Environmental Persistence of Organic Pollutants: Guidance for Development and Review of POP Risk Profiles
This article represents 1 of 9 articles generated from a Society of Environmental Toxicology and Chemistry (SETAC) Pellston Workshop entitled Science-Based Guidance and Framework for the Evaluation and Identification of PBTs and POPs, (January 2008, Florida, USA). The workshop objectives were to dev...
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| Published in: | Integrated environmental assessment and management Vol. 5; no. 4; pp. 539 - 556 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Hoboken
Society of Environmental Toxicology and Chemistry
01-10-2009
Wiley Periodicals, Inc Blackwell Publishing Ltd |
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| Abstract | This article represents 1 of 9 articles generated from a Society of Environmental Toxicology and Chemistry (SETAC) Pellston Workshop entitled Science-Based Guidance and Framework for the Evaluation and Identification of PBTs and POPs, (January 2008, Florida, USA). The workshop objectives were to develop guidance and recommendations on the evaluation of substances fulfilling PBT and POP criteria, using scientific information, such as experimental and monitoring data and computer models. Environmental persistence is an important property that can enhance the potential of a chemical substance to exert adverse effects and be transported to remote environments. The persistence of organic compounds is governed by the rates at which they are removed by biological and chemical processes, such as biodegradation, hydrolysis, atmospheric oxidation, and photolysis. The persistence workgroup in a recent Society of Environmental Toxicology and Chemistry (SETAC) Pellston workshop (Pensacola, FL, USA, January 2008) focused on evaluating persistence of organic compounds in environmental media (air, water, soil, sediment) in terms of their single-medium degradation half-lives. The primary aim was to provide guidance to authors and reviewers of chemical dossiers for persistent organic pollutants (POPs) and persistent, bioaccumulative, and toxic substances (PBTs) proposed for action. A second objective was to provide a summary of the current state of the science with respect to POP fate assessment. Assessing the persistence of chemical substances in the environment is not straightforward. A common misconception is that, like many chemical properties, environmental persistence is an inherent property of the substance and can be readily measured. In fact, rates of degradation of a substance in the environment are determined by a combination of substance-specific properties and environmental conditions. This article addresses how persistence can be evaluated based on an assortment of supporting information. Special attention is given to several critical issues, including transformation products, nonextractable residues, and treatment of uncertainty and conflicting data as part of a weight-of-evidence assessment. |
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| AbstractList | This article represents 1 of 9 articles generated from a Society of Environmental Toxicology and Chemistry (SETAC) Pellston Workshop entitled Science-Based Guidance and Framework for the Evaluation and Identification of PBTs and POPs, (January 2008, Florida, USA). The workshop objectives were to develop guidance and recommendations on the evaluation of substances fulfilling PBT and POP criteria, using scientific information, such as experimental and monitoring data and computer models. Environmental persistence is an important property that can enhance the potential of a chemical substance to exert adverse effects and be transported to remote environments. The persistence of organic compounds is governed by the rates at which they are removed by biological and chemical processes, such as biodegradation, hydrolysis, atmospheric oxidation, and photolysis. The persistence workgroup in a recent Society of Environmental Toxicology and Chemistry (SETAC) Pellston workshop (Pensacola, FL, USA, January 2008) focused on evaluating persistence of organic compounds in environmental media (air, water, soil, sediment) in terms of their single-medium degradation half-lives. The primary aim was to provide guidance to authors and reviewers of chemical dossiers for persistent organic pollutants (POPs) and persistent, bioaccumulative, and toxic substances (PBTs) proposed for action. A second objective was to provide a summary of the current state of the science with respect to POP fate assessment. Assessing the persistence of chemical substances in the environment is not straightforward. A common misconception is that, like many chemical properties, environmental persistence is an inherent property of the substance and can be readily measured. In fact, rates of degradation of a substance in the environment are determined by a combination of substance-specific properties and environmental conditions. This article addresses how persistence can be evaluated based on an assortment of supporting information. Special attention is given to several critical issues, including transformation products, nonextractable residues, and treatment of uncertainty and conflicting data as part of a weight-of-evidence assessment. Environmental persistence is an important property that can enhance the potential of a chemical substance to exert adverse effects and be transported to remote environments. The persistence of organic compounds is governed by the rates at which they are removed by biological and chemical processes, such as biodegradation, hydrolysis, atmospheric oxidation, and photolysis. The persistence workgroup in a recent Society of Environmental Toxicology and Chemistry (SETAC) Pellston workshop (Pensacola, FL, USA, January 2008) focused on evaluating persistence of organic compounds in environmental media (air, water, soil, sediment) in terms of their single-medium degradation half-lives. The primary aim was to provide guidance to authors and reviewers of chemical dossiers for persistent organic pollutants (POPs) and persistent, bioaccumulative, and toxic substances (PBTs) proposed for action. A second objective was to provide a summary of the current state of the science with respect to POP fate assessment. Assessing the persistence of chemical substances in the environment is not straightforward. A common misconception is that, like many chemical properties, environmental persistence is an inherent property of the substance and can be readily measured. In fact, rates of degradation of a substance in the environment are determined by a combination of substance-specific properties and environmental conditions. This article addresses how persistence can be evaluated based on an assortment of supporting information. Special attention is given to several critical issues, including transformation products, nonextractable residues, and treatment of uncertainty and conflicting data as part of a weight-of-evidence assessment. [PUBLICATION ABSTRACT] This article represents 1 of 9 articles generated from a Society of Environmental Toxicology and Chemistry (SETAC) Pellston Workshop entitled Science-Based Guidance and Framework for the Evaluation and Identification of PBTs and POPs, (January 2008, Florida, USA). The workshop objectives were to develop guidance and recommendations on the evaluation of substances fulfilling PBT and POP criteria, using scientific information, such as experimental and monitoring data and computer models. Environmental persistence is an important property that can enhance the potential of a chemical substance to exert adverse effects and be transported to remote environments. The persistence of organic compounds is governed by the rates at which they are removed by biological and chemical processes, such as biodegradation, hydrolysis, atmospheric oxidation, and photolysis. The persistence workgroup in a recent Society of Environmental Toxicology and Chemistry (SETAC) Pellston workshop (Pensacola, FL, USA, January 2008) focused on evaluating persistence of organic compounds in environmental media (air, water, soil, sediment) in terms of their single-medium degradation half-lives. The primary aim was to provide guidance to authors and reviewers of chemical dossiers for persistent organic pollutants (POPs) and persistent, bioaccumulative, and toxic substances (PBTs) proposed for action. A second objective was to provide a summary of the current state of the science with respect to POP fate assessment. Assessing the persistence of chemical substances in the environment is not straightforward. A common misconception is that, like many chemical properties, environmental persistence is an inherent property of the substance and can be readily measured. In fact, rates of degradation of a substance in the environment are determined by a combination of substance-specific properties and environmental conditions. This article addresses how persistence can be evaluated based on an assortment of supporting information. Special attention is given to several critical issues, including transformation products, nonextractable residues, and treatment of uncertainty and conflicting data as part of a weight-of-evidence assessment. |
| Author | Madsen, Torben Boethling, Robert Howard, P Klečka, Gary Whelan, Mick J Fenner, Kathrin Snape, Jason R |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/19552498$$D View this record in MEDLINE/PubMed |
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| Snippet | This article represents 1 of 9 articles generated from a Society of Environmental Toxicology and Chemistry (SETAC) Pellston Workshop entitled Science-Based... Environmental persistence is an important property that can enhance the potential of a chemical substance to exert adverse effects and be transported to remote... |
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| SubjectTerms | Bioaccumulation Biodegradation Chemical properties Chemicals Computer simulation Criteria Degradation Environment Environmental conditions Environmental monitoring Environmental Monitoring - methods Hazardous Substances - analysis Integrated environmental assessment Management Mathematical models Monitoring Organic chemicals Organic Chemicals - analysis Organic compounds Persistence Persistent organic pollutants Photolysis Pollutants Polybutylene terephthalates POPs Risk Risk Assessment - methods Special Series: Science-Based Guidance and Framework for the Evaluation and Identification of PBTs and POPs Toxic substances Toxicology Workshops |
| Title | Environmental Persistence of Organic Pollutants: Guidance for Development and Review of POP Risk Profiles |
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