Technical Factsheet on: CHROMIUM
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: 0.1 mg/l
MCL: 0.1 mg/l
HAL(child): 1 - to 10-day: 1 mg/L; Longer-term: 0.2 mg/L
Note: These standards are based on the total concentration of the trivalent and hexavalent forms of
dissolved chromium (Cr3+ and Cr6+).
Health Effects Summary
Acute: EPA has found chromium to potentially cause the following health effects from acute exposures at
levels above the MCL: skin irritation or ulceration.
Drinking water levels which are considered "safe" for short-term exposures: For a 10-kg (22 lb.) child
consuming 1 liter of water per day, a one- to ten-day exposure to 1 mg/L; a longer-term (7 years)
exposure to 0.2 mg/L.
Chronic: Chromium has the potential to cause the following health effects from long-term exposures at
levels above the MCL: damage to liver, kidney circulatory and nerve tissues; dermatitis.
Cancer: There is no evidence that chromium in drinking water has the potential to cause cancer from
lifetime exposures in drinking water.
Usage Patterns
Chromium and its compounds are used in metal alloys such as stainless steel; protective coatings on
metal; magnetic tapes; and pigments for paints, cement, paper, rubber, composition floor covering and
other materials. Other uses include: chemical intermediate for wood preservatives, organic chemical
synthesis, photochemical processing and industrial water treatment. In medicine, chromium compounds
are used in astringents and antiseptics. They also are used in cooling waters, and in the leather tanning
industry, in catalytic manufacture, and in fungicides; as an algaecide against slime forming bacteria and
yeasts in brewery processing water and brewery warmer water.
Chromic acid consumption patterns in 1988: wood preserving, 63%; metal finishing, 22%; other, including
water treatment, magnetic particles and catalysts, 7%; exports, 8%. Demand: 1987: 57,500 tons; 1988:
62,500 tons; 1992 (projected): 78,800 tons.
Sodium Bichromate consumption patterns in 1988: chromic acid, 54%; leather tanning, 9%; chromium
oxide, 9%; pigments, 8%; wood preservation, 5%; other, including drilling muds, catalysts, water
treatment, metal finishing, 5%; exports, 10%. Demand: 1987: 150,000 tons; 1988: 164,000 tons; 1992
(projected): 180,000 tons
Release Patterns
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Chromium occurs in nature mostly as chrome iron ore, or chromite. Though widely distributed in soils and
plants, it is rare in natural waters. The two largest sources of chromium emission in the atmosphere are
from the chemical manufacturing industry and combustion of natural gas, oil, and coal.
Other sources include wind transport from road dust, cement producing plants because cement contains
chromium, the wearing down of asbestos brake linings from automobiles or similar sources of wind
carried asbestos since asbestos contains chromium, incineration of municipal refuse and sewage sludge,
exhaust emission from automotive catalytic converters, emissions from cooling towers that use chromium
compounds as rust inhibitors, waste waters from electroplating, leather tanning, and textile industries
when discharged into surface waters, and solid wastes from chemical manufacture.
From 1987 to 1993, according to the Toxics Release Inventory, chromium compound releases to land
and water totalled nearly 200 million pounds, of which about 99 percent was to land. These releases were
primarily from industrial organic chemical industries which use chromium as an intermediate. The largest
releases occurred in Texas and North Carolina. The largest direct releases to water occurred in Georgia
and Pennsylvania.
Background levels in water average 1 ug/L while municipal drinking water contain 0.1-35 ug/L. The higher
values of chromium can be related to sources of anthropogenic pollution. In ocean water, the mean
chromium concentration is lower than in river water, and its value is 0.3 ug/l, with a range of 0.2 to 50 ug/l.
A survey of 3834 tap waters reported the concentrations of chromium to range from 0.4 to 8.0 ug/l. The
reported chromium concentrations in this study may be a little higher than the actual values due to
inadequate flushing of tap water before collection of samples. This indicates that the concentration of
chromium in household tap water may increase due to plumbing materials.
Environmental Fate
Chromium is not likely to migrate to ground water. A field trial on the application of wastewater treatment
sludge to soils found movement of heavy metals, including chromium, from the soil surface to a depth of
10 cm, but most of the metal (mean 87%) remained in the upper 5 cm of soil. Uptake by plants is
generally low; it was found to be greater from ultrabasic soils by a factor of 5-40 than on calcareous or
silica-based soils.
Chromium compounds are very persistent in water. Most of the chromium in surface waters may be
present in particulate form as sediment. Some of the particulate chromium would remain as suspended
matter and ultimately be deposited in sediments.
The exact chemical forms of chromium in surface waters are not well defined. Although most of the
soluble chromium in surface waters may be present as Cr(VI), a small amount may be present as Cr(lll)
organic complexes. Hexavalent chromium is the major stable form of chromium in seawater; however,
Cr(VI) may be reduced to Cr(lll) by organic matter present in water, and may eventually deposit in
sediments.
Though little data is available, there is a high potential for bioconcentration of chromium in aquatic
organisms. Snails showed an accumulation factor of 1x10+6.
Chemical/Physical Properties
CAS Number: 7440-47-3
Color/ Form/Odor: Chromium is metal found in nature only in the combined state.
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Soil sorption coefficient: N/A; Low mobility
Bioconcentration Factor: BCF in plants, 1000; in snails, 1,000,000; expected to accumulate in aquatic
organisms.
Common Ores: oxide- Iron chromite
Solubilities:
chloride- soluble in cold water
chromate- 0.2 mg/L (lead salt)
chromate- 873 g/L at 30 deg C (sodium salt)
chromate oxide- insoluble
dichromate- 2380 g/L at 0 deg C (sodium salt)
dioxide- insoluble
oxide- insoluble
sulfate- insoluble
trioxide- 617 g/L at 0 deg C
Other Regulatory Information
Monitoring:
- For Ground Water Sources:
Initial Frequency-1 sample once every 3 years
Repeat Frequency-lf no detections for 3 rounds, once every 9 years
- For Surface Water Sources:
Initial Frequency-1 sample annually
Repeat Frequency-lf no detections for 3 rounds, once every 9 years
- Triggers - If detect at > 0.1 mg/L, sample quarterly.
Analysis
Reference Source
EPA 600/4-79-020
NTIS PB 91-231498
Standard Methods
Method Number
218.2
200.7
3113B; 3120
Treatment/Best Available Technologies: Coagulation/Filtration; Ion Exchange, Reverse Osmosis, Lime
Softening (for CrlII only)
Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):
TOTALS
Top Ten States'
TX
NC
Water
2,876,055
102,079
43,522
Land
196,880,624
64,301,920
55,217,044
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IN
OH
UT
AR
KY
PA
GA
ID
85,570
51,830
1,750
2,300
255
110,149
679,721
91,750
15,955,895
8,319,600
5,817,015
3,532,000
2,491,519
2,337,905
1,404,698
1,404,870
Major Industries*
Indust. organics
Steelworks, Blast furn.
Electrometallurgy
Copper smelting, refining
Nonferrous smelting
Inorganic pigments
Pulp mills
3,272
609,174
985,800
33,269
1,750
2,300
88,721
16,638,880
10,796,928
5,817,015
3,532,000
1,375,700
224,198
120,707,814
* 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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