazard, because
of
alpha radiation's greater biological effects on live tissue.
2. Beta particles can be stopped by a few layers of clothing, 10 feet of air or
a
half-inch of tissue. If beta particles are retained in the skin, they can
damage
living cells by causing severe skin or eye burns. They also can damage cells
in the digestive tract if particles are ingested with food or water.
3. Gamma rays are similar to x-rays and are the major radiation of concern in
radiological environments. Gamma rays are deeply penetrating and can damage
body cells. Although all cells are subject to damage, bone marrow cells and
cells in the intestinal lining seem to be particularly sensitive. Gamma rays
can be shielded to acceptable levels by sufficient amounts of materials.
Radioactive materials can be released in the form of particles or gases.
Both are spread by the wind. The farther the particles travel, the lower the
concentration of radioactive material. Contamination is an undesired presence
of radioactive materials. In an accident that releases radiation into the
environment, people, farm equipment, animals, crops and the soil can become
contaminated. In addition to the following procedures, homeowners and
agricultural producers also should refer to the section on General Family
Preparedness.
Preparing for a Nuclear Power Plant Accident
1. If you live near a power plant, familiarize yourself with the terms used
to describe a nuclear emergency. Notification of unusual event means a small
problem has occurred at the plant. No radiation leak is expected. No action
is necessary on your part. An Alert means a small problem has occurred and
small amounts of
radiation could leak inside the plant. You should not have to do anything.
A site area emergency is a more serious problem. Small amounts of radiation
could
leak from the plant. Area sirens may be sounded. Listen to your radio or tele
vision for safety information. A general emergency is the most serious
problem. Radiation could leak outside the plant and off the plant site. The
sirens will sound. Tune to your local radio or televistall sirens and other
warning systems to cover a ten-mile area around the plant. Obtain public
emergency information materials from the company that operates your local
nuclear power plant or from your local emergency services office.
What to Do in a Nuclear Power Plant Emergency
1. Keep calm. Not all incidents result in the release of radiation.
2. Stay tuned to local radio or television. Specific instructions will be given
by
authorities. Local instructions should take precedence over any advice given in
this handbook.
3. Evacuate if you are advised to do so. See the section on Evacuation
Procedures in the General Family Preparedness section. Keep car windows and
vents closed; use
reecirculated air.
4. If you are not advised to evacuate, remain indoors. Close doors and windows.
Turn off the air conditioner, ventilation fans, furnace and other air intakes.
Go to a basement or other underground area if possible. If you must go
outdoors,
cover your nose and mouth with a handkerchief.
5. Do not use the telephone unless absolutely necessary. All lines will be
needed for emergency calls.
6. If you have just been outdoors, take a thorough shower. Change your clothes
and
shoes. Put the items you were wearing in a plastic bag. Seal the bag and store
it
out of the way. Clothes can later be washed as you normally would in the
washing
machine. Any contamination would remain in the water and not contaminate the
washing machine.
7. Put food in covered containers or in the refrigerator. Food not previously
in
covered containers should be washed first.
Safety of Home Gardens After a Nuclear Accident
1. Test homegrown produce for radioactive contamination before it is consumed.
2. If you work outside make sure you: Wash hands thoroughly before eating.
Wear protective clothing that covers all portions of your body while outside.
Remove outer clothing before you go inside. Wear a dust mask or a folded, damp
cloth over your nose and mouth while you work. Avoid dust-producing activities
as much as possible.
Recovering Losses and Expenses from a Nuclear Accident
1. Nuclear power station operators are required to have insurance to cover
damages
suffered by the public. Additional living expenses, loss of farm or business
income, and physical or property damage are covered.
2. The Federal Emergency Management Agency also may provide funds for temporary
housing and home repair, as well as other types of assistance. See the section
on
General Family Preparedness for post-disaster assistance information.
Special Considerations for Agricultural Producers
In addition to the precautions and responses covered in the previous pages, the
agricultural producer will want to consider the following measures.
What to Do in a Nuclear Power Plant Emergency
1. Shelter livestock and give them stored feed if advised to do so by
authorities.
Some farm buildings provide better protection than others because of heavy
construction. Placing earth, hay, sacked feed or fertilizer, concrete blocks
or
other materials around exposed shelter walls will increase shielding
effectiveness. Make sure that adequate ventilation and wood lots offer some
protection. Cattle could be penned in cattle underpasses or bridges if
available. Cattle confined in pens shelter each other to a limited extent.
Move dairy cattle and goats indoors first because radioactive material easily
transfers to milk.
2. Do not add water to covered storage unless it is from a protected source.
3. Protect standing water by covering the surface at the outset of an
emergency.
4. Cover feed to protect it from falling particles. Protect haystacks in an
open
field with tarpaulins, plastic sheets or similar coverings.
5. Poultry are somewhat more resistant to radiation than other farm animals.
Confined shelters and use of stored feed also lower concern of
contamination.
The same feed, water and shelter ventilation measures taken for livestock
should be followed to reduce the likelihood of contaminated egg and
poultry
products.
6. Swine care should follow the steps taken with other livestock. Water is a
primary necessity for hogs, so sure the source is protected.
Animal Care After a Nuclear Accident
1. Limit the use of feeds to those under cover or protected from
contamination.
Grain in permanent indoor storage, hay in a barn and silage in a covered
silo
may be considered protected. Rolled bales of hay should be used only when
absolutely necessary, and only if the outer layers are removed and
discarded.
Do not let animals graze until you are notified that forage in your area
is
safe. If grazing cannot be avoided, supplementing it with protected feed
will
limit ingested contamination. If no stored feed is available, animals can
survive on water for a period. Make a special effort to prevent dairy
animals
from becoming contaminated by providing clean food and water. If possible,
prevent cattle from drinking from ponds, lakes, rivers and streams. Spring
and
well water should be free of contamination.
2. If you have been evacuated and your absence is longer than the protected
feed
sources will last, emergency officials may allow you to reenter the area.
You must conform to rules regarding emergency workers, including the use of
protective equipment and instrumentation and limitation of stay.
3. It is unlikely that even a worst case event would cause the death of any
animals. Any unexplained illness or death would more likely be the result of
changes in routines of livestock feeding and patterns of grazing. In the
event
of death or illness of an animal contact your State Department of
Agriculture or
County Extension agent immediately to assist in diagnosis of the problem.
4. Soap and water will remove contamination from animal hides.
5. Wear protective clothing similar to that used in pesticide application.
Recovering Exposed Fruits, Vegetables and Soils
1. Fruit and vegetables may be externally contaminated by radioactive
particles.
normal washing of leaves, pods and fruits that are surface contaminated is
effective in removing contamination. Washing should be done in a place
other
than the kitchen to prevent contamination of foods and dishes.
2. Underground crops absorb little radiation. Standard removal and disposal
may
be necessary. Planting alternative crops such as cotton or flax instead of
food crops may be recommended in some situations. Deep plowing will remove
radioactive substances below the plant root level and prevent plants from
taking up contaminated substances.
Monitoring Fish and Marine Life
1. Fish and marine life in ponds may be harvested unless officials determine
they
are contaminated.
2. Samples of water, fish and marine life from open bodies of fresh and
saltwater
should be analyzed for contamination.
Marketing Animals and Products
1. A buffer zone, called a Food Control Area, will be established around land
which may be contaminated.
2. State emergency officials will monitor milk on farms and at points on its
way
to market. You will be notified if sampled milk contains radioactive
materials.
Milk should be safe if it is from dairy animals that have been adequately
sheltered and protected. There may be delays in milk pickups which will
require holding milk for longer periods of time. Be prepared to provide
alternate storage or some milk may have to be discarded.
3. Do not destroy animal foods unless storage has made them inedible.
4. Livestock that have been exposed to external contamination can be used for
food if they have been washed well and monitored by authorities prior to
slaughter.
Meat animals that have internal contamination cannot be slaughtered until
officials advise that it is safe to do so.
Tornadoes
Tornadoes are nature's most violent storms and can leave an area
devastated in seconds. A tornado appears as a rotating, funnel
shaped cloud, striking the ground with whirling winds of up to 200
miles per hour or more. A tornado spins like a top and may sound
like a train or an airplane. Although tornadoes usually travel for
up to 10 miles before they subside, 200-mile "tornado tracks" have
been reported. Tornadoes can strike any time of the year and often
accompany hurricanes. In addition to those measures listed in the
General Family Preparedness section, also use the following tornado
preparedness and response measures.
How to Prepare for a Tornado
1. Know the tornado season for your area.
2. Learn to recognize severe weather signs. Tornado weather is usually hot
and humid with southerly winds.
3. Know what a tornado looks and sounds like.
4. Know what a tornado watch or warning is:
A Tornado Watch indicates that weather conditions may cause tornadoes or
severe thunderstorms to develop in or near the watch area. A watch does not
mean a
tornado has been sighted. A Tornado Warning means that a tornado has actually
been
sighted or indicated by radar and residents should take shelter.
Special Precautions for Mobile Home Dwellers
1. When you purchase a mobile home, look for built-in safety features:
Factory installed anchoring strapscate your home so the small end
is directed into the direction of prevailing winds, reducing
surface exposure to wind impact.
2. Encourage your neighbors to tie down, too. An unanchored mobile home blown
into your home can cause extensive damage.
3. Have your mobile home blocked properly. Open concrete blocks are less
expensive but are never good enough.
4. Make sure you purchase approved tie-downs.
5. Skirting your mobile home will help protect underneath the home from
moisture and winter weather, as well as reduce soil heaving caused by soil
thawing and freezing during winter months. Soil heaving destabilizes the
mobile home, requiring retightening of the tie-downs.
6. Be aware of where designated tornado facilities or shelters are.
What to Do During a Tornado Warning
1. When a tornado has been sighted, stay away from windows, doors and outside
walls. Protect your head from falling objects or flying debris. Take cover
wherever you are. In a house or small building, go to the storm cellar or
basement. If there is no basement, go to an interior part of the structure on
the lowest level (closets, interior hallways). In either case, get under
something sturdy (such as a heavy table) and stay there until the danger has
passed. In a school, nursing home, hospital, factory or shopping center, go to
a designated shelter area. Stay away from windows and open spaces. In a
vehicle, trailer or
mobile home, get out immediately and go to a more substantial structure.
If there is no shelter nearby, lie flat in the nearest ditch, ravine or culvert
with your hands shielding your head.
2. Do not attempt to flee from a tornado in a car or other vehicle.
Responses After a Tornado
1. Use great caution when entering a building damaged by high winds. Be sure
that walls, ceiling and roof are in place and that the structure rests firmly
on
the foundation.
2. Look out for broken glass and downed power lines.
Inspecting Buildings for Hidden Wind Damage
1. Check the roof for:
Missing or damaged shingles. Loose nails on metal roofing. If nails don't
hold when hammered back in, use #12 or #14 metal screws to fill old nail holes.
Potential leaks that could indicate structural separation. This is more
easily
checked for on sunny days.
2. Inspect the foundation to make sure that joints where the foundation and
wall meet haven't separated. On stone or concrete foundations, check to see
that plate
bolts have not worked loose.
3. Inspect the interior of buildings for structural damage. Using a good light,
check the framing. Look for ridge separation, loose knee braces and loose
rafters where the rafters join the walls.
Special Considerations for Agricultural Producers
In addition to those tornado concerns listed previously, agricultural
producers should inspect silos for hidden wind damage. Make sure the silo is
still plumb. Look for loose hoops. Inspect the base of metal silos inside and
out for hairline cracks. Remove any rust around the base with a wire brush.
Look for new cracks in the plaster of empty concrete stave silos.
Volcanic Eruptions
Volcanic ash can be harsh, acid, gritty, glassy and smelly. While not
immediately dangerous to most adults, the combination of acidic gas and ash
which may be present within miles of the eruption can cause lung damage to
small infants, very old people or those suffering from severe respiratory
illnesses.
Preparing for a Volcanic Eruption
1. Follow the information located in the General Family Preparedness section of
the Handbook.
2. Be familiar with terms associated with a volcanic eruption. Volcanic ash
usually is erupted into the air above the volcano and then is carried downward
along with volcanic gases. Pieces of ash may range from dust sized particles
to pieces of rock. Ash can overload roofs, corrode metals, cause fabrics to
decompose, clog machinery, block drains and water intakes and injure or kill
vegetation. Lava flows are streams of molten rock from a vent or from a lava
fountain. Volcanic gases associated with active volcanoes are water vapor,
carbon dioxide, hydrogen sulfide, hydrogen, helium, carbon monoxide and
hydrochloric acid.
People with respiratory problems and heart disease are especially susceptible
to
volcanic gases. Gases rarely reach populated areas in lethal concentrations,
although sulfur dioxide can react with the atmosphere downwind and fall as acid
rain. Pyroclastic flows and surges are mixtures of hot rock fragments that
sweep away from their source at hurricane velocity. Because of their high
speed and
temperature, pyroclastic flows and surges kill or destroy virtually everything
in their path. Volcanic landslides are not always associated with eruptions;
heavy rainfall or a large earthquake can trigger landslides on steep volcanic
slopes.
3. Check with your local emergency management agency to locate hazard maps of
your area. Areas that could be endangered by volcanic ash, pyroclastic flows,
lava flows and mud flows are identified in these maps.
During a Volcanic Eruption
1. Do not visit the volcano site; you could be killed by a sudden explosion.
2. If ash is being expelled, avoid areas downwind from the volcano. A
building offers good shelter from volcanic ash but not from lava flows and rock
debris.
3. Be aware of flying rocks and mudflows. The danger from a mudflow increases
as you approach a stream channel and decreases as you move away and toward
higher
ground. Mudflows can move faster than you can walk or run. Look upstream before
crossing a bridge, and do not cross if the mudflow is approaching.
4. If ash is falling, stay indoors until the ash has settled.
5. During an ashfall, close doors, windows and all ventilation in the house.
6. Remove ash from flat or low pitched roofs and rain gutters to prevent thick
accumulation.
7. Avoid driving in heavy dust conditions unless absolutely required. If you
must
drive in dense dust, keep speed down to 35 mph or slower.
8. Avoid driving in heavy dust conditions unless absolutely required. The more
dense the dust, the more urgent the requirement should be for driving.
9. When required to drive in dense dust, keep the speed down to 35 mph or
lower.
Do not follow too close to cars in front of you. Use headlights on low beam.
10. Change oil often. In very dense dust, change at 50- to 100-mile intervals.
In light dust conditions, change oil at 500- to 1000-mile intervals. Lubricate
all
chassis components at each oil change.
11. Clean air filter by backflushing filter paper with compressed air (30 psi).
CAUTION! Blow element from inside (clean side) to outside (dirty side).
DO NOT strike filter against anything. If you are unsure, have a qualified
mechanic perform the air filter service.
12. Cover passenger compartment vent inlet (located at base of windshield and
usually under hood) with thick, loosely woven, felt-type material to filter air
into vehicle. With vent filter in place, keep heater blower on high. The
blower
will slightly pressurize the inside of the vehicle and keep dust from entering
through body gaps or holes. If a vent filter is not installed, keep air
conditioner
and heater blowers off.
13. Have a service garage clean wheel brake assemblies every 50 to 100 miles
for
very severe road condition, or every 200 to 500 miles for heavy dust
conditions.
14. Have a service garage clean alternator winding with compressed air after
heavy
dust accumulation or every 500 to 1,000 miles of severe dust exposure.
15.Wash the engine compartment with a garden hose or steam cleaner. Be sure to
seal off air intakes and electrical components before cleaning.
16. Commercial truck filters can be installed to increase the filtering
capacity of the air cleaner. However, this is expensive and should be attempted
only by
trained garage mechanics or experienced personnel. This would be beneficial for
vehicles operating continuously in extreme dust conditions.
Winter Storms
Winter storms can strike any area. Even areas that normally experience mild
winters can be hit with a major snowstorm or extreme cold. The results can be
isolation from power outages, blocked roads and cars trying to maneuver
ice-covered highways. Everyone needs to be prepared to protect themselves from
the hazards of winter weather-blizzards, heavy snow, freezing rain and sleet.
Preparing for Winter Storms
1. Being familiar with terminology used by the Weather Service will help you
know what to expect when weather warnings are issued. The following terms are
used
frequently in winter weather releases: Freezing rain occurs when temperatures
are
below 32 degrees F and rain freezes on impact. This causes an ice coating on
all exposed surfaces. If the coating is heavy, falling trees or wires can be
additional hazards. Freezing rain or drizzle is called an ice storm when a
substantial glaze layer accumulates. In some parts of the country, ice storms
are called "silver thaws" or "silver frosts." Sleet is frozen rain drops (ice
pellets) which bounce on surface impact. Sleet does not stick to objects, but
sufficient accumulation can cause dangerous driving conditions. Travelers'
advisory means that falling snow and/or drifting snow, strong winds, freezing
rain or drizzle will make driving hazardous.
Heavy snow warnings are issued when 4 or more inches are expected during a
12-hour
period, or when 6 inches or more are expected during a 24-hour period. Blowing
and
drifting snow result from strong winds. Blowing, falling snow or loose snow
on
the ground can produce sizeable drifts. Blizzard warnings are issued when
wind
speeds of 35 miles per hour or more are expected with blowing or drifting
snow.
Snow squalls are brief, intense snowfalls accompanied by gusty surface winds.
Wind
chill factor is the combined effect of wind and cold. A very strong wind
combined
with a temperature below freezing can have the same chilling effect as a
temperature almost 50 degrees lower with no wind. Anyone who is outdoors
and exposed to low temperatures and strong winds will be more easily
exhausted and
more subject to frostbite or death.
° = temperature in degrees Fareneheit
Temp. Wind 15 mph 30 mph 40 mph
30F 11°F -2°F -4°F
20°F -5°F -18°F -22°F
10°F -18°F -33°F -36°F
0°F -33°F -49°F -54°F
-10°F -45°F -63°F -69°F
-20°F -60°F -78°F -87°F
-30°F -70°F -94°F -101°F
-40°F -85°F -109°F -116°F
Pay attention to weather forcasts and plan accordingly. Include food that
needs no cooking in case of power failure. If power is out, keep your
refrigerator
and freezer doors closed as much as possible. Prevent fires by not
overheating your stove, heater or furnace. Don't leave fireplaces unattended.
Stay indoors
during cold snaps and storms unless you are in top physical condition. If you
must
go out, don't overexert. Be particularly careful when shoveling snow. Heart
attack
is a common cause of death during and after winter storms. Remember that cold
winds and temperatures put extra stress on your body even if you are in good
condition. Wear several layers of loose-fitting, lightweight, warm clothing.
Layers of clothing trap warm air close to your body. You can remove clothing to
prevent perspiring and subsequent chill. Outer clothes should be tightly
woven,
water repellent and hooded if possible. Cover your mouth to protect your lungs
from
extreme cold. Get your car winterized before the cold season. Use snow tires
or
chains. Keep the fuel tank filled to prevent water from getting into the fuel
and
causing the engine to stall. If you must travel when bad weather is forecast,
be
sure someone knows where you are going and the time you expect to arrive.
Travel
with someone else if at all possible. Blizzards may require long periods of
isolation.
If you need outside help during this time, you should know the following
emergency
distress signals to signal aircraft:
Need doctor . . . . . . . . . . . . . . . . . . .I
Need medical supplies . . . . . . . . . . . . . II
Need food and water . . . . . . . . . . . . . . .F
Need fuel . . . . . . . . . . . . . . . . . . . .L
International distress signal .. . . . . . . . . .SOS
Make these signals on the ground where they will be clearly visible from the
air.
The letters should be at least 10 feet tall. Use black cloth or plastic, hay,
boards or other material readily visible on the white snow. If no materials
are
available, tramp the letters into the snow, deep enough to create as much
shadow as
possible.
Notes:
Special Considerations for Travelers
When traveling any distance by car during the winter, observe these
safety precautions:
1. Before you leave, have your car checked. A thorough winterizing check
should
include:
Ignition system,
Battery Lights,
Snow tires installed,
Cooling system
Fuel system
Exhaust system
Heater Brakes
Wiper blades
Defroster
Tire chains and tow chains
Antifreeze Winter-grade oil
2. Select alternate routes before you leave, in case your preferred route isn't
passable.
3. Listen to the radio as you travel and heed latest weather information.
4. Seek shelter immediately if the storm seems severe.
5. Try not to travel alone during a storm. Two or three people are better than
one
because they can help each other. Travel with another car if possible.
6. Make sure someone knows where you are going, when you leave, the time you
expect to
arrive and your expected route.
7. Always fill your gas tank before entering open country, even for short
distances. You
will be less likely to be stranded from running out of gas. In case you are
stranded
by the storm, you will have enough fuel to run the motor and heat the car.
8. Drive defensively.
9. Carry a winter storm car kit. This should include:
additional batteries, Windshield scraper, Booster cables, tow chains,
Fire extinguisher, Catalytic heater, Axe, Plastic scraper, Transistor
radio with extra battery, Tools like pliers, screwdriver, adjustable wrench,
Flares,
Winterizing Mobile Homes
1. Inspect the roof for leaks and cracks. Water can seep through to damage
ceilings, interior panels or furnishings. When making inspections or repairs,
do not walk on the roof unless it is absolutely necessary. Most repair work
can be done from an extension ladder. Be careful not to lean to the side of
the ladder when making repairs. Instead, move the ladder to the work area.
2. Check locked or lapped roof seams for loose screws, spreading, parting or
buckling. Add new screws if necessary, and cover all seams with roof coating or
asphalt-base paint.
3. Check stacks and vents for cracks, and make sure they are free of debris.
4. Check the flashing for loose screws and separation from the roof. Water
can freeze between loose flashing and the roof, causing damage when it melts.
If necessary, attach flashing to roof area with a liberal coat of caulking and
extra sheet metal screws. Then coat screws and flashing area with roof coating
or paint.
5. Check to see that molding is secure where roof meets exterior walls.
6. Check total roof surface for cracks, breaks, rust or oxidation. Scrape or
wire brush rusted seams and recoat entire roof.
7. Provide at least one front and rear circulation vent and two side
circulation vents when installing skirting. Keep vents free from obstructions.
Allow for frost and Ground expansion. Do not apply skirting tight against the
ground or tight against the bottom of the unit. Without expansion room, frozen
ground can heave the skirting against interior panels, causing wall to buckle.
8. Clean or change furnace filters as recommended by manufacturer. Collected
dust can be pulled into the motor, causing it to overheat. Some filters can be
cleaned with a Vacuum cleaner; some should be washed in a detergent solution;
and others require replacement. Follow manufacturer's instructions for
cleaning, oiling and replacing parts.
9. During the summer months when the heater is not used, keep the fuel tank
full to prevent condensation and rusting. Use only No. 1 fuel oil or kerosene
in the outside fuel tank. No. 2 fuel oil can be used in underground tanks.
Never add gasoline or naptha to the fuel oil.
10. If the mobile home is not positioned on concrete pads, frozen ground may
cause it to heave or rise. This could make the doors stick. To correct this,
turn the jack handle on the front hitch, raising the front as needed. Reverse
the jack handle when the ground thaws in the spring and the unit settles again.
11. During sub-freezing temperatures give extra protection to water systems,
especially if the unit is not set on a permanent sub-surface heated basement.
Skirting will help reduce some possibility of freezing damage, but will
probably
not eliminate the problem. On most modern units, pipes leading from the
underground pipe connection to the faucets are protected within the floor
system. You will need to protect only the exposed pipes. Use electric heat
tape equipped with a thermostat. This material is available at most hardware
outlets , and when installing the pipetape, keeping it snug against the pipe.
In general, three turns per foot of pipe (a spacing of about 4 inches between
spirals) is adequate. Apply friction tape at 12- to 16-inch intervals to hold
the heat tape in place. Wrap heat tape over the full length of the water pipe
from the floor to below frost level. The heat tape should not touch itself at
any point because hot spots could develop, causing failure of the tape. Place
insulation around the pipe to save electricity. Inch-thick, pre-foamed pipe
insulation with a waterproof coating is recommended. Tape all joints with a
waterproof tape or seal them with adhesive. Be sure the thermostat is also
covered with insulation. Plug the heat tape cord into an electrical outlet when
cold weather arrives.
12. Freezing problems sometimes occur in mobile home drainage systems,
especially when drain pipes below the floor are installed with very little
slope. To help prevent damage from freezing: Fix leaky faucets. When water
flow in drain pipes is very slow (as from a dripping faucet) the water in the
pipeline may freeze. This is especially true if faucets drip overnight. Check
toilet tanks. Water running or dripping in the toilet tank could cause sewer
lines to freeze. Install electric heating tape on the drain line. Drain pipes
are less susceptible to freezing than pipes in a potable water system, so a
single strand of heat tape taped to the bottom of the drain line usually will
prevent freezing problems. Install insulation over the heat tape. Hold the
eave in place with friction tape at 12-inch intervals. Be sure the thermostat
is held securely to the pipe and is covered with insulation. Use preformed
pipe insulation with a waterproof cover. Tape all joints in the insulation
with waterproof tape.
Winterizing Residential Buildings
When winterizing your house, check each of the following items.
Repair as necessary.
Roof
1. Check for broken, damaged or loose shingles; small holes; and loose nails.
2. Check flashing around all dormers, vent pipes, chimneys and any other
projections where the roof covering meets an adjoining surface.
Gutters and downspouts
1. Clean out leaves, dirt and debris.
2. Paint any rusty gutters.
3. Check supports.
Exterior
1. Repair cracks in stucco or masonry walls.
2. Spot repair and paint any defective areas to prevent damage from freezing
and thawing.
Windows and doors
1. Check weather-stripping around windows, doors and between foundation and
siding. Replace where needed.
2. Check metal weather-stripping for dents, bends, breaks, loss of tension or
other damage that could make it less effective.
3. Repair and paint storm windows if necessary.
Heating system
1. Have a qualified serviceman clean and check your furnace, replacing
necessary parts. Furnace check should include:
Fan belts check for proper tension, cracks or wear.
Motors and bearings oil units equipped with oil parts.
Filters clean or install new filters. Fiberglass filters will need to be
replaced because they lose their effectiveness if cleaned and re-used. Hot and
cold air registers vacuum if necessary. Humidifier (if part of furnace) remove
scale, lime deposits and corrosion. Check float valve and evaporator plate.
2. Remove air conditioner for winter storage. Cover with dust-proof cover.
If air conditioner is left in the window, install a weather proof cover and
seal the space around the unit.
Driveways and sidewalks
1. Clean and repair cracks, fissures and joints in concrete surfaces.
2. Upgrade gravel driveways.
3. Repair cracks or fissures in asphalt drives. Seal with asphalt
topcoating.
Preparations to Reduce Heat Loss from Buildings
1. Install overhead and sidewall insulation. Adequate insulation is one of
the most important factors in reducing heat loss and will increase the comfort
of your home in both summer and winter.
Under most conditions you need the equivalent of 6 inches of fiberglass
thermal insulation over your top floor ceiling; 3? or 4 inches of sidewall
insulation is also recommended.
2. Weatherstrip and caulk around all joints and frames of windows and doors.
3. Install storm windows and doors or insulating glass. Storm windows can
result in a 10 to 20 percent reduction in heating costs. If buying storm
windows is not practical (as when renting), tape clear plastic to the window
frame.
4. Clean and change furnace filters regularly. Have furnaces checked and
cleaned by a qualified repairman once a year. Clean and replace air filters
when they become loaded with dust or lint.
5. Close window draperies at night. Regular draperies reduce heat loss
slightly; insulated draperies cut down heat loss even more.
6. Seal as tightly as possible any openings which may permit cold air leakage
from the attic. Leakage is likely to occur around attic stairway doors,
pulldown stairways, electric light fixtures, ceiling fans, air ducts and
plumbing vents or pipes. Air leakage from the attic not only increases heat
loss but also increases the possibility of moisture condensation in the attic.
Condensation can wet insulation and building materials, eventually causing
structural damage and reducing the effectiveness of the insulation.
7. If your basement is heated, close off upper wall construction that is open
to the attic. However, be sure to provide exterior vents into the wall cavity.
8. Repair leaking hot water faucets. Leaky faucets waste both heat and
water.
9. Close fireplace dampers when they are not in use. This will keep heated
air from the chimney.
What To Do During a Home Power Failure
During severe winter storms, your home heating system could be inoperative
for as long as several days. To minimize discomfort and possible health
problems during this time, take the following steps:
1. Conserve body heat.
2. Put on extra clothing. If cold is severe, your bed may be the warmest
place. Extra blankets and coverings will trap body heat. This is a good way to
keep children warm. Farm families might consider taking refuge in the relative
warmth of the livestock barn.
3. Find or improvise an alterric heater, Gas-fired hot water heater, or other
heater
4. Provide fuel. Common fuel materials include:
Furnace coal
Canned heat Furnace oil
Wood chips
Campstove fuel
Alcohol
Newspapers, magazines
Charcoal lighter fluid
Kerosene, gasoline
Straw
Firewood
Corncobs
You can burn coal in a fireplace or stove if you make a grate to hold it,
allowing air to circulate underneath. "Hardware cloth" screening placed on a
standard wood grate will keep coal from falling through. Tightly rolled
newspapers or magazines can be used for paper "logs." Before burning the
"logs," stack them properly to allow for air circulation. Consider burning
wood, including lumber or furniture, if the situation becomes critical.
CAUTION: Do not store fuels in the heated area because of fire danger,
especially if you have highly combustible materials such as gasoline or
kerosene.
What To Do During A Home Power Failure
5. Select a room to be heated. To increase efficiency of available heat,
close off all rooms except the one to be heated. When selecting a room or area
to be heated, consider the following:
If using a vented stove or space heater, select a room with a stove or
chimney flue. Confine emergency heat to a small area. Try to select a room on
the "warm" side of the house, away from prevailing winds. Avoid rooms with
large windows or uninsulated walls. Interior bathrooms probably have the
lowest air leakage and heat loss. Your basement may be a warm place in cold
weather because the earth acts as insulation and minimizes heat loss. Isolate
the room from the rest of the house by keeping doors closed, hanging bedding or
heavy drapes over entry ways, or by erecting temporary partitions of cardboard
or plywood. Hang drapes, bedding or shower curtains over doors and windows,
especially at night.
6. Provide adequate safety measures. Safety is of prime importance in a
heating emergency. Your chances of freezing to death in your home are small.
Fire, asphyxiation from lack of oxygen, or carbon monoxide poisoning are much
greater dangers unless you take adequate safety precautions. Do not burn
anything larger than candles inside your home without providing adequate
ventilation to the outside. Any type of heater (except electric) should be
vented. Connect the stove pipe to a chimney flue if at all possible. (Many
older homes have capped pipe thimbles in rooms once heated by stoves.) Or hook
up your stove to the flue entrance of the nonfunctioning furnace pipe (after
removing the pipe). Sometimes a stovepipe can be extended through a window if
no other alternative exists. Replace the window glass with a metal sheet, and
run the temporary stovepipe through the metal. Do not run emergency stovepiping
close to flammable materials. Be particularly careful with window-mounted
flues. The wood sash, curtains and shades are especially flammable. If you use
a catalytic or unvented heater, provide plenty of ventilation in the room.
Whenever the device is in use, cross ventilate by opening a window an inch on
each side of the room. It is better to let in some cold air than to run the
risk of carbon monoxide poisoning. Do not burn outdoor barbecue materials such
as charcoal
briquets inside even in ventillated areas as your resources are used. One
person
should stay awake to watch for fire and to make sure ventilation is adequate.
If the firewatch feels drowsy, it may be a sign of inadequate ventilation. Keep
fire fighting materials on hand.
Responses to Other Heat Loss Problems
During a power failure, keeping warm will be a major problem. However,
several other related heat loss problems also should be considered.
1. If it seems likely that the heat will be off for several hours in below
freezing temperatures, protect exposed plumbing. Drain all pipes (including hot
water heating pipes) in any rooms where temperature falls below 40°F. You may
need to drain only portions of your system. Drain the sink, tub and shower
traps, toilet tanks and bowls, hot water heater, dish and clothes washers,
water pumps and furnace boiler.
2. If your water pump is electrically powered, a power outage could restrict
your water use. Save as much water as possible when you drain the system. Store
the water in closed or covered containers, preferably where it will not
freeze. You may use water from your hot water heater and toilet tanks (not the
bowls) for drinking and household use. Water from the heating system will be
unfit for drinking or other household use.
3. Keep on hand a good supply of candles, matches and at least one kerosene
or gas lantern with ample fuel. Also have a dependable flashlight with spare
bulbs and batteries.
4. If your water supply is shut off, sanitation will become a problem. Flush
the toilet only often enough to prevent clogging. (Disconnect the chain or
lever attached to the toilet handle to prevent children from flushing.) Provide
covered containers for disposing of toilet paper. A portable camper's toilet
might be useful.
5. Camp stoves or fireplaces may be used for cook stoves in an emergency.
Meal-in-a-can foods such as stews, soups, canned meats, beans or spaghetti
require little heat for cooking, and some can be eaten without cooking.
Cereals, breads, dried meats and cheese are other "no cook" possibilities.
Freeze-dried meals used by campers and backpackers can be prepared with a
minimum of heat.
Protecting Your Hot Water System During A Winter Storm Power Failure
1. If you think the heat will be off several hours or more during below
freezing temperatures, you will need to keep exposed heating pipes from
freezing. This can be done by circulating water through the pipes or adding
antifreeze to
the system.
2. If electrical power is available, keep the circulator pump going. Moving
water does not freeze readily. However, if the room temperature drops to below
40°F, you probably should begin to drain the pipes.
3. Most hot water heating systems are not easily drained. Pipes may have to
be disconnected to drain low points. Open the vents on radiators to release
air so pipes can drain.
4. Consult a heating contractor about adding antifreeze to your system.
Antifreeze is poisonous and must not be allowed to get into the drinking
water system. Make sure the house water system and the boiler water system
are not connected. Use only antifreeze containing ethylene glycol. Do not
use antifreeze containing methanol. (Methanol vaporizes readily when heated,
and could cause excessive pressure in the system.) Make sure the antifreeze
does not contain leak-stopping additives. These may foul pumps, valves, air
vents and other parts.
Protecting Your Plumbing System During A Winter Storm Power Failure
1. Shut off the water at the main valve, or turn off the well pump if it is
in the house.
2. Drain the pressure tank.
3. Open all faucets until they drain completely! Some valves will open only
when there is water pressure. If so, remove the valve from the faucet.
4. Drain the entire system by disconnecting pipe unions or joints as close to
the main valve as possible. You may use compressed air to blow water from
pipes.
5. Insulate undrainable pipes around their main valves. Use newspaper,
blankets or housing insulation.
6. Drain toilet flush tanks and spray hoses controls. Lay the softener tank
on
its side to drain as much water as possible. Also drain controls and tubing on
brine (salt) tank. A brine tank itself will not be harmed by freezing.
Protecting Your Sewage System During A Winter Storm Power Failure
1. Empty all drain traps by carefully removing drain plugs or by
disconnecting traps.
2. Blow out inaccessible traps with compressed air or add ethylene-glycol
base
antifreeze in an amount equal to the water in the trap (1 pint to 1 quart
is
sufficient, depending on the size of the trap).
3. Check kitchen sinks, bathroom sinks, bathtub drains, toilets, washtubs,
showers, floor drains and sump pumps.
Protecting Appliances During A Winter Storm Power Failure
1. Disconnect the electric power or shut off the fuel to all water-using
units.
2. Shut off the water supply and disconnect the hoses if possible.
3. Drain all water-using appliances.
4. Check the water heater, humidifiers, ice-making unit of the refrigerator,
washing machine and the dishwasher. Do not put antifreeze in these appliances.
Close valves to the furnace, water heater and dryer.
Preventing Ice Dams on Eaves
Ice dams along eaves may cause considerable damage to the roof and inside
walls of a house. Poorly insulated roofs are the chief cause of ice build-up
on eaves. Ice forms when the snow melts off a warm roof, runs down to the eave
line, and refreezes there. Ice in the eave trough prevents water from running
off freely. If water backs up high enough, it may seep under shingles and down
into the house. Sometimes it leaks through plaster walls and ceiling. Ice dams
are usually a problem only on cold days when the roof is warmer than the eave
overhang. On warm days the snow melts at the same rate on the eaves and water
runs off freely.
To prevent ice dams:
1. Insulate between the top floor ceiling and the attic, or along the
underside of the eaves if the attic is used as living space. Insulation also
will help cut fuel cost.
2. Ventilate the attic through windows and louvers when insulation is added
to the attic floor. This will help reduce moisture condensation in the attic.
3. Use electric heating cables along the eaves if insulation or ventilation
is not possible. Cables can be strung out along the edge of eaves. When
plugged in, they will heat the area, melt any ice already formed and prevent
further freezing when water drips off the roof. Be sure cables are approved for
the intended use by the Underwriters Laboratory. Check with your electrician
for correct installation.
4. Do not use salt to melt snow or ice from roof. Salt will rust nails,
damage gutters and downspouts, and ruin next year's lawn.
Responses to Take When Caught Outdoors During A Winter Storm
Hunters, sportsmen or snowmobile riders occasionally become lost or
injured in severe winter weather. Be sure someone knows where you
are going and when you plan to return. Don't travel alone. Dress
properly. If you do become stranded:
1. Remain calm. Don't rush to get out immediately. You can easily become
disoriented and lose your way during a snowstorm.
2. Build a shelter for the night, preferably on the leeward side of brush or
timber. In timber country a lean-to gives good protection. Construct one by
using two "Y" poles for corners and a sturdy cross shaft. Place poles from
cross shaft to the ground and cover with evergreen boughs. In open country
where snow is shallow and the temperature isn't too cold, a snow trench can
provide adequate shelter. "Snow caves" (in snow at least 4 feet deep) provide
the warmest shelter during cold weather. Dig your cave on the leeward side of
a drift. Be sure that you don't locate the opening under an overhanging drift
or in a possible avalanche path. Cover the bottom of your shelter with boughs,
grass or sticks if they are available. Soft, springy boughs are good for a
mattress.
3. Gather a fuel supply that will last throughout the night. Gather fuel while
it is still daylight. Build a fire approximately 2 feet from the shelter, using
a log or piled rocks to reflect the heat. When daylight comes again, be
prepared to increase the size of the fire. Try to produce as much smoke as
possible to signal rescue parties. Extreme cold and over exertion can cause a
heart attack in cold weather conditions.
4. Stay in your car where you are sheltered and more likely to be found. You
can become quickly disoriented when trying to walk around in blowing snow.
5. Stay calm.
6. Keep fresh air in your car. Freezing wet and wind-driven snow can seal the
passenger compartment and suffocate you. Keep the downwind window open about an
inch when you run the motor and heater. Be sure snow has not blocked the
exhaust pipe.
7. Exercise from time to time by clapping hands and moving arms and legs
vigorously. Don't stay in one position long.
8. Keep the dome light on at night to make the car visible to snow plows or
rescue crews.
9. Have one person keep watch. Don't allow everyone in the car to sleep at
once.
10. In a snowstorm, automobile parts can sometimes be used for emergency tools:
A hubcap or sun visor can be used as a shovel. Seat covers can serve as
blankets. Floor mats will help shut out wind and cold. Place them against
windows on the upwind side to help reduce drafts. Engine oil burned in a hub
cap creates a smoke signal visible for miles. To light the oil, prime with a
little gasoline or use paper for starter fuel. Signal with the horn. An
automobile horn can be heard as far as a mile downwind.
Special Considerations for Agricultural Producers, Preparing for a Winter Storm
In addition to the precautions and responses covered in the previous pages, the
agricultural producer will want to consider the following measures.
1. Be aware of winter storm terminology. Stockman advisories are issued with
combinations of cold, wet and windy weather, specifically, cold rain and/or
snow with temperatures of 45°F or colder and winds of 25 miles per hour or
higher. If the temperatures are in the mid-30s or lower the wind speed
criteria are lowered to 15 miles per hour.
2. Stockmen also should consider the effect of the wind chill factor on
livestock.
Providing Windbreaks for Livestock Protection
1. Simple shelters, sheds or windbreaks are necessary to protect livestock from
winter storms. Usually, severe cold alone will not affect the performance of
animals on full feed. Wind, however, can be a serious stress factor. A strong
wind has about the same effect on animals as exposure to a sudden drop in
temperature. In general, a 20 mph wind is approximately equivalent to a 30°F
drop in temperature. Under extreme conditions, simple wind and snow protection
devices will not be 100 percent effective.
2. Consider wind and snow as a joint problem when deciding the kinds of
livestock
protection you need.
3. Simple windbreaks, shelters or sheds are essential for livestock protection
from wind and snow.
4. The effectiveness of a windbreak depends on its height and density.
Windbreaks may be natural (trees) or manmade (fences).
5. Cottonwood or poplar trees are relatively ineffective as windbreaks because
of their low branch density. Supplement these trees with thick-growing trees
such as red pines, or with fences.
6. Snow fences can be good substitutes for tree windbreaks which take time to
grow and are not practical under all conditions.
7. Porous fences of 80 percent density offer the best wind protection.
8. Snow will drift through a porous fence. A solid fence keeps most of the snow
outside a yard and provides the best snow barrier, but may direct snow to other
parts of the farmstead. Porous fences can give good snow control if you locate
the fences to allow for the resulting drifts.
9. Swirling and relocation of snow within a farmstead is often the main cause
of drifting problems.
10.Shallow open-front sheds provide excellent shelters for livestock. Such
shelters should have slot openings along the eaves on the back side of the
shelter. These openings will provide ventilation and prevent snow from
swirling into the front of the shed. Plan slot size according to building
width. You should have a 1- to 2-inch opening per 10 feet of building width.
Ridge ventilators also are recommended.
11. Do not attach windbreak fences directly to the front corner of an
open-front shed. Instead, use a swirl chamber arrangement. Attach a separate
short fence to the building. Start the longer fence behind it and away from
the building.
12.Divide long open-front sheds into 20- to 40-foot sections to reduce drafts
and
possible snow build-ups.
13.Locate shelters so that adjacent buildings will not deflect wind and snow
into a shed.
Creating Windbreaks On Your Property
1. On some farms a windbreak may be necessary for protection from strong
winds and blowing snow. A windbreak will: Protect livestock and reduce winter
feed requirements. Help protect homes and reduce fuel use. Help eliminate snow
drifting around farmstead buildings and work areas.
2. Plan the windbreak before you plant. In designing the windbreak you
should consider size and location, tree species, tree spacing and soil
preparation.
3. To give the best protection from wind and snow a windbreak should be:
Located to the northwest of the farmstead L-, U- or E-shaped, with the ends
extending about 50 feet beyond each corner of the area to be protected
At least 50 feet and preferably 100 feet from farm buildings and feedlots on
level land (If your land slopes steeply to the north or west, plant trees
closer to the farmstead, but no closer than 60 feet from the many trees,
especially
evergreens, are susceptible to "nitrogen burning." If any section of the
windbreak is likely to be saturated by barnyard seepage, plan to construct a
ditch or use drainage tile to carry the seepage away from trees.
5. Do not plant windbreaks where they could cause visibility hazards at
intersections.
6. If it is necessary to cross fields, driveways or large ditches with a
windbreak planting, try to make the crossing at oblique angles. This will
prevent direct wind tunnels through the planting.
7. Windbreaks should contain several tree species. A mixture of species offers
Protection against disease, insects and weather damage, and takes advantage
of
differences in growth rates. Both deciduous and evergreen species should be
included, but all trees must have adequate space. Select low, dense growing
shrubs for outside rows. Plant medium sized trees next, and tall growing trees
in center rows. Your choice of species will depend on your needs, climate and
type of soil. Contact your county Extension agent for information about
appropriate windbreak species for your area.
8. Sod, loosely powdered soil or field soil is best for tree planting. In late
summer or early fall, plow heavy soil and soil covered with sod. If the soil
has been deeply plowed and is relatively loose, roll or cultipack it. During
winter months cover light or sandy soils with organic material such as
well-rotted manure. This will increase soil fertility and reduce the
possibility of erosion and moisture losses during winter and early spring. In
dry regions summer fallow the land during the year prior to planting.
Cultivate frequently enough to prevent any weed or plant growth and to keep the
soil in suitable condition for absorbing moisture. If the soil is sandy and
subject to blowing, plant a cultivated row crop such as corn instead of summer
fallowing. Thoroughly disc and harrow the soil just before planting.
9. Do not overcrowd trees. Trees must have adequate space, especially when
deciduous and evergreen species are mixed. Allow at least 20 feet between
deciduous and evergreen species. A five-row planting is recommended for the
most efficient windbreak but if space is limited use fewer rows rather than
overcrowd trees. Properly spaced trees will have increased growth and vigor.
Stagger trees in adjacent rows to offset wide spaces between young trees. Be
sure to allow enough space for operating any necessary maintenance equipment.
10. Plant trees as soon as possible after receiving them. If you must hold
trees for a few days before planting them, unpack them and heel them in until
they are to be planted. Keep roots moist at all times during planting. Plant in
rows according to predetermined plan. For specific planting instructions,
contact a local nursery or your county agricultural Extension agent.
11. Provide protection and care for young seedlings. Protect trees
permanently from poultry and livestock. Protect trees from rodents. Use screen
wire, tree wrap materials or commercial repellents. Inspect trees periodically
for disease or insect damage. To eliminate competition from grass or weeds,
cultivate often cold weather causes additional stress on livestock, increasing
their need for food, water and shelter. To minimize livestock loss during
winter storms, stockmen should:
1. Move stock, especially the young, into sheltered areas. Windbreaks,
properly
oriented and laid out, or timber-covered lowlands are better protection for
range cattle than most shed-type shelters which may overcrowd and overheat
cattle, causing subsequent respiratory disorders. Never close indoor shelters
tightly because stock can suffocate from lack of oxygen. Extremities that
become wet or are normally wet are particularly subject to frostbite and
freezing during sub-zero weather. The loss of ears or tails may be of little
economic significance, but damage to male reproductive organs can impair the
animals' fertility or ability to breed.
2. During severe or prolonged cold weather, animals need extra feed to provide
body heat and to maintain production weight gains. A grain ration that
maintains an animal during the summer may not carry it through the stress of
prolonged or severe cold. Haul extra grain to feeding areas before the storm
arrives. If the storm lasts for more than over 48 hours, emergency feeding
methods may be required. Pelleted cake or cake concentrates make good emergency
feed. Mechanized feeders may be inoperable during power failures unless you
have a source of emergency power.
3. Use heaters in water tanks to provide livestock with enough water. Cattle
cannot lick enough snow to satisfy their water requirements.
Caring for Livestock After a Blizzard
1. Following a blizzard, water will be a crucial need for livestock. Cattle
will not be able to satisfy all of their water requirements by eating snow. In
pastures with severe drifting, water in shallow streams may be absorbed by snow
in the stream bed. Very little, if any, running water may be available for
several days. You may need to haul water to cattle. If water is limited, keep
cattle off salt. Cattle which have been away from feed and water for several
days may overeat salt, causing salt poisoning.
2.When stock cannot be reached by roads, use planes, helicopters or snowmobiles
to provide emergency rations. Feedlot cattle that have gone through a severe
storm or stress period should be put back on feed carefully. Change the ration
gradually from a low to a high proportion of concentrate. Watch your herd
carefully for several weeks following prolonged exposure. Isolate cattle
showing signs of scouring or labored breathing. Keep these animals in a dry,
draft-free place and contact a veterinarian. Cattle which have not been fed for
several days or are unaccustomed to grain should be limited to Two to
fourpounds per head of whole grain in one feeding, or a total of five pounds
per head the first day. Increase the amount of feed by two lb/head/day for
large cows. Make any additional increases slowly. Add hay, even poor quality
roughage, to the ration as soon as possible. Feeding three pounds per head of
hay daily will greatly reduce the possibility of founder (acute indigestion).
Cattle can use hay to better advantage than grains when they must be fed on the
ground.
Even moisture-saturated hay can be used until suitable feed is available. Do
not use mildewed hay. Depression, followed by colic and diarrheacan occur.
Animals may die in a few days. Some survivors may develop acute lameness.
Prompt treatment can reduce deaths, crippling and recurring digestive
disturbances.
Feeding Sheep After a Blizzard
1. If sheep, especially pregnant ewes, are withheld from feed heavy losses may
occur.
2. Ewes in good flesh late in pregnancy may incur pregnancy disease if they are
without feed for even a short time. Early symptoms of pregnancy disease
include
listlessness and depression. As intoxication advances, ewes develop a wobbly
gait, become uncoordinated and die.
3. Sheep can eat 1 to 3 pounds of whole grain per day. A small amount of
roughage will prevent digestive trouble. Drying feed before giving it to sheep
can reduce the possibility of digestive problems.
Feeding Horses After a Blizzard
1. Horses fed a maintenance ration adequate for summer conditions may need
additional energy in their winter feed.
2. They can tolerate reduced rations for a few weeks unless they are mares
nursing foals.
Feeding Swine After a Blizzard
1. Swine present few problems during periods of feed shortage. If you are
substituting other feed, such as dairy feed, for regular swine feed, be sure
swine have adequate fresh water available at all times. The salt content of
cattle feed will produce salt poisoning in swine unless they have constant
access to water.
Protecting Poultry and Livestock During a Winter Storm Power Failure
1. Ventilate shelter. Do not close buildings tight to conserve heat because
animals could suffocate from lack of oxygen. Because oxygen eventually will be
used up in mechanically ventilated production facilities, clear ice and snow
from all vents. Then open vents to facilitate natural air flow.
2. Poultry facilities should be equipped with knock-out panels for emergency
ventilation.
3. In dairy facilities, open door or turn cows outside.
4. Provide water. All animals, especially cattle, need plenty of water during
cold weather. It may be possible to drive your water pump with a small
gasoline engine and a belt. Otherwise, you will need to haul water. If you
have an outside source of water, cattle can be turned out to it. Be sure to
place sand or other gritty material on icy feedlots to provide good footing.
Whatever the source of water, watch that it remains unfrozen so animals can
drink it. If no water is available, dairymen can feed cows their own milk as a
last resort.
5. Provide heat. Use camp stoves and heaters as emergency heat sources for
brooders. Plan ahead to have this equipment ready when needed.
6. Provide feed. Animals need extra energy for body heat during severe or
prolonged cold weather, especially if they are outside without shelter.
Mechanical feeders will be inoperable during a power failure. Provide for
emergency feeding procedures. Pelleted cake or cake concentrate may be used
for emergency feed.
Protecting Equipment During A Winter Storm Power Failure
1. Unplug or turn off all electric equipment to prevent damage when power is
restored.
2. If you use portable space heaters for supplemental heat, close off the fuel
valve as soon as possible after power is interrupted. On models not equipped
with safety shut-offs, and especially on some models with gravity feed fuel
systems, fuel continues to flow even when the burner is inoperative. An
explosion or fire can result when power is restored.
Storing Milk and Cream During A Winter Storm Power Failure
1. You can use the intake manifold on the tractor engine as a source of vacuum
to operate milkers that do not have a magnetic pulsator.
2. Ask the dairy to pick up milk as soon as possible.
3. Consider adding a standby power generator to handle vital electric equipment
on the dairy.
4. Even if you are short of extra milk storage facilities, do not store milk in
stock tanks or other containers such as bathtubs. Dairy plants may not accept
milk that has been stored in anything other than regular milk storage
containers. Check with your local dairy about policy regarding emergency
storage of milk and cream.
5. Check your tank for souring each time you add milk to it if you are unable
to cool your milk or have it picked up. This check could mean the difference
between losing all or only part of your milk supply.
Repairing Ice and Snow Damage to Shrubs and Trees
1. To prevent ice damage to trees or shrubs, try to remove ice before winds
cause major damage. Do not try to break ice off branches. Connect a garden
hose to the hot water faucet to melt the ice. If branches have been badly
damaged, remove or repair them as suggested below.
2. Heavy accumulations of wet snow can cause damage to trees and shrubs.
Evergreens and weak-wooded trees are more susceptible to snow damage than
deciduous and hard-wood trees. Snow damage is more common to shrubs than to
trees because snow depth often equals or exceeds shrub height. Evergreen
shrubs are more easily damaged ove heavy snow ccumulations: Tap the branches
lightly with a broom soon after the snow falls or as it builds up. If snow has
melted and refrozen, do not use this procedure because you could break the
branches. To remove frozen snow, spray the shrubs with a hose connected to the
hot water faucet. Shrubs also may be damaged when snow from walks or drives is
piled onto them, or when salt is used for snow removal along drives, walks and
streets. With a hose, wash off shrubs that have been splashed with salt from
streets. Often snow damage to evergreens is not apparent until the following
spring as a broken branch will retain its green color until warm weather.
3. Determine whether the tree can be repaired, or if it should be removed
completely. If the main trunk is completely broken or if the tree is uprooted,
it should be removed. Most broken branches can be either repaired or pruned.
Some branches broken at a crotch can be lifted into place and then bolted and
cabled. Remove broken branch to the nearest branch or to the tree trunk. Never
leave a ragged stub. Remove large branches with three cuts. This will prevent
splintering and peeling. Make the first cut upward from the bottom of the
branch about 12 inches from the next branch. Cut about halfway through the
branch, or until the saw begins to pitch. Make the second cut 5 or 6 inches
further out, and continue cutting until the branch falls. With a third cut
remove the stub cleanly without peeling. Treat wound.
Family Disaster Plan and Personal Survival Guide
There are many different kinds of disasters. Earthquakes, floods, fires,
airplane crashes, chemical spills, pipeline leaks and explosions, and
others, small and large, which seldom give warning are equally
devastating to their victims. This guide is primarily geared to
earthquakes, but the planning you and your family do now will be of
benefit when and if any disaster strikes you.
Family Meetings: At least once a year have a meeting with your family to
discuss and update your plan and determine what training, equipment and
supplies are needed. Occasional drills will assure quick reaction and avoid
injury and panic in an emergency. Share your plans with neighbours, friends,
relatives, and co-workers.
Preparedness Activities
Learn how to protect yourself from falling objects, smoke, fire,
caustic fumes, etc.
Learn First Aid (available through your local Red Cross Chapter)
Persons Trained: ____________________________ Date: ___________________
Location of First Aid kit: ___________________________________
Learn how and where to shut off utilities.
Location of gas valve: _______________________
Location of wrench: _________________________
Location of main water valve: ______________________
Location of main circuit breaker: ____________________
Location of other utilities:
____________________________________________________>
Draw a Plan of your home, on a piece of paper draw a floor plan of your home
showing the location of exit windows and doors, utility cutoffs, First Aid Kit,
emergency supplies, food, clothing, tools, etc. Be sure everyone in you
household is familiar with it. Show it to baby-sitters and house guests when
you're going to be away. They could use it to direct someone to a utility
cutoff in an emergency. List alternate places to meet around home Outside:
___________________________________________
Inside: ____________________________________________
Alternate reunion locations when family is not at home, e.g. Red Cross shelter,
neighbour, relative, park, school.
___________________________________________________________________
Learn and discuss school disaster policy. Church? Club? Other? Are medical
consent
forms complete? ___________________________________________________________
Identify where emergency supplies and equipment are located.
Fire extinguisher: ________________________________
Flashlight/Batteries: ______________________________
Portable radio: __________________________________
Tools: _______________________________________
Safety equipment: ______________________________
Water: _______________________________________
Sanitation supplies: _____________________________
Food: ________________________________________
Cooking equipment: ____________________________
Blankets: _____________________________________
Extra eyeglasses: _______________________________
Medication: ___________________________________
First Aid Supplies: ______________________________
Complete set of clothes, shoes, gloves:
________________________________________
After an Earthquake
Be prepared for after shocks, Put on Heavy shoes immediately to avoid injury
from
stepping on glass and other debris. Check for injuries and give first aid.
Check for fires and fire hazards.Remove fallen objects from top of stove.
Sniff for gas leaks, starting at the hot water heater. If you smell gas or
suspect
a leak, turn off main gas valve, open windows and carefully leave house.
Do not turn lights on or off or light matches or do anything that makes a
spark.
Note: Do not shut off gas unless an emergency exists. Do Not turn it back on
until the gas company or plumber has checked it out. If damage to electrical
system is suspected, (frayed wires, sparks or the smell of hot insulation) turn
off system at main circuit breaker or fuse box. If water leaks are suspected,
shut off water at main valve. Check neighbours for injury. Turn on radio and
listen for advisories. Locate light source if necessary.
Do not touch downed power lines or objects touched by downed wires. Clean up
potentially harmful materials. Do not use phone except for genuine emergencies.
Check house, roof and chimney for damage. Check emergency supplies. Check to
see that sewage lines are intact before continued flushing of toilets. Do not
go sightseeing. Open closets and cupboards carefully. Cooperate with public
safety officials. Be prepared to evacuate when necessary.
If you Must Evacuate Prominently post a message indicating where you can be
found. Take with you the First Aid Kit, Flashlight, radio and batteries
Important papers and cash, Food, Sleeping bags/blankets, Clothes, Toiletries
and personal item, Baby supplies, Special Health Needs, Keep a list posted of
supplies/equipment that your particular family members may need to take with
them in case of evacuation. Include such items as: Medication, insulin &
syringes, Dentures, Eyeglasses, contact lens supplies, Wheelchairs, walker,
crutches, Oxygen tanks, Special dietary needs, special baby formula. Name and
number of family doctor and dentist.
Pets In a Disaster
Pets are not permitted in shelters, so families should plan for their pets in
the event of a disaster such as an earthquake., if you must leave your home,
you should very seriously consider provisions for leaving your pets behind.
They should be confined to a basement, garage or bathroom. Leave only friendly
dogs together. Never leave cats with dogs, even friendly dogs. Do not leave
pets in a car with windows closed. The most important task is to provide
water. Dogs and cats adapt well to deprivations of food, but not water. Fill
a tub or several buckets. Tie any vessel so that it cannot be tipped over. It
may be better to leave no food than to leave food which will spoil. It is
probably best to leave only dry pet food, low in protein and fat.
