United States December 1979
Environmental Protection
Agency
Toxic Substances
v>EPA Polychlorinated
Biphenyls:
An Alert for
Food and Feed Facilities
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This booklet has been published by the Environmental
Protection Agency in cooperation with the Department
of Agriculture and the Food and Drug Administration.
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Polychlorinated
Biphenyls:
An Alert for
Food and Feed Facilities
U.8. EPA Region II Library
290 Broadway, PI.
New York, NY 113uuM866
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Important Notice: PCB Incinerators
At the time this booklet went to press, there were still
no approved PCB incinerators available for commercial
use in the United States. Until incinerators are available,
it is not advisable to remove PCB fluids or intact PCB-
containing equipment unless safe storage facilities are
available off the site.
Several food contamination incidents have been caused
by PCBs in storage. These incidents indicate that
removing PCB equipment or draining fluid from a PCB
transformer and storing the equipment or fluid may
result in an increased risk of contamination. Therefore,
instead of removing this equipment from service at this
time, carefully examine the risk of leaks or spillage and
monitor continued operations closely. (See suggestions
in paragraph C of checklist.) If there is potential for
leaks or spills, corrective measures must be taken,
including removal of the equipment and fluid to a safe
storage area away from the premises. If you have any
questions, consult with your regional EPA or FDA office
or local USDA inspector.
At the present time, we anticipate that the first inciner-
ator will be available in spring 1980. EPA will publicize
information on commercial PCB incinerators as soon as
they are approved. In addition, you may check on the
availability of incinerators by either calling EPA's Office
of Industry Assistance toll-free (800) 424-9065 or calling
your regional EPA or FDA contact or local USDA
inspector. (See list of names and numbers in the
booklet.)
December 1979
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FOREWORD
rftosn,
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
WASHINGTON DC 20460
December 1979
of t ic r or toxic substances
The food and feed industries are particularly vulnerable to
contamination from polychlorinated biphenyls (PCB). PCBs are
ubiquitous, persistent industrial chemicals that are known to
cause serious health and environmental effects. The
Environmental Protection Agency has responsibility for regulatory
control of PCBs and other toxic substances under the Toxic
Substances Control Act of 1976. We are working cooperatively
with the Food and Drug Administration, which regulates chemical
substances in food and their use in food and animal feed plants,
and the Department of Agriculture, which has responsibility for
assuring the safety of meat and poultry, to protect our food
supply from PCB contamination.
This booklet has been prepared to:
Alert you to the serious potential problems associated
with the use of PCB-containing equipment in the food and
feed industry,
Provide information that will help you establish a
program for contamination prevention in these
facilities, and
Provide information on current PCB government
regulations and a reference of sources of additional
information.
PCB contamination has already caused costly destruction of large
quantities of food and uncountable damage to our environment. He
urge you to alert your managers and employees to the problem of
PCB contamination and to institute a program for preventative
action without delay. This brochure will assist you in your
efforts.
ven D. Je linek
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Why the concern? In recent years, there have been a number of incidents
where food has been contaminated with polychlorinated
biphenyls (PCBs) and other toxic chemicals. This
contamination has resulted from accidental spills,
improper disposal, and unintentional misuse of
PCB-containing materials and equipment. PCBs are
now known to have extremely hazardous health and
environmental effects, even at low levels of concentra-
tion in the food chain. PCB-containing equipment, such
as electrical transformers, has been extensively used in
food and feed processing facilities. We are especially
concerned that future accidental contamination be
prevented. This booklet has been prepared to help you
identify potential problems and prevent costly future
incidents that could have adverse effects on health and
the environment.
ooo
What are PCBs — PCBs are a class of chemicals called chlorinated hydro-
why, how, and where carbons. PCBs range in consistency from heavy oily
are they used? liquids to waxy solids. Their most important properties
are chemical stability, low flammability, high boiling
points, and low electrical conductivity.
Since their development in 1929, PCBs have been used
in a variety of industrial applications. Hundreds of
millions of pounds of PCBs have been used as fluids in
electrical transformers, capacitors, and electromagnets,
and heat transfer and hydraulic systems.
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PCBs have also been used as plasticizers in paints,
adhesives, and caulking compounds; fillers for invest-
ment casting waxes; and dye carriers in carbonless
copy paper.
Concern over PCBs' toxicity and persistence in the
environment led Congress to prohibit their manufacture,
processing, or distribution in commerce. Although
PCBs have not been manufactured in the United States
since 1977, the chemical has been permitted to remain
in older electrical transformers and other industrial
machinery.
Why are PCBs Knowledge of PCB toxicity in humans is based pri-
hazardous? marily on an incident which occurred in Yusho, Japan
in 1968 when PCBs leaked from a heat exchanger and
contaminated rice oil. Among the many symptoms
observed were chloracne (skin rash), discoloration of
the gums and nailbeds, swelling of joints, waxy secre-
tions of glands in the eye lids, as well as more general
effects such as lethargy and joint pain. There are also
well documented tests on laboratory animals that show
PCBs cause reproductive failures, gastric disorders, skin
lesions, tumors, and other effects of concern.
cccnvcccn
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Why should food and
feed related industries
be especially
concerned about
PCBs?
• Discovery of PCBs in fishmeal used as a feed
ingredient in North Carolina as a result of a leaking
heat exchanger,
• Contamination of fishmeal in Puerto Rico resulting
from a fire involving stored electrical transformers in
the same warehouse,
• Death and severe illness of feedlot cattle in Kansas
caused by inadvertent use of PCB-contaminated oil
as a carrier for insecticide,
• Contamination of animal feed ingredients with
PCBs leaking from a transformer in storage at a
packing company in Billings, Montana.
These incidents have resulted in the destruction of
large quantities of food, feed, and farm animals, and
major disruption of the companies involved.
The Yusho incident illustrates the serious human health
and economic consequences of PCB contamination in
food or feed related industries. Several other incidents
underline the need for special attention to prevent
similar costly contamination in the future. These
include:
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PCBs in the Unlike most organic chemicals which break down fairly
environment rapidly in the environment, PCBs are extremely stable.
The potential for biomagnification in the food chain is
of special concern. Biomagnification is the process
through which small amounts of toxic substances reach
higher levels of concentration at each stage of the food
chain.
Microorganisms and plants take in traces of PCBs from
the environment. These microorganisms and plants
provide the food for small fish and other animals which
are in turn eaten by higher forms of animal life. At each
step of the sequence, the PCB content increases until
human food supplies may be contaminated above the
levels considered to be safe for consumption.
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Where might PCBs be The following types of equipment may contain PCB
found in food industry fluids or other liquids such as mineral oil that are
facilities? contaminated with PCBs:
• Transformers
• Large capacitors (over 3 lbs. of fluid)
• Electromagnets
• Heat transfer and hydraulic systems
• Small capacitors
• Equipment containing small capacitors including:
electrical switch gear, fractional HP motors, and
ballasted lighting fixtures.
Transformers, large capacitors, electromagnets, and heat
transfer and hydraulic systems are of primary importance
because they contain free flowing liquid. Small capacitors are
of less concern because the PCBs are usually in a nonliquid,
nonmobile state.
ELECTROMAGNETS
Electromagnets contain-
ing PCBs have been
used as separator
magnets over conveyer
belts.
CAPACITORS
Capacitors have been manufactured in a wide
range of sizes for various industrial uses. Capaci-
tors may contain PCB dielectric fluids.
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TRANSFORMERS
Many transformers have used PCB liquids to
dissipate the heat generated by transmission.
HEAT TRANSFER SYSTEM
Heat transfer systems containing
PCBs have been used in food
processing equipment.
Existing federal
regulations concerning
PCBs and food
Concern about highly toxic PCBs contaminating human
food has led to a number of regulatory actions by the
Food and Drug Administration (FDA), the U.S. Depart-
ment of Agriculture (USDA), and the Environmental
Protection Agency (EPA). Under FDA regulations foods
and feeds are considered to be contaminated and may
not be sold in interstate commerce if they contain
PCBs in excess of certain prescribed concentrations.
(See Table 1.) The use of PCBs in food and animal
feed processing facilities, except enclosed use in
transformers and capacitors, is prohibited by FDA
regulation (21 CFR 110.40, 500.45).
EPA has issued rules governing the use of PCBs. In
general, PCB mixtures with concentrations less than 50
parts per million (ppm) or 0.005 percent are not regu-
lated. The use of intact, non-leaking transformers,
electromagnets,^capacitors, and capacitor-containing
equipment with PCB concentrations greater than 50
ppm is allowed.
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The EPA rule permits the continued use of PCBs in
servicing of electromagnets and transformers and in
heat transfer and hydraulic systems until July 1, 1984.
As of November 1, 1979, PCBs may no longer be used
in heat transfer systems in plants manufacturing or
processing food, drugs, and cosmetics.
EPA rules include provisions for marking, disposal,
storage, and recordkeeping, portions of which are
discussed later in this booklet.
The potential for further regulatory action exists. EPA,
FDA, and USDA are considering prohibiting the use of
PCBs in all transformers, capacitors, and other electrical
equipment in food and feed related industries.
The following Checklist for Action has been prepared
to assist you in conducting a full safety check of your
facility. We urge you to use this checklist to implement
a program for safety and contamination prevention in
all your food and feed related facilities.
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Checklist for Action
What can I do?
A. Determine if you
have PCB
equipment.
1. Locate any potential PCB source.
You should inventory your plant for transformers,
capacitors, heat transfer systems, hydraulic systems,
and fluid stored for use in this equipment. After you
have located these items, . ..
2. Examine the equipment for caution labels.
A caution label specifically identifying the equipment as
containing PCBs may be present. If so, skip to Section
B of this checklist. If not, . ..
3. Transformers and large capacitors may bear
nameplates.
If your transformer or capacitor has a manufacturer's
nameplate with a trade name, refer to Table 2 at the
end of this booklet. If the trade name does not appear
there, the equipment may still contain PCBs. Contact
the manufacturer, referencing the serial number to
determine if the equipment contains PCBs. If there is
no nameplate, or if this approach is unsuccessful...
4. Seek assistance from a servicing expert.
Call on your local transformer servicing company or the
engineering service department of your utility company.
They can assist you to obtain a sample of your trans-
former fluid for analysis. You may also want to sample
your heat transfer systems, hydraulic systems, or other
suspect oil. (Do not attempt to sample fluids in capaci-
tors.) Then...
5. Have the samples analyzed.
This is the only way to be certain whether or not your
equipment contains PCBs.
If you determine that you have PCB equipment,.. .
B. Consider replacing
PCB-containing
equipment with
non-PCB
equipment.
EPA, FDA, and USDA are considering prohibiting the
use of PCBs in all electrical equipment in food and
feed related industries. Although the prohibition on
PCB-containing equipment is not yet in effect, we urge
voluntary removal of this equipment and replacement
with non-PCB equipment to prevent the possibility of
future food contamination.
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As an alternative in transformers, you may want to
consider replacing the PCB fluid with non-PCB fluid.
You should be aware that the transformers will contain
residual PCB concentrations after replacement and,
therefore, may be subject to future federal regulation.
EPA disposal regulations require incineration of all PCB
liquids with concentrations of 500 ppm (0.05%) or
greater. The first approved incinerators will be available
sometime in 1980. Until incinerators are available, PCBs
removed from service must be stored for later disposal.
If it is not possible for you to replace your PCB-contain-
ing equipment, you will want to. . .
C. Take special The risk of PCB contamination can be minimized by
precautions for analyzing the risk of spillage associated with each
continued use. individual PCB unit and by taking steps to contain the
potential uncontrolled loss of PCBs from the unit. You
should consider the following questions:
1. Is there any evidence of an active leak from the
PCB unit? If so, take whatever steps are necessary to
protect your product or usable byproduct. Of course,
leaking equipment should be repaired immediately. If
your product is being contaminated, contact the appro-
priate agency to determine the best way to destroy it.
2. Is the PCB unit located in an area where there is a
way that leaking fluid from the unit could find its way
into your process? If so, these units should be given
priority in the development of spill prevention meas-
ures. Special consideration should be given to potential
leaks resulting from accidents as discussed in the
following.
3. Is any liquid ever pumped from the vicinity of the
PCB unit to the process area? If so, can the PCB unit
be isolated from the pump?
4. If the PCB unit is pad mounted, are there curbs or
pans to serve as a barricade against loss of fluid?
5. If the PCB unit is located in an area surrounded by
porous cinderblock walls, have they been sealed with
material which will not dissolve in solvents such as
PCB and trichlorobenzene? Is the wall/floor interface
tight?
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6. Is the floor in the vicinity of a PCB unit free from
cracks? Cracks that look like they would not prevent
the loss of fluid should be grouted and painted with
solvent resistant materials, or government approved
materials if required.
7. Is the PCB unit in a location where vehicular traffic
might be a hazard? If so, a vehicle barrier might be
useful.
D. Be familiar with
mandatory labeling
and storage
requirements.
8. Is the PCB unit located near machinery which might
throw projectiles with sufficient energy to damage the
unit? If so, a shield, such as a fence, may provide the
necessary protection.
9. Is the PCB unit mounted on a surface which might
be difficult to seal, such as unwelded steel plates or in
a mobile machine? If so, a catchbasin might be installed
under the unit.
10. Are there floor drains in the vicinity of a PCB unit?
If so, can they be sealed or otherwise isolated from the
unit?
11. If you have PCB equipment or drums of PCB fluid
in storage for future use, can they be removed from
the process area? Are they marked or labeled to warn
of PCB presence? If you have PCB equipment, you
may be subject to mandatory labeling and storage
requirements.
1. Labeling requirements.
The EPA label for PCBs looks like this.
CAUTION CONTAINS PCBs ]
(Pofychloriruled BJptonyti)
FOR PROPER DISPOSAL INFORMATION |
CONTACT U.S. ENVIRONMENTAL
PROTECTION AGENCY
#C i LAaitMASWHCHCMMJ IIKJMD Q
THIS
EQUIPMENT
CONTAINS
PCB
IfotychlonnotMl Biptonyh)
CAPACITOR(S)
* Mm. «*¦,'< »< i »
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You must label the following items: transformers
containing liquids with more than 500 ppm of PCBs,
PCB capacitors with 3 (three) or more pounds of fluid
operating at 2,000 volts or more, containers such as
bags, barrels, or drums used to hold PCBs, electric
motors using coolant with 50 ppm or more of PCBs,
hydraulic systems or heat transfer systems containing
50 ppm or more of PCBs, and the storage areas
described in the following.
In addition, labels must be placed on the following
items when they are removed from service: PCB
capacitors containing more than 3 pounds of fluid
operating at less than 2,000 volts and equipment
containing a PCB transformer or large high voltage
capacitor.
2. Storage requirements.
PCBs and PCB items which you remove from service
for disposal must be stored in a location meeting EPA
criteria to insure that they are properly contained. This
location should not be near your process area. It should
be isolated so that it is not vulnerable to damage and
puncture from vehicular, forklift, and other moving
equipment. For assistance with the storage design
criteria, contact the EPA regional office for your state.
A list of EPA regional offices appears at the back of
this booklet. (See Appendix B.)
E. Obtain further If you do not yet have the EPA regulations on PCBs,
information. you can obtain a free copy from EPA by calling toll free
(800) 424-9065 (in Washington, DC, 554-1404) and
asking for a reprint of the PCB Ban Regulation, Federal
Register, May 31, 1979, and for a list of the approved
PCB Disposal Facilities.
If you want more background information on the
regulation, ask for a free copy of the EPA Support
Document to the PCB Ban Regulation at the same
phone number. The mailing address is: Industry Assist-
ance Office (TS-799), Office of Toxic Substances, U.S.
Environmental Protection Agency, 401 M Street, S.W.,
Washington, DC 20460. You may also contact the
nearest EPA Regional Office. (See Appendix B.)
Other useful background information on PCBs is listed
in Appendix A.
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FDA Limits on PCB Concentration in Food
Food
Milk and manufactured
dairy products
Poultry
Red meat
Eggs
Fish and shellfish
Feed for food
producing animals
Infant and junior foods
Animal feed components
of animal origin
Paper food packaging in
direct contact with food
Concentration
(parts per million)
1.5 ppm
(fat basis)
3 ppm
(fat basis)
3 ppm
(action level)
(fat basis)
0.3 ppm
5 ppm
(edible portion)*
0.2 ppm
(except concentrates,
supplements, and premixes)
0.2 ppm
2.0 ppm
10 ppm
(action level)
Source: Title 21, Code of Federal Regulations, Section 109.30;
Federal Register, Vol. 44, No. 127, June 29, 1979,
pp. 38330-38340.
'A regulation establishing a new level of 2 ppm was promul-
gated but was stayed on October 5, 1979 until further
notice.
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Table 2.
PCB Manufacturers and Trade Names
PCBs have been marketed and used by manufacturers in their products under
various trade names. This list is not necessarily complete since many companies
have gone out of business and information is no longer available.
Manufacturer
Country
Trade Name
Aerovox
US
Hyvol
Allis-Chalmers
US
Chlorextol
American Corp.
US
Asbestol
Axel Electronics
—
Bayer
Germany
Clophen
Caffaro
Italy
Dk
Caffaro
Italy
Fenclor
Caffaro
Italy
Inclor
Capacitor Specialists
US
Chemko
Czechoslovakia
Cornell Dubilier
US
Dykanol
Dings Co.
US
Electrical Utilities Corp.
US
Eucarel
Electro Engineering Works
US
Electromagnetic Filter Co.
US
Envirotech Buell
US
Eriez Magnets
US
Pyranol
ESCO Mfg. Co.
US
Askarel*
Ferranti-Packard Ltd.
US
Askarel*
General Electric
US
Pyranol
Geneva Industries
US
H. K. Porter
US
Helena Corp.
US
Hevi-Duty Electric
—
Askarel*
ITE Circuit Breaker
US
Non-Flammable Liquid
Jard Corp.
US
Ctorphen
Kanegafuchi
Japan
Kennechlor
Kuhiman Electric
US
Saf-T-Kuhl
McGraw Edison
US
Elemex
Maloney Electric
US
Monsanto
UK and US
Aroclor
Monsanto
UK and Japan
Santotherm FR
Monsanto
UK and Europe
Pyroclor
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Manufacturer
Country
Trade Name
Monsanto
US
Therminol* *
Monsanto
US
Pydraul* **
Monsanto
US
Santovac 1 and 2
Niagara Transformer Corp.
US
Askarel*, EEC-18
P. R. Mallory & Co.
us
Aroclor B
Power Zone Transformer
us
EEC 18
Prodelec
France
Phenoclor
Prodelec
France
Phyralene
R. C. Uptegraff
us
R. F. Interonics
US
Reliance Electric Co.
US
Research-Cottrell
US
Askarel*
Sangamo Electric
US
Diaclor
Sovol
USSR
Sprague Electric Co.
US
Chlorinol
Standard Transformer Corp.
US
Stens Magnetics
US
Tobe Deutschmann Labs.
US
Universal Mfg. Corp.
US
Askarel*
Van Tran Electric
US
Wagner Electric
US
No-Flamol
Westinghouse Electric
US
Inerteen
York Electronics
US
—
US
Nepolin
—
—
Apirolio
-
—
Kaneclor
* Askarel is the generic name used for nonflammable insulating liquid in transformers and
capacitors.
* * Various products used as heat transfer fluids, such as Therminol FR O, were manufac
tured under this name.
***Various products used as hydraulic fluid, such as Pydraul A-200, were manufactured
under this name.
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Appendix A Other Available Information on PCBs
This booklet does not go into detail about the health
and environmental effects of PCBs or the chemicals
now being used as substitutes for PCBs. The following
reports cover these technical areas. The NIOSH Criteria
Document is particularly recommended for its discus-
sion of health issues for servicing PCB equipment or
cleaning up PCB spills.
"Criteria for a Recommended Standard ... Occupa-
tional Exposure to Polychlorinated Biphenyls (PCBs)."
DHEW (NIOSH) Publication No. 77-225, September
1977. Order from Superintendent of Documents,
U.S. Government Printing Office, Washington, D.C.
20402. Price $4.00 plus postage.
"Assessment of the Use of Selected Replacement
Fluids for PCBs in Electrical Equipment." Report No.
EPA 560/6-77-008, March 1979. Order from National
Technical Information Service, Springfield, Virginia
22161. Report No. NTIS-PB-296 377.
"Polychlorinated Biphenyls and the Environment."
1972. Order from National Technical Information
Service, Springfield, Virginia 22161. Report No. NTIS
COM-72 10419. This is a thorough discussion of the
properties and uses of PCBs.
"PCBs in the United States: Industrial Use and Envi-
ronment Distribution." 1976. Order from National
Technical Information Service, Springfield, Virginia
22161. Report No. NTIS PC 252-012.
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17
Appendix B
Where Can I Seek Assistance?
Assistance from EPA or FDA may be obtained by contacting your nearest regional
office. Plants regulated by the Food Quality Service of USDA may obtain help from
their local inspector. The following table lists by the state the ten Federal regional
offices for FDA and EPA.
REGION I: Connecticut Maine, Massachusetts, New Hampshire, Rhode
Island, Vermont
EPA FDA
Mr. Robert Dangel Mr. A. J. Beebe
Toxic Substances Coordinator Regional Director
John F. Kennedy Federal Building 585 Commercial Street
Boston, MA 02203 Boston, MA 02109
(617) 223-0585 (617) 223-1278
REGION II: New Jersey, New York, Virgin Islands, Puerto Rico
EPA FDA
Mr. Ralph Larsen Mr. Caesar A. Roy
PCB Coordinator Regional Director
26 Federal Plaza 830 3rd Avenue
New York, NY 10007 Brooklyn, NY 11232
(212) 264-1925 (212) 965-5416
REGION III: Delaware, Maryland, Pennsylvania, Virginia, West Virginia,
District of Columbia
EPA FDA
Mr. Charles Sapp Mr. R. J. Davis
Toxic Substances Coordinator Regional Director
Curtis Building (3AH20) 2nd and Chestnut Street
6th & Walnut Street Room 900
Philadelphia, PA 19106 Philadelphia, PA 19106
(215) 597-4058 (215) 597^390
REGION IV: Alabama, Florida, Georgia, Kentucky, Mississippi, North
Carolina, South Carolina, Tennessee
EPA FDA
Mr. Ralph Jennings Mr. M. D. Kinslow
Toxic Substances Coordinator Regional Director
345 Courtland Street, NE 880 W. Peachtree Street
Atlanta, GA 30308 Atlanta, GA 30309
(404) 881 -3864 (404) 881 -4266
REGION V: Indiana, Illinois, Michigan, Minnesota, Ohio, Wisconsin
EPA FDA
Mr. Karl Bremer Mr. L. R. Claiborne
Toxic Substances Coordinator Regional Director
230 South Dearborn Street, Room 1165 175 W. Jackson Boulevard
Chicago, IL 60604 Room A-1945
(312) 353-2291 Chicago, IL 60604
(312) 353-1047
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REGION VI: Arkansas, Louisiana, New Mexico, Oklahoma, Texas
EPA FDA
Mr. John West Mr. P. B. White
PCB Coordinator Regional Director
First International Building 3032 Bryan Street
1201 Elm Street Dallas, TX 75204
Dallas, TX 75270 (214) 749-2735
(214) 767-2734
REGION VII: Iowa, Kansas, Missouri, Nebraska
EPA
Mr. Wolfgang Brandner
Toxic Substances Coordinator
324 East 11 Street
Kansas City, MO 64106
(816) 374-6538
FDA
Mr. Clifford G. Shane
109 Cherry Street
Kansas City, MO 64106
(816) 374-5646
REGION VIII: Colorado, Montana, North Dakota, South Dakota, Utah,
Wyoming
EPA
Mr. Dean Gillam
Toxic Substances Coordinator
1860 Lincoln Street
Denver, CO 80295
(303) 837-3926
FDA
Mr. F. L. Lofsvold
Regional Director
721 19th Street
US Customhouse Room 500
Denver, CO 80202
(303) 837-4915
REGION IX: Arizona, California, Hawaii, Nevada, American Samoa, Guam,
Trust Territories of the Pacific, Wake Island
EPA FDA
Mr. Gerald Gavin Mr. I. B. Berch
PCB Coordinator Regional Director
215 Fremont Street UN Plaza
San Francisco, CA 94105 Federal Office Bldg.
(415) 556-4606 Room 526
San Francisco, CA 94102
(415) 556-2062
REGION X: Alaska, Idaho, Oregon, Washington
EPA
Dr. Jim Everts
Toxic Substances Coordinator
1200 6th Avenue
Seattle, WA 98101
(206) 442-5560
FDA
Mr. J. W. Swanson
Regional Director
909 1st Avenue
Room 5003
Seattle, WA 98174
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1 j? A -A, K ^
For additional information you may call the Industry
Assistance Office toll free at (800) 424-9065 (in Wash-
ington, DC 554-1404), or write to Director, Industry
Assistance Office (TS-799), Office of Toxic Substances,
U.S. Environmental Protection Agency, 401 M Street,
S.W., Washington, DC 20460.
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