Pentachlorophenol

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Pentachlorophenol
160px
Names
IUPAC name
2,3,4,5,6-Pentachlorophenol
Other names
Santophen, Pentachlorol, Chlorophen, Chlon, Dowicide 7, Pentacon, Penwar, Sinituho, Penta
Identifiers
87-86-5 YesY
ChEBI CHEBI:17642 YesY
ChEMBL ChEMBL75967 YesY
ChemSpider 967 YesY
Jmol 3D model Interactive image
KEGG C02575 N
PubChem 992
UNII D9BSU0SE4T YesY
  • InChI=1S/C6HCl5O/c7-1-2(8)4(10)6(12)5(11)3(1)9/h12H YesY
    Key: IZUPBVBPLAPZRR-UHFFFAOYSA-N YesY
  • InChI=1/C6HCl5O/c7-1-2(8)4(10)6(12)5(11)3(1)9/h12H
    Key: IZUPBVBPLAPZRR-UHFFFAOYAG
  • Clc1c(O)c(Cl)c(Cl)c(Cl)c1Cl
Properties
C6HCl5O
Molar mass 266.34
Appearance White crystalline solid
Odor benzene-like[1]
Density 1.978 g/cm3 at 22 °C
Melting point 190 to 191 °C (374 to 376 °F; 463 to 464 K)
Boiling point 309–310 °C (588–590 °F; 582–583 K) (decomposes)
0.020 g/L at 30 °C
Vapor pressure 0.0001 mmHg (25°C)[1]
Vapor pressure {{{value}}}
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YesYN ?)
Infobox references

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For the recreational dissociative drug also known as PCP or as angel dust, see Phencyclidine.

Pentachlorophenol (PCP) is an organochlorine compound used as a pesticide and a disinfectant. First produced in the 1930s, it is marketed under many trade names.[2] It can be found as pure PCP, or as the sodium salt of PCP, the latter which dissolves easily in water. It can be biodegraded by some bacteria, including Sphingobium chlorophenolicum.

Synthesis

PCP can be produced by the chlorination of phenol in the presence of catalyst (anhydrous aluminium or ferric chloride) and a temperature of up to approximately 191 °C. This process does not result in complete chlorination and commercial PCP is only 84-90% pure. The main contaminants include other polychlorinated phenols, polychlorinated dibenzo-p-dioxins, and polychlorinated dibenzofurans. Some of these species are even more toxic than the PCP itself.

Uses

PCP has been used as a herbicide, insecticide, fungicide, algaecide, and disinfectant and as an ingredient in anti-fouling paint.[2] Some applications were in agricultural seeds (for nonfood uses), leather, masonry, wood preservation, cooling tower water, rope, and paper mills. Its use has declined due to its high toxicity and slow biodegradation.[3]

There are two general methods for preserving wood. The pressure process method involves placing wood in a pressure-treating vessel where it is immersed in PCP and then subjected to applied pressure. In the non-pressure process method, PCP is applied by spraying, brushing, dipping, and soaking.

Exposure

People may be exposed to PCP in occupational settings through the inhalation of contaminated workplace air and dermal contact with wood products treated with PCP. Also, general population exposure may occur through contact with contaminated environment media, particularly in the vicinity of wood treatment facilities and hazardous wastes sites. In addition, some other important routes of exposure seem to be the inhalation of contaminated air, ingestion of contaminated ground water used as a source of drinking water, ingestion of contaminated food, and dermal contact with soils or products treated with the chemical.[4]

Toxicity

Short-term exposure to large amounts of PCP can cause harmful effects on the liver, kidneys, blood, lungs, nervous system,[2] immune system, and gastrointestinal tract. Elevated temperature, profuse sweating, uncoordinated movement, muscle twitching, and coma are additional side effects.

Contact with PCP (particularly in the form of vapor) can irritate the skin, eyes, and mouth. Long-term exposure to low levels such as those that occur in the workplace can cause damage to the liver, kidneys, blood, and nervous system.[2] Finally exposure to PCP is also associated with carcinogenic, renal, and neurological effects. The U.S. Environmental Protection Agency Toxicity Class classifies PCP in group B2 (probable human carcinogen).

Monitoring of human exposure

Pentachlorophenol may be quantitated in plasma or urine as an index of excessive exposure. This is usually performed by gas chromatography with electron-capture or mass spectrometric detection. Since urine contains predominantly conjugated PCP in chronic exposure situations, prior hydrolysis of specimens is recommended. The current ACGIH biological exposure limits for occupational exposure to PCP are 5 mg/L in an end-of-shift plasma specimen and 2 mg/g creatinine in an end-of-shift urine specimen.[5][6][7]

Absorption in humans and animals

PCP is quickly absorbed through the gastrointestinal tract following ingestion. Accumulation is not common, but if it does occur, the major sites are the liver, kidneys, plasma protein, spleen and fat. Unless kidney and liver functions are impaired, PCP is quickly eliminated from tissues and blood, and is excreted, mainly unchanged or in conjugated form, via the urine. Single doses of PCP have half-lives in blood of 30 to 50 hours in humans. Biomagnification of PCP in the food chain is not thought to be significant due to the fairly rapid metabolism of the compound by exposed organisms.

Releases to the environment

PCP has been detected in surface waters and sediments, rainwater, drinking water, aquatic organisms, soil, and food, as well as in human milk, adipose tissue, and urine. As PCP is generally used for its properties as a biocidal agent, there is considerable concern about adverse ecosystem effects in areas of PCP contamination.

Releases to the environment are decreasing as a result of declining consumption and changing use methods. However, PCP is still released to surface waters from the atmosphere by wet deposition, from soil by run off and leaching, and from manufacturing and processing facilities. PCP is released directly into the atmosphere via volatilization from treated wood products and during production. Finally, releases to the soil can be by leaching from treated wood products, atmospheric deposition in precipitation (such as rain and snow), spills at industrial facilities and at hazardous waste sites.

After PCP is released into the atmosphere it decomposes through photolysis. The main biodegradative pathway for PCP is reductive dehalogenation. In this process, the compound PCP is broken down to tetrachlorophenols, trichlorophenols, and dichlorophenols. Another pathway is methylation to pentachloroanisole (a more lipid-soluble compound). These two methods eventually lead to ring cleavage and complete degradation.

In shallow waters, PCP is also quickly removed by photolysis. In deep or turbid water processes such as sorption and biodegradation take place. In reductive soil and sediments, PCP can be degraded within 14 days to 5 years, depending on the anaerobic soil bacteria that are present. However, adsorption of PCP in soils is pH dependent because it increases under acidic conditions and it decreases in neutral and basic conditions.

Pentachlorophenol by country

In May 2015, countries which have signed the Stockholm Convention voted 90-2 to ban Pentachlorophenol use. The United States is not a signatory and has not banned the chemical.[8]

New Zealand

PCP was used in New Zealand as a timber preservative and antisapstain treatment and it was no longer used after 1988.[9]

It was also sold as a moss killer to the general public (by Shell, at least) in the form of a 115g/L aqueous solution and labelled as a poison.

United States

Since the early 1980s, the purchase and use of PCP in the U.S has not been available to the general public. Nowadays most of the PCP used in the U.S is restricted to the treatment of utility poles and railroad ties. In the United States, any drinking water supply with a PCP concentration exceeding the MCL, 1 ppb, must be notified by the water supplier to the public.[2] Disposal of PCP and PCP contaminated substances are regulated under RCRA as F-listed (F021) or D-listed (D037) hazardous wastes. Bridges and similar structures like piers can still be treated with pentachlorophenol.

Chile

PCP was widely used in Chile until the early 1990s as fungicide to combat the so-called "blue stain" in pine timber under the name of Basilit.[citation needed]

See also

References

  1. 1.0 1.1 Cite error: Invalid <ref> tag; no text was provided for refs named PGCH
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  4. ToxFAQs for Chlorophenols, Agency for Toxic Substances and Disease Registry
  5. Edgerton TR, Moseman RF. Determination of pentachlorophenol in urine: the importance of hydrolysis. J. Agr. Food Chem. 27: 197-199, 1979.
  6. ACGIH. 2009 TLVs and BEIs. American Conference of Governmental Industrial Hygienists, Cincinnati, Ohio, 2009.
  7. R. Baselt, Disposition of Toxic Drugs and Chemicals in Man, 8th edition, Biomedical Publications, Foster City, California, 2008, pp. 1197-1200.
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External links

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