Difference between revisions of "Atrazine"

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{{Definition|title= atrazine
 
{{Definition|title= atrazine
  
|definition= Atrazine is an organic compound which is  widely used as a herbicide. Its use is controversial due to its effects on nontarget species, such as on amphibians. Its use was banned in the European Union in 2004 but it remains one of the most widely used herbicides in the U.S. . <ref name="Wiki">[http://en.wikipedia.org/wiki/Atrazine www.wikipedia.org August 13 2009]</ref> }}
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|definition= Atrazine is an organic compound which is  widely used as a herbicide. Atrazine is controversial due to its effects on nontarget species, such as on amphibians. Its use was banned from the European Union in 2004 but it remains one of the most widely used herbicides in the U.S.A.<ref name="Wiki">[http://en.wikipedia.org/wiki/Atrazine www.wikipedia.org August 13 2009]</ref>. }}
  
 
== Notes ==
 
== Notes ==
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Atrazine was first used in the United States in 1959 where it currently still is one of the most widely used agricultural pesticides, with an annual production of over 35.000 tonnes. It is mainly used in sorghum, corn and sugarcane cultivation. It is released in the environment both from production sites as from its use as a herbicide.
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Atrazine was first used in 1959 in the United States, where it currently still is one of the most widely used agricultural pesticides, with an annual production of over 35.000 tonnes. It is mainly used in sorghum, corn and sugarcane cultivation. It is released in the environment both from production sites as from its use as a herbicide.
 
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Atrazine has a moderate water solubility of 30 mg/l, which makes it quite mobile in the environment. It is also [[persistent]] with a [[half-life]] in water of 150 days, and an even longer one in the soil. It has a relatively low tendency to [[adsorption|adsorb]] to soils or particles. Therefore, atrazine is expected to be present in surface water and groundwater. It has a low tendency to evaporate to the atmosphere and might afterwards be deposited by rainfall, although it is rapidly degraded in the atmosphere.
  
Atrazine has a moderate water solubility of 30 mg/l and is therefore mobile the environment. It is also persistent; in water it takes over 150 days to half its concentration, it takes even longer in the soil. It has a relative low tendency to [[adsorption|adsorb]] to soils or particles. As such, atrazine is expected to be present in surface water and groundwater. It also has a low tendency to evaporate to the atmosphere and can afterwards be deposited by rainfall, although it is rapidly degraded in the atmosphere.
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Atrazine has a very low tendency to [[bioaccumulation|bioaccumulate]] and is therefore not expected to [[biomagnification|biomagnify]] through [[food chain|food chains]].
  
It has a very low tendency to [[bioaccumulation|bioaccumulate]] and is therefore not expected to [[biomagnification|biomagnify]] through food chains.
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Atrazine has a moderate [[toxic|toxicity]] in crustaceans and fish; acute lethal effects can induced by concentrations above 3mg/l, although some fish and crustacean species can tolerate atrazine concentrations above 80 mg/l. Phytoplankton is more vulnerable as toxic effects occur at concentrations of 60 µg/l. There have been reports that low concentrations of only 20 µg/l could change the behaviour of amphibians. Atrazine has also been suspected to induce [[endocrine disrupting compounds|endocrine disrupting effects]] in amphibians and mammals<ref name="Epa">[http://www.epa.gov/oppsrrd1/REDs/atrazine_combined_docs.pdf Interim Reregistration Eligibility Decision for Atrazine, U.S. EPA, January, 2003.]</ref>.
  
It has a low toxicity in crustaceans and fish; concentrations above 3mg/l are necessary to induce lethal effects. Some fish and crustacean species can even survive in waters with more than 80 mg/l of Atrazine. Phytoplancton is more vulnerable and can be affected by concentrations of only 60 µg/l. There have been reports that low concentrations of only 20 µg/l could change the behaviour of amphibians. Atrazine has also been suspected to induce [[endocrine disrupting compound|endocrine disrupting effects]] in amphibians and mammals.
 
<ref name="Epa">[http://www.epa.gov/oppsrrd1/REDs/atrazine_combined_docs.pdf Interim Reregistration Eligibility Decision for Atrazine, U.S. EPA, January, 2003.]</ref>
 
 
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==References==
 
==References==
 
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{{author
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|AuthorFullName=Daphnis De Pooter
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|AuthorName=Daphnisd}}
  
[[Category:Coastal and marine pollution]]
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[[Category:Toxicity chemicals]]

Latest revision as of 13:02, 9 August 2020

Definition of atrazine:
Atrazine is an organic compound which is widely used as a herbicide. Atrazine is controversial due to its effects on nontarget species, such as on amphibians. Its use was banned from the European Union in 2004 but it remains one of the most widely used herbicides in the U.S.A.[1].
This is the common definition for atrazine, other definitions can be discussed in the article

Notes

Atrazine
Atrazine
Formula
C8H14ClN5

Atrazine was first used in 1959 in the United States, where it currently still is one of the most widely used agricultural pesticides, with an annual production of over 35.000 tonnes. It is mainly used in sorghum, corn and sugarcane cultivation. It is released in the environment both from production sites as from its use as a herbicide.

Atrazine has a moderate water solubility of 30 mg/l, which makes it quite mobile in the environment. It is also persistent with a half-life in water of 150 days, and an even longer one in the soil. It has a relatively low tendency to adsorb to soils or particles. Therefore, atrazine is expected to be present in surface water and groundwater. It has a low tendency to evaporate to the atmosphere and might afterwards be deposited by rainfall, although it is rapidly degraded in the atmosphere. Atrazine has a very low tendency to bioaccumulate and is therefore not expected to biomagnify through food chains. Atrazine has a moderate toxicity in crustaceans and fish; acute lethal effects can induced by concentrations above 3mg/l, although some fish and crustacean species can tolerate atrazine concentrations above 80 mg/l. Phytoplankton is more vulnerable as toxic effects occur at concentrations of 60 µg/l. There have been reports that low concentrations of only 20 µg/l could change the behaviour of amphibians. Atrazine has also been suspected to induce endocrine disrupting effects in amphibians and mammals[2].


Environmental standards and legislation

Included in the water framework list of priority substances


See also

Atrazine on ED North Database


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 (2020): Atrazine. Available from http://www.coastalwiki.org/wiki/Atrazine [accessed on 31-10-2024]