Pesticide Fate Database: Difference between revisions
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==Long description== | ==Long description== | ||
/ | n determining whether a pesticide can be approved for use in the United States, EPA's Office of Pesticide Programs (OPP) collects and reviews a wide range of scientific studies, including chemical fate and transport studies. These studies describe what happens to a pesticide in soil, water, and air after it has been applied (how it degrades and where it goes) and include the following: | ||
Product chemistry | |||
Metabolism | |||
Hydrolysis | |||
Photolysis | |||
Field Dissipation | |||
Bioaccumulation | |||
Adsorption/desorption and leaching | |||
Chemical fate and transport studies are designed to help identify which dissipation processes are likely to occur when a pesticide is released into the environment and to characterize the breakdown products that are likely to result from these degradation processes. | |||
Endpoint information (e.g., half-lives) from these studies can now be viewed in OPP's Pesticide Fate Database. The initial version of the database contains 188 pesticide active ingredients. Additional pesticide active ingredients and degradates will be added to the fate database in the near future. | |||
Individuals inside and outside the agency will be able to use this database to model or predict the fate of pesticides in the environment and to develop exposure characterizations that describe the potential exposure of plants, animals, and water resources to pesticide residues. | |||
== Link == | == Link == |
Latest revision as of 12:33, 22 June 2010
This page provides a description and a link to a "Pesticide Fate Database" database that provides information needed when modeling exposure levels or performing exposure assessment.
Short description
EPA's Office of Pesticide Programs (OPP) collects and reviews a wide range of scientific studies, including chemical fate and transport studies. This information is gathered to Pesticide Fate Database including following information for 188 pesticide active ingredients: physical and chemical properties, chemical fate, transport of pesticide active ingredients registered in the United States, degradates or breakdown products of these registered pesticides and endpoint information such as half lives and soil-water partitioning coefficients. Additional pesticide active ingredients and degradates will be added to the fate database in the near future.
Long description
n determining whether a pesticide can be approved for use in the United States, EPA's Office of Pesticide Programs (OPP) collects and reviews a wide range of scientific studies, including chemical fate and transport studies. These studies describe what happens to a pesticide in soil, water, and air after it has been applied (how it degrades and where it goes) and include the following:
Product chemistry
Metabolism
Hydrolysis
Photolysis
Field Dissipation
Bioaccumulation
Adsorption/desorption and leaching
Chemical fate and transport studies are designed to help identify which dissipation processes are likely to occur when a pesticide is released into the environment and to characterize the breakdown products that are likely to result from these degradation processes.
Endpoint information (e.g., half-lives) from these studies can now be viewed in OPP's Pesticide Fate Database. The initial version of the database contains 188 pesticide active ingredients. Additional pesticide active ingredients and degradates will be added to the fate database in the near future.
Individuals inside and outside the agency will be able to use this database to model or predict the fate of pesticides in the environment and to develop exposure characterizations that describe the potential exposure of plants, animals, and water resources to pesticide residues.
Link
http://cfpub.epa.gov/pfate/Home.cfm
Key words
half life, partition coefficients, soil, water, bioaccumulation, absorption