Suzanne Vardy, Brenda Baddiley, Christoph Braun, Troy Harris, Sarit Kaserzon, Stephen Moore
{"title":"目前的水质准则可能无法保护野生动物免受淡水生态系统中全氟辛烷磺酸的生物积累。","authors":"Suzanne Vardy, Brenda Baddiley, Christoph Braun, Troy Harris, Sarit Kaserzon, Stephen Moore","doi":"10.1093/inteam/vjaf110","DOIUrl":null,"url":null,"abstract":"<p><p>Accumulation of perfluorooctane sulfonate (PFOS) has been demonstrated in biota across the globe. Higher trophic-level air-breathing organisms that live in or depend upon aquatic ecosystems are most at risk from PFOS and other bioaccumulative per- and polyfluoroalkyl substances (PFAS). Nonetheless, there are very few guidelines available for the protection of air-breathing wildlife. The Australian and New Zealand Guidelines for Fresh and Marine Water Quality provide default guideline values (DGV) for toxicants. These DGVs are based on traditional ecotoxicological tests that do not consider bioaccumulation. For chemicals known to bioaccumulate, the guidelines recommend a precautionary approach by applying the DGV that protects 99% of species. The PFAS National Environmental Management Plan (NEMP) provides wildlife diet guidelines (WDGs) to protect mammals and birds that consume aquatic organisms. Other jurisdictions have developed Water Quality Criteria for the protection of wildlife via the use of dietary studies and combined with bioconcentration factors to back calculate a safe concentration of PFOS in the water. As end users tend to use Water Quality Guidelines/Criteria as screening tools for further risk assessment, it is critically important to understand whether these PFOS guidelines effectively protect wildlife. In 2022-2023, water, sediment, and biota samples were collected over a year at eight sites in South East Queensland, Australia. The dominant PFAS found in biota was PFOS, with the only other PFAS found in biota to be long-chain perfluorocarboxylic acids (PFCAs). Fifty per cent of the sites had mean PFOS surface water concentrations that were below the draft Australian DGV and yet all but one had biota concentrations that exceeded the NEMP WDGs. Bioaccumulation factors (BAFS) in fish were inversely related to concentrations of PFOS in water and showed a high variability within species and sites. Considering this, an interim field derived screening threshold is proposed for wildlife risk assessments.</p>","PeriodicalId":13557,"journal":{"name":"Integrated Environmental Assessment and Management","volume":" ","pages":""},"PeriodicalIF":8.4000,"publicationDate":"2025-08-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Current Water Quality Guidelines may not protect Wildlife from PFOS Bioaccumulation in Freshwater Ecosystems.\",\"authors\":\"Suzanne Vardy, Brenda Baddiley, Christoph Braun, Troy Harris, Sarit Kaserzon, Stephen Moore\",\"doi\":\"10.1093/inteam/vjaf110\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Accumulation of perfluorooctane sulfonate (PFOS) has been demonstrated in biota across the globe. Higher trophic-level air-breathing organisms that live in or depend upon aquatic ecosystems are most at risk from PFOS and other bioaccumulative per- and polyfluoroalkyl substances (PFAS). Nonetheless, there are very few guidelines available for the protection of air-breathing wildlife. The Australian and New Zealand Guidelines for Fresh and Marine Water Quality provide default guideline values (DGV) for toxicants. These DGVs are based on traditional ecotoxicological tests that do not consider bioaccumulation. For chemicals known to bioaccumulate, the guidelines recommend a precautionary approach by applying the DGV that protects 99% of species. The PFAS National Environmental Management Plan (NEMP) provides wildlife diet guidelines (WDGs) to protect mammals and birds that consume aquatic organisms. Other jurisdictions have developed Water Quality Criteria for the protection of wildlife via the use of dietary studies and combined with bioconcentration factors to back calculate a safe concentration of PFOS in the water. As end users tend to use Water Quality Guidelines/Criteria as screening tools for further risk assessment, it is critically important to understand whether these PFOS guidelines effectively protect wildlife. In 2022-2023, water, sediment, and biota samples were collected over a year at eight sites in South East Queensland, Australia. The dominant PFAS found in biota was PFOS, with the only other PFAS found in biota to be long-chain perfluorocarboxylic acids (PFCAs). Fifty per cent of the sites had mean PFOS surface water concentrations that were below the draft Australian DGV and yet all but one had biota concentrations that exceeded the NEMP WDGs. Bioaccumulation factors (BAFS) in fish were inversely related to concentrations of PFOS in water and showed a high variability within species and sites. 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Current Water Quality Guidelines may not protect Wildlife from PFOS Bioaccumulation in Freshwater Ecosystems.
Accumulation of perfluorooctane sulfonate (PFOS) has been demonstrated in biota across the globe. Higher trophic-level air-breathing organisms that live in or depend upon aquatic ecosystems are most at risk from PFOS and other bioaccumulative per- and polyfluoroalkyl substances (PFAS). Nonetheless, there are very few guidelines available for the protection of air-breathing wildlife. The Australian and New Zealand Guidelines for Fresh and Marine Water Quality provide default guideline values (DGV) for toxicants. These DGVs are based on traditional ecotoxicological tests that do not consider bioaccumulation. For chemicals known to bioaccumulate, the guidelines recommend a precautionary approach by applying the DGV that protects 99% of species. The PFAS National Environmental Management Plan (NEMP) provides wildlife diet guidelines (WDGs) to protect mammals and birds that consume aquatic organisms. Other jurisdictions have developed Water Quality Criteria for the protection of wildlife via the use of dietary studies and combined with bioconcentration factors to back calculate a safe concentration of PFOS in the water. As end users tend to use Water Quality Guidelines/Criteria as screening tools for further risk assessment, it is critically important to understand whether these PFOS guidelines effectively protect wildlife. In 2022-2023, water, sediment, and biota samples were collected over a year at eight sites in South East Queensland, Australia. The dominant PFAS found in biota was PFOS, with the only other PFAS found in biota to be long-chain perfluorocarboxylic acids (PFCAs). Fifty per cent of the sites had mean PFOS surface water concentrations that were below the draft Australian DGV and yet all but one had biota concentrations that exceeded the NEMP WDGs. Bioaccumulation factors (BAFS) in fish were inversely related to concentrations of PFOS in water and showed a high variability within species and sites. Considering this, an interim field derived screening threshold is proposed for wildlife risk assessments.
期刊介绍:
Integrated Environmental Assessment and Management (IEAM) publishes the science underpinning environmental decision making and problem solving. Papers submitted to IEAM must link science and technical innovations to vexing regional or global environmental issues in one or more of the following core areas:
Science-informed regulation, policy, and decision making
Health and ecological risk and impact assessment
Restoration and management of damaged ecosystems
Sustaining ecosystems
Managing large-scale environmental change
Papers published in these broad fields of study are connected by an array of interdisciplinary engineering, management, and scientific themes, which collectively reflect the interconnectedness of the scientific, social, and environmental challenges facing our modern global society:
Methods for environmental quality assessment; forecasting across a number of ecosystem uses and challenges (systems-based, cost-benefit, ecosystem services, etc.); measuring or predicting ecosystem change and adaptation
Approaches that connect policy and management tools; harmonize national and international environmental regulation; merge human well-being with ecological management; develop and sustain the function of ecosystems; conceptualize, model and apply concepts of spatial and regional sustainability
Assessment and management frameworks that incorporate conservation, life cycle, restoration, and sustainability; considerations for climate-induced adaptation, change and consequences, and vulnerability
Environmental management applications using risk-based approaches; considerations for protecting and fostering biodiversity, as well as enhancement or protection of ecosystem services and resiliency.
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