Identifying potential gaps in pesticide risk assessment: Terrestrial life stages of freshwater insects

1. Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment. 2. The aquatic ris...

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Published inThe Journal of applied ecology Vol. 55; no. 3; pp. 1510 - 1515
Main Authors Rasmussen, Jes Jessen, Wiberg-Larsen, Peter, Baattrup-Pedersen, Annette, Bruus, Marianne, Strandberg, Beate, Soerensen, Peter Borgen, Strandberg, Morten Tune
Format Journal Article
LanguageEnglish
Published Oxford John Wiley & Sons Ltd 01.05.2018
Blackwell Publishing Ltd
Subjects
adults
air
Aquatic ecosystems
Aquatic environment
Aquatic insects
Biodiversity
Biodiversity loss
COMMENTARY
Ecological risk assessment
ecotoxicity
ecotoxicology
Fresh water
freshwater
Freshwater ecology
Freshwater ecosystems
freshwater insects
habitats
Insecticides
Insects
issues and policy
larvae
Literature reviews
nontarget organisms
Pesticides
riparian zone
Risk assessment
Subdivisions
Terrestrial ecosystems
Terrestrial environments
terrestrial life stages
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Abstract 1. Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment. 2. The aquatic risk assessment (RA) of pesticides does not consider terrestrial life stages, and a literature review revealed that pesticide ecotoxicity data for adult freshwater insects are very scarce and outdated. Consequently, it is not possible to assess how adult freshwater insects may be protected through RA programs for terrestrial non-target organisms. 3. W e give guidance to generating and using of such ecotoxicity data focusing on species selection, test design and type of ecotoxicity information. 4. Policy implications. This commentary considers how terrestrial stages of aquatic insects are protected by pesticide risk assessment (RA) and highlights the necessity of performing holistic risk assessment, focusing on organisms and populations as supplement to current subdivisions in element-based compartments (e.g. aquatic and terrestrial ecosystems).
AbstractList Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment. The aquatic risk assessment (RA) of pesticides does not consider terrestrial life stages, and a literature review revealed that pesticide ecotoxicity data for adult freshwater insects are very scarce and outdated. Consequently, it is not possible to assess how adult freshwater insects may be protected through RA programs for terrestrial non‐target organisms. We give guidance to generating and using of such ecotoxicity data focusing on species selection, test design and type of ecotoxicity information. Policy implications. This commentary considers how terrestrial stages of aquatic insects are protected by pesticide risk assessment (RA) and highlights the necessity of performing holistic risk assessment, focusing on organisms and populations as supplement to current subdivisions in element‐based compartments (e.g. aquatic and terrestrial ecosystems).
Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment.The aquatic risk assessment (RA) of pesticides does not consider terrestrial life stages, and a literature review revealed that pesticide ecotoxicity data for adult freshwater insects are very scarce and outdated. Consequently, it is not possible to assess how adult freshwater insects may be protected through RA programs for terrestrial non‐target organisms.We give guidance to generating and using of such ecotoxicity data focusing on species selection, test design and type of ecotoxicity information.Policy implications. This commentary considers how terrestrial stages of aquatic insects are protected by pesticide risk assessment (RA) and highlights the necessity of performing holistic risk assessment, focusing on organisms and populations as supplement to current subdivisions in element‐based compartments (e.g. aquatic and terrestrial ecosystems).
1. Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment. 2. The aquatic risk assessment (RA) of pesticides does not consider terrestrial life stages, and a literature review revealed that pesticide ecotoxicity data for adult freshwater insects are very scarce and outdated. Consequently, it is not possible to assess how adult freshwater insects may be protected through RA programs for terrestrial non-target organisms. 3. W e give guidance to generating and using of such ecotoxicity data focusing on species selection, test design and type of ecotoxicity information. 4. Policy implications. This commentary considers how terrestrial stages of aquatic insects are protected by pesticide risk assessment (RA) and highlights the necessity of performing holistic risk assessment, focusing on organisms and populations as supplement to current subdivisions in element-based compartments (e.g. aquatic and terrestrial ecosystems).
Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides via water during larval/nymph stages and via air, habitats, and food during adult stages in the terrestrial environment. The aquatic risk assessment ( RA ) of pesticides does not consider terrestrial life stages, and a literature review revealed that pesticide ecotoxicity data for adult freshwater insects are very scarce and outdated. Consequently, it is not possible to assess how adult freshwater insects may be protected through RA programs for terrestrial non‐target organisms. We give guidance to generating and using of such ecotoxicity data focusing on species selection, test design and type of ecotoxicity information. Policy implications . This commentary considers how terrestrial stages of aquatic insects are protected by pesticide risk assessment ( RA ) and highlights the necessity of performing holistic risk assessment , focusing on organisms and populations as supplement to current subdivisions in element‐based compartments (e.g. aquatic and terrestrial ecosystems).
Author Bruus, Marianne
Baattrup-Pedersen, Annette
Soerensen, Peter Borgen
Rasmussen, Jes Jessen
Wiberg-Larsen, Peter
Strandberg, Beate
Strandberg, Morten Tune
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Snippet 1. Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to...
Insecticides are important drivers of biodiversity loss and ecological impairment in freshwater ecosystems. Freshwater insects may be exposed to insecticides...
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SubjectTerms adults
air
Aquatic ecosystems
Aquatic environment
Aquatic insects
Biodiversity
Biodiversity loss
COMMENTARY
Ecological risk assessment
ecotoxicity
ecotoxicology
Fresh water
freshwater
Freshwater ecology
Freshwater ecosystems
freshwater insects
habitats
Insecticides
Insects
issues and policy
larvae
Literature reviews
nontarget organisms
Pesticides
riparian zone
Risk assessment
Subdivisions
Terrestrial ecosystems
Terrestrial environments
terrestrial life stages
Title Identifying potential gaps in pesticide risk assessment: Terrestrial life stages of freshwater insects
URI https://www.jstor.org/stable/45024880
https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1365-2664.13048
https://www.proquest.com/docview/2024430702
https://www.proquest.com/docview/2053894740
Volume 55
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