Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness.
Current chemical risk assessment approaches rely on a standard suite of test species to assess toxicity to environmental species. Assessment factors are used to extrapolate from single species to communities and ecosystem effects. This approach is pragmatic, but lacks resolution in biological and environmental parameters. Novel modelling approaches can help improve the biological resolution of assessments by using mechanistic information to identify priority species and priority regions that are potentially most impacted by chemical stressors. In this study we developed predictive sensitivity models by combining species-specific information on acute chemical sensitivity (LC50 and EC50), traits, and taxonomic relatedness. These models were applied at two spatial scales to reveal spatial differences in the sensitivity of species assemblages towards two chemical modes of action (MOA): narcosis and acetylcholinesterase (AChE) inhibition. We found that on a relative scale, 46% and 33% of European species were ranked as more sensitive towards narcosis and AChE inhibition, respectively. These more sensitive species were distributed with higher occurrences in the south and north-eastern regions, reflecting known continental patterns of endemic macroinvertebrate biodiversity. We found contradicting sensitivity patterns depending on the MOA for UK scenarios, with more species displaying relative sensitivity to narcotic MOA in north and north-western regions, and more species with relative sensitivity to AChE inhibition MOA in south and south-western regions. Overall, we identified hotspots of species sensitive to chemical stressors at two spatial scales, and discuss data gaps and crucial technological advances required for the successful application of the proposed methodology to invertebrate scenarios, which remain underrepresented in global conservation priorities.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Chemical mode of action, Chemical stress, Macroinvertebrate assemblage sensitivity, Phylogenetic modelling, Predictive ecotoxicology, Species traits, |
| Online Access: | https://research.wur.nl/en/publications/potential-impact-of-chemical-stress-on-freshwater-invertebrates-a |
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dig-wur-nl-wurpubs-5645002025-01-15 Van den Berg, Sanne J.P. Rendal, Cecilie Focks, Andreas Butler, Emma Peeters, Edwin T.H.M. De Laender, Frederik Van den Brink, Paul J. Article/Letter to editor Science of the Total Environment 731 (2020) ISSN: 0048-9697 Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. 2020 Current chemical risk assessment approaches rely on a standard suite of test species to assess toxicity to environmental species. Assessment factors are used to extrapolate from single species to communities and ecosystem effects. This approach is pragmatic, but lacks resolution in biological and environmental parameters. Novel modelling approaches can help improve the biological resolution of assessments by using mechanistic information to identify priority species and priority regions that are potentially most impacted by chemical stressors. In this study we developed predictive sensitivity models by combining species-specific information on acute chemical sensitivity (LC50 and EC50), traits, and taxonomic relatedness. These models were applied at two spatial scales to reveal spatial differences in the sensitivity of species assemblages towards two chemical modes of action (MOA): narcosis and acetylcholinesterase (AChE) inhibition. We found that on a relative scale, 46% and 33% of European species were ranked as more sensitive towards narcosis and AChE inhibition, respectively. These more sensitive species were distributed with higher occurrences in the south and north-eastern regions, reflecting known continental patterns of endemic macroinvertebrate biodiversity. We found contradicting sensitivity patterns depending on the MOA for UK scenarios, with more species displaying relative sensitivity to narcotic MOA in north and north-western regions, and more species with relative sensitivity to AChE inhibition MOA in south and south-western regions. Overall, we identified hotspots of species sensitive to chemical stressors at two spatial scales, and discuss data gaps and crucial technological advances required for the successful application of the proposed methodology to invertebrate scenarios, which remain underrepresented in global conservation priorities. en application/pdf https://research.wur.nl/en/publications/potential-impact-of-chemical-stress-on-freshwater-invertebrates-a 10.1016/j.scitotenv.2020.139150 https://edepot.wur.nl/522303 Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits |
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Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits Van den Berg, Sanne J.P. Rendal, Cecilie Focks, Andreas Butler, Emma Peeters, Edwin T.H.M. De Laender, Frederik Van den Brink, Paul J. Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| description |
Current chemical risk assessment approaches rely on a standard suite of test species to assess toxicity to environmental species. Assessment factors are used to extrapolate from single species to communities and ecosystem effects. This approach is pragmatic, but lacks resolution in biological and environmental parameters. Novel modelling approaches can help improve the biological resolution of assessments by using mechanistic information to identify priority species and priority regions that are potentially most impacted by chemical stressors. In this study we developed predictive sensitivity models by combining species-specific information on acute chemical sensitivity (LC50 and EC50), traits, and taxonomic relatedness. These models were applied at two spatial scales to reveal spatial differences in the sensitivity of species assemblages towards two chemical modes of action (MOA): narcosis and acetylcholinesterase (AChE) inhibition. We found that on a relative scale, 46% and 33% of European species were ranked as more sensitive towards narcosis and AChE inhibition, respectively. These more sensitive species were distributed with higher occurrences in the south and north-eastern regions, reflecting known continental patterns of endemic macroinvertebrate biodiversity. We found contradicting sensitivity patterns depending on the MOA for UK scenarios, with more species displaying relative sensitivity to narcotic MOA in north and north-western regions, and more species with relative sensitivity to AChE inhibition MOA in south and south-western regions. Overall, we identified hotspots of species sensitive to chemical stressors at two spatial scales, and discuss data gaps and crucial technological advances required for the successful application of the proposed methodology to invertebrate scenarios, which remain underrepresented in global conservation priorities. |
| format |
Article/Letter to editor |
| topic_facet |
Chemical mode of action Chemical stress Macroinvertebrate assemblage sensitivity Phylogenetic modelling Predictive ecotoxicology Species traits |
| author |
Van den Berg, Sanne J.P. Rendal, Cecilie Focks, Andreas Butler, Emma Peeters, Edwin T.H.M. De Laender, Frederik Van den Brink, Paul J. |
| author_facet |
Van den Berg, Sanne J.P. Rendal, Cecilie Focks, Andreas Butler, Emma Peeters, Edwin T.H.M. De Laender, Frederik Van den Brink, Paul J. |
| author_sort |
Van den Berg, Sanne J.P. |
| title |
Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| title_short |
Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| title_full |
Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| title_fullStr |
Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| title_full_unstemmed |
Potential impact of chemical stress on freshwater invertebrates : A sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| title_sort |
potential impact of chemical stress on freshwater invertebrates : a sensitivity assessment on continental and national scale based on distribution patterns, biological traits, and relatedness. |
| url |
https://research.wur.nl/en/publications/potential-impact-of-chemical-stress-on-freshwater-invertebrates-a |
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