Technical Factsheet on: ASBESTOS
List of Contaminants
As part of the Drinking Water and Health pages, this fact sheet is part of a larger publication:
National Primary Drinking Water Regulations
Drinking Water Standards
MCLG: 7 million fibers per liter (MFL) (fibers > 10 microns in length)
MCL: 7 million fibers per liter (MFL)
HAL(child): none
Health Effects Summary
Acute: No reliable data are available on the acute toxic effects from short-term exposures to asbestos. No
Health Advisories have been established for short-term exposures.
Chronic: Asbestos has the potential to cause lung disease from a lifetime exposure at levels above the
MCL.
Cancer: Asbestos has the potential to cause cancer of the lung and other internal organs from a lifetime
exposure at levels above the MCL.
Usage Patterns
Because asbestos fibers are resistant to heat and most chemicals, they have been mined for use in a
variety of products (over 3,000 different products in the United States). In 1988, asbestos was consumed
in roofing products, 28%; friction products, 26%; asbestos cement pipe, 14%; packing and gaskets, 13%;
paper, 6%; and other 13%.
Pipe products find use in water supply, sewage disposal, & irrigation systems. Asbestos cement sheets
are used in a wide variety of construction applications. Other uses of asbestos include fire resistant
textiles, friction materials (ie, brake linings), underlayment & roofing papers, & floor tiles.
Crocidolite can be spun & woven using modified cotton industry machinery; the asbestos cloth is used for
fireproof clothing & curtains.
Most uses of asbestos were banned in the United States by the EPA on July 12, 1989 because of
potential adverse health effects in exposed persons. The remaining, currently allowed uses of asbestos
include battery separators, sealant tape, asbestos thread, packing materials, and certain industrial uses
of both sheet gaskets and beater-add gaskets.
Release Patterns
Asbestos fibers may enter the environment from natural sources such as erosion of asbestos-containing
ores, but the primary source of asbestos in the environment is through the wear or breakdown of
asbestos-containing materials. Asbestos fibers have been released into water by the dumping of mining
tailings into lakes, by the runoff of process and air scrubber water into lakes and streams, and by the use
of asbestos cement pipes in water supply systems.
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Over one million tons of asbestos is contained in friable materials in ships, buildings, power plants,
chemical plants, refineries, and other locations of high temperature equipment. Other products may
include insulation, automobile brakes, cement pipes, and roofing materials. The maintenance, repair, and
removal of this material will account for the principal releases in the future. Asbestos fibers also can be
released to the environment from asbestos processing, including milling, manufacturing, and fabrication.
From 1987 to 1993, according to the Toxics Release Inventory, asbestos releases to land totalled nearly
9 million lbs., and releases to water totalled nearly 33,000 lbs. These releases were primarily from
asbestos products industries which use asbestos in roofing materials friction materials, and cement. The
largest releases occurred in Pennsylvania and Louisiana.
Environmental Fate
As a naturally occurring substance, asbestos can be present in surface and ground water. Because
asbestos fibers in water do not evaporate into air or break down in water, small fibers and fiber-containing
particles may be carried long distances by water currents before settling to the bottom; larger fibers and
particles tend to settle more quickly.
Asbestos does not tend to adsorb to solids normally found in natural water systems, but some materials
(trace metals and organic compounds) have an affinity for asbestos minerals. The fibers are not able to
move down through soil to ground water.
Asbestos is not affected by photolytic processes and is considered to be non-biodegradable by aquatic
organisms. Asbestos fibers are not broken down to other compounds in the environment and, therefore,
can remain in the environment for decades or longer.
There are no data regarding the bioaccumulation of asbestos in aquatic organisms.
Chemical/Physical Properties
CAS Number: 1332-21-4
Color/ Form/Odor: White, gray, green or brown crystalline fibers; odorless
Solubilities: insoluble
Soil sorption coefficient: N/A
Bioconcentration Factor: N/A; not expected to bioconcentrate
Common Ores: Amosite, Chrysotile, Crocidiolite; Tremolite; Ascarite
Other Regulatory Information
Monitoring:
- For Ground and Surface Water Sources:
Initial Frequency-1 sample once every 9 years
Repeat Frequency-1 sample once every 9 years
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- Triggers - If detect at > 7 MFL, sample quarterly.
Analysis
Reference Source Method Number
Transmission Electron Microscopy EPA 800/4-83-043
Treatment/Best Available Technologies: Coagulation/Filtration; Direct and Diatomite Filtration;
Corrosion Control
Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):
Water
Land
TOTALS
32,650
8,620,439
Top Five States*
PA
0
2,945,049
LA
61
2,256,400
TX
0
1,737,200
AR
1,000
568,227
VA
0
480,000
Major Industries*
Asbestos products
3,005
Alkalis, chlorine
1,973
Industrial organic chems
0
Asphalt felts, coatings
5
Auto parts
0
Petroleum refining
Plastic pipes
Shipbuilding, repairing
2,510,227
2,256,404
1,230,000
871,067
563,694
314,560
235,200
211,400
* State/Industry totals only include facilities with releases greater than a certain amount - usually 1000 to
10,000 lbs.
For Additional Information:
EPA can provide further regulatory and other general information:
EPA Safe Drinking Water Hotline - 800/426-4791
Other sources of toxicological and environmental fate data include:
Toxic Substance Control Act Information Line - 202/554-1404
Toxics Release Inventory, National Library of Medicine - 301/496-6531
Agency for Toxic Substances and Disease Registry - 404/639-6000
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