Technical Factsheet on p Dichlorobenzene

Technical Factsheet on: p-DICHLOROBENZENE
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: 0.075 mg/L
MCL: 0.075 mg/L
HAL(child): 1 day: 10 mg/L; Longer-term: 10 mg/L
Health Effects Summary
Acute: May cause nausea, vomiting, headaches, and irritation of the eyes and respiratory tract.
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: upto a 7-year exposure to 10 mg/L.
Chronic: p-DCB has the potential to cause the following health effects from long-term exposures at levels
above the MCL: anemia, skin lesions, appetite loss, yellow atrophy of the liver and adverse blood effects.
Cancer: There is some evidence that p-DCB has the potential to cause cancer from a lifetime exposure at
levels above the MCL.
Usage Patterns
Available production data on p-DCB shows a decreasing trend down to 15 million lbs. in 1981. Demand
however, was at 74 million lbs in 1986; rose to 77 million lbs. the following year, and was projected to
continue increasing.
p-Dichlorobenzene is used as an insecticidal fumigant against clothes moths (35-40%); as a deodorant
for garbage and restrooms (35-40%); as an insecticide for control of fruit borers and ants; may be applied
to tobacco seed beds for blue mold control; for the control of peach tree borer; and mildew and mold on
leather and fabrics.
It is also used as an intermediate in the manufacture of other organic chemicals such as 2,5-
dichloroaniline, and in plastics, dyes, pharmaceuticals.
Release Patterns
Chemical waste dump leachates and direct manufacturing effluents are reported to be the major source
of pollution of the chlorobenzenes (including the dichlorobenzenes) to Lake Ontario. The major source of
p-dichlorobenzene emission to the atmosphere is volatilization from use in toilet bowl deodorants,
garbage deodorants and moth flakes.
In 1972, 70-90% of the annual USA production of p-dichlorobenzene was estimated to have been
released into the atmosphere primarily as a result of use in toilet bowl and garbage deodorants and use in
moth control as a fumigant.

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In 1984 it was reported that 67% of the p-dichlorobenzene consumed in the USA is used for space
deodorants and moth control with 33% used as an intermediate for polyphenylene sulfide resin
production; volatilization from the deodorants and moth flakes will therefore be the major emission source
to the atmosphere.
From 1987 to 1993, according to the Toxic Release Inventory, p-DCB releases to water totalled almost
34,000 lbs. Releases to land totalled nearly 4,500 lbs. These releases were primarily from a single
chemical manufacturing plant in West Virginia.
Environmental Fate
If released to soil, p-dichlorobenzene can be moderately to tightly adsorbed. Leaching from hazardous
waste disposal areas has occurred and the detection of p-dichlorobenzene in various groundwaters
indicates that leaching can occur. Volatilization from soil surfaces may be an important transport
mechanism. It is possible that p-dichlorobenzene will be slowly biodegraded in soil under aerobic
conditions. Chemical transformation by hydrolysis, oxidation or direct photolysis are not expected to occur
in soil.
If released to water, volatilization may be the dominant removal process. The volatilization half-life from a
model river one meter deep flowing one meter/sec with a wind velocity of 3 m/sec is estimated to be 4.3
hours at 20 deg C. Adsorption to sediment will be a major environmental fate process based upon
extensive monitoring data in the Great Lakes area and Koc values based upon monitoring samples.
Analysis of Lake Ontario sediment cores has indicated the presence and persistence of p-
dichlorobenzene since before 1940. Adsorption to sediment will attenuate volatilization. Aerobic
biodegradation in water may be possible, however, anaerobic biodegradation is not expected to occur.
Aquatic hydrolysis, oxidation and direct photolysis are not expected to be important. If released to air, p-
dichlorobenzene will exist predominantly in the vapor-phase and will react with photochemically produced
hydroxyl radicals at an estimated half-life rate of 31 days in typical atmosphere. Direct photolysis in the
troposphere is not expected to be important. The detection of p-dichlorobenzene in rain-water suggests
that atmospheric wash-out is possible.
For the most part, experimental BCF values reported in the literature are less than 1000 which suggests
that significant bioconcentration will not occur; however, a BCF of 1800 was determined forguppies in
one study.
General population exposure to p-dichlorobenzene may occur through oral consumption of contaminated
drinking water and food (particularly fish) and through inhalation of contaminated air.
Chemical/Physical Properties
CAS Number: 106-46-7
Color/ Form/Odor: White crystals with distinctive aromatic, mothball-like odor
M.P.: 53.1 C B.P.: 174 C
Vapor Pressure: 10 mm Hg at 54.8 C
Octanol/Water Partition (Kow): Log Kow = 3.37
Density/Spec. Grav.: 1.25 g/ml at 20 C

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Solubilities: 65.3 mg/L of water at 25 C
Soil sorption coefficient: Koc estimates range from 409 to 1514
Odor/Taste Thresholds: N/A
Bioconcentration Factor (BCF): Low; Ranges from 100 to 250 in various species
Henry's Law Coefficient: 0.0015 atm-cu m/mole at 20 C
Trade Names/Synonyms: Paradichlorobenzene; Paradichlorobenzol; Paramoth; Di-Chloricide; Paradi;
Paradow; Persia-Perazol; Evola; Parazene
Other Regulatory Information
Monitoring:
-	For Ground/Surface Water Sources:
Initial Frequency- 4 quarterly samples every 3 years
Repeat Frequency- Annually after 1 year of no detection
-	Triggers - Return to Initial Freq. if detect at > 0.0005 mg/L
Analysis
Reference Source	Method Numbers
EPA 600/4-88-039	502.2; 524.2
Treatment/Best Available Technologies: Granular Activated Charcoal and Packed Tower Aeration
Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):
Water	Land
TOTALS (in pounds)	33,675	4,482
Top Five States*
WV	27,676	0
TX	1,280	3,132
DE	1,870	200
GA	750	0
LA	503	0
Major Industries
Alkalies, chlorine	27,676	0
Industrial org. chem.	3,076	3,350
Agricultural chem.	750	0
Cyclic crudes, intermed.	600	0
* Water/Land 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 or other general information:
EPA Safe Drinking Water Hotline - 800/426-4791

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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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