Difference between revisions of "Hexachlorobutadiene"

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HCBD mainly enters the environment during processing: in 1997 EU countries emitted 2 kg of HCBD into the atmosphere and 100 kg into the hydrosphere<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.  
 
HCBD mainly enters the environment during processing: in 1997 EU countries emitted 2 kg of HCBD into the atmosphere and 100 kg into the hydrosphere<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.  
  
Hexachlorobutadiene has quite a high vapour pressure and is therefore mainly present into the atmosphere (98%). In the atmosphere it has a [[half-life]] between 60 and 1 year. In water it has a low solubility of 3,2 mg/l and has a tendency to [[adsorption|adsorb]] to suspended particles and sediments. In fact only 0,2 percent of the environmental HCBD is expected to be dissolved in water and the remaining 1,8% adsorbed to sediments and soils. In aerobic waters and soils, HCBD can be biodegraded, although its half-life in water is between 30 and 300 days. <ref name="US">[http://www.atsdr.cdc.gov/toxprofiles/tp42.pdf U.S. DEPARTMENT OF HEALTH AND HUMAN SERVICES 1994 TOXICOLOGICAL PROFILE FOR HEXACHLOROBUTADIENE]</ref>
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Hexachlorobutadiene has quite a high vapour pressure and is therefore mainly present into the atmosphere (98%), where it has a [[half-life]] between 60 days and 1 year. In water it has a low solubility of 3,2 mg/l and has a tendency to [[adsorption|adsorb]] to suspended particles and sediments. In fact only 0,2 percent of the environmental HCBD is expected to be dissolved in water and the remaining 1,8% adsorbed to sediments and soils. In aerobic waters and soils, HCBD can be biodegraded, although its half-life in water is between 30 and 300 days<ref name="US">[http://www.atsdr.cdc.gov/toxprofiles/tp42.pdf U.S. DEPARTMENT OF HEALTH AND HUMAN SERVICES 1994 TOXICOLOGICAL PROFILE FOR HEXACHLOROBUTADIENE]</ref>.
  
Hexachlorobutadiene has a high potential to [[bioaccumulation|bioaccumulate]]. High bioaccumulation rates have been shown in a number of marine [[species]], although in others hardly any bioaccumulation took place. Therefore some species appear to be more able to metabolise HCBD than others. <ref name="US">[http://www.atsdr.cdc.gov/toxprofiles/tp42.pdf U.S. DEPARTMENT OF HEALTH AND HUMAN SERVICES 1994 TOXICOLOGICAL PROFILE FOR HEXACHLOROBUTADIENE]</ref> [[Pollution and benthic fishes|Fish]] seem to accumulate high levels in their livers, about 10 times more than in other tissues. HCBD seems to have a lower tendency to bioaccumulate through food uptake than through direct uptake from water. One study which fed predatory fish with contaminated prey fish in fact demonstrated lower concentrations in the predatory fish. A study where rats were fed with contaminated food also didn't demonstrate any bioaccumulation. Therefore the risks of secondary poisoning for [[pollution and marine mammals|marine mammals]] and [[pollution and sea birds|sea birds]] by [[biomagnification]] are doubtful.<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>
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Hexachlorobutadiene has a high potential to [[bioaccumulation|bioaccumulate]]. High bioaccumulation rates have been shown in a number of marine [[species]], although in others hardly any bioaccumulation took place. Some species appear to be more able to metabolise HCBD than others<ref name="US">[http://www.atsdr.cdc.gov/toxprofiles/tp42.pdf U.S. DEPARTMENT OF HEALTH AND HUMAN SERVICES 1994 TOXICOLOGICAL PROFILE FOR HEXACHLOROBUTADIENE]</ref>[[Pollution and benthic fishes|Fish]] seem to accumulate high levels in their livers, about 10 times more than in other tissues. HCBD seems to have a lower tendency to bioaccumulate through food uptake than through direct uptake from water. One study which fed predatory fish with contaminated prey fish in fact demonstrated lower concentrations in the predatory fish. A study where rats were fed with contaminated food also didn't demonstrate any bioaccumulation. Therefore the risks of secondary poisoning for [[pollution and marine mammals|marine mammals]] and [[pollution and sea birds|sea birds]] by [[biomagnification]] are doubtful<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.
  
Acute toxicity in marine fishes can be caused by concentrations above 0,45 mg/l, in algae by concentrations above 0,85 mg/l. Birds fed during 90 days with food containing 10 mg/kg HCBD displayed a reduced fertility, caused by a reduced chick survival. <ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>
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Acute [[toxic|toxicity]] in marine fishes can be caused by concentrations above 0,45 mg/l, in algae by concentrations above 0,85 mg/l. Birds fed during 90 days with food containing 10 mg/kg HCBD displayed a reduced fertility, caused by a reduced chick survival<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.
  
Measured marine surface water concentrations of HCBD in Europe have reached values of up to 150 ng/l in [[pollution|polluted]] [[estuary|estuaries]], although typical [[North Sea]] concentrations are around 4 ng/l. The highest concentration measured in fish tissue was 0,4 µg/kg. <ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>
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Measured marine surface water concentrations of HCBD in Europe have reached values of up to 150 ng/l in [[pollution|polluted]] [[estuary|estuaries]], although typical [[North Sea]] concentrations are around 4 ng/l. The highest concentration measured in fish tissue was 0,4 µg/kg<ref name="euro">[http://www.eurochlor.org/upload/documents/document81.pdf Euro Chlor 2002 Euro Chlor Risk Assessment for the Marine Environment OSPARCOM Region - North Sea Hexachlorobutadiene]</ref>.
  
 
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==References==
 
==References==
 
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{{author
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|AuthorID=19826
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|AuthorFullName=Daphnis De Pooter
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|AuthorName=Daphnisd}}
 
[[Category:Coastal and marine pollution]]
 
[[Category:Coastal and marine pollution]]

Latest revision as of 16:16, 20 March 2013

Definition of hexachlorobutadiene (HCBD):
Hexachlorobutadiene, also known as perchlorobutadiene, is a colourless liquid and has a turpentine-like odour. [1]
This is the common definition for hexachlorobutadiene (HCBD), other definitions can be discussed in the article

Notes

Hexachlorobutadiene
Hexachlorobutadiene
Formula
C4Cl6

Historically HCBD was used as a solvent for rubber and other polymers, heat transfer fluids, transformer liquid and washing liquor for removing hydrocarbons. It has also been used in agriculture as a seed dressing and fungicide for a variety of crops. Due to environmental concerns the use of HCBD in such applications has now virtually ceased, although it is possible that HCBD may still be in use in some parts of the world. HCBD is still generated as a by-product of tetrachlorethene and tetrachloromethane production. HCBD mainly enters the environment during processing: in 1997 EU countries emitted 2 kg of HCBD into the atmosphere and 100 kg into the hydrosphere[2].

Hexachlorobutadiene has quite a high vapour pressure and is therefore mainly present into the atmosphere (98%), where it has a half-life between 60 days and 1 year. In water it has a low solubility of 3,2 mg/l and has a tendency to adsorb to suspended particles and sediments. In fact only 0,2 percent of the environmental HCBD is expected to be dissolved in water and the remaining 1,8% adsorbed to sediments and soils. In aerobic waters and soils, HCBD can be biodegraded, although its half-life in water is between 30 and 300 days[1].

Hexachlorobutadiene has a high potential to bioaccumulate. High bioaccumulation rates have been shown in a number of marine species, although in others hardly any bioaccumulation took place. Some species appear to be more able to metabolise HCBD than others[1]. Fish seem to accumulate high levels in their livers, about 10 times more than in other tissues. HCBD seems to have a lower tendency to bioaccumulate through food uptake than through direct uptake from water. One study which fed predatory fish with contaminated prey fish in fact demonstrated lower concentrations in the predatory fish. A study where rats were fed with contaminated food also didn't demonstrate any bioaccumulation. Therefore the risks of secondary poisoning for marine mammals and sea birds by biomagnification are doubtful[2].

Acute toxicity in marine fishes can be caused by concentrations above 0,45 mg/l, in algae by concentrations above 0,85 mg/l. Birds fed during 90 days with food containing 10 mg/kg HCBD displayed a reduced fertility, caused by a reduced chick survival[2].

Measured marine surface water concentrations of HCBD in Europe have reached values of up to 150 ng/l in polluted estuaries, although typical North Sea concentrations are around 4 ng/l. The highest concentration measured in fish tissue was 0,4 µg/kg[2].


Environmental standards and legislation

Included in the water framework list of priority substances


References

The main author of this article is Daphnis De Pooter
Please note that others may also have edited the contents of this article.

Citation: Daphnis De Pooter (2013): Hexachlorobutadiene. Available from http://www.coastalwiki.org/wiki/Hexachlorobutadiene [accessed on 7-07-2020]