Towards a systematic method for assessing the impact of chemical pollution on ecosystem services of water systems

Towards a systematic method for assessing the impact of chemical pollution on ecosystem services of water systems

Chemical pollution impinges on the quality of water systems and the ecosystem services (ESs) they provide. Expression of ESs in monetary units has become an essential tool for sustainable ecosystem management. However, the impact of chemical pollution on ESs is rarely quantified, and ES valuation of...

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Veröffentlicht in:Journal of environmental management 2021-03, Vol.281, p.111873, Article 111873
Hauptverfasser: Wang, Jiaqi, Lautz, Leonie S., Nolte, Tom M., Posthuma, Leo, Koopman, K. Remon, Leuven, Rob S.E.W., Hendriks, A. Jan
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Sprache:eng
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Belgium
Chemical pollution
Diversity
Ecosystem
Environmental Pollution
Life Sciences
Netherlands
Potentially affected fraction
Productivity
Total ecosystem service value
Water
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container_end_page
container_issue
container_start_page 111873
container_title Journal of environmental management
container_volume 281
creator Wang, Jiaqi
Lautz, Leonie S.
Nolte, Tom M.
Posthuma, Leo
Koopman, K. Remon
Leuven, Rob S.E.W.
Hendriks, A. Jan
description Chemical pollution impinges on the quality of water systems and the ecosystem services (ESs) they provide. Expression of ESs in monetary units has become an essential tool for sustainable ecosystem management. However, the impact of chemical pollution on ESs is rarely quantified, and ES valuation often focuses on individual services without considering the total services provided by the ecosystem. The purpose of the study was to develop a stepwise approach to quantify the impact of sediment pollution on the total ES value provided by water systems. Thereby, we calculated the total ES value loss as a function of the multi-substance potentially affected fraction of species at the HC50 level (msPAF(HC50)). The function is a combination of relationships between, subsequently: the msPAF(HC50), diversity, productivity and total ES value. Regardless of the inherent differences between terrestrial and aquatic ecosystems, an increase of diversity generally corresponded to an increase in productivity with curvilinear or linear effects. A positive correlation between productivity and total values of ESs of biomes was observed. The combined relationships showed that 1% msPAF(HC50) corresponded to on average 0.5% (0.05–1.40%) of total ES value loss. The ES loss due to polluted sediments in the Waal-Meuse river estuary (the Netherlands) and Flemish waterways (Belgium) was estimated to be 0.3–5 and 0.6–10 thousand 2007$/ha/yr, respectively. Our study presents a novel methodology to assess the impact of chemical exposure on diversity, productivity, and total value that ecosystems provide. With sufficient monitoring data, our generic methodology can be applied for any chemical and region of interest and help water managers make informed decisions on cost-effective measures to remedy pollution. Acknowledging that the ES loss estimates as a function of PAF(HC50) are crude, we explicitly discuss the uncertainties in each step for further development and application of the methodology. •A stepwise approach to assess impacts of chemical mixture on ecosystem service (ES).•Total ES value loss as a function of potentially affected fraction of species (PAF).•1% PAF corresponds to 0.5% (0.05–1.40%) of total ES value loss.•The methodology is applied to sullied sediments in the Netherlands and Flanders.•The PAF-ES methodology improves chemical risk assessment and management decisions.
doi_str_mv 10.1016/j.jenvman.2020.111873
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Jan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Towards a systematic method for assessing the impact of chemical pollution on ecosystem services of water systems</atitle><jtitle>Journal of environmental management</jtitle><addtitle>J Environ Manage</addtitle><date>2021-03-01</date><risdate>2021</risdate><volume>281</volume><spage>111873</spage><pages>111873-</pages><artnum>111873</artnum><issn>0301-4797</issn><eissn>1095-8630</eissn><abstract>Chemical pollution impinges on the quality of water systems and the ecosystem services (ESs) they provide. Expression of ESs in monetary units has become an essential tool for sustainable ecosystem management. However, the impact of chemical pollution on ESs is rarely quantified, and ES valuation often focuses on individual services without considering the total services provided by the ecosystem. The purpose of the study was to develop a stepwise approach to quantify the impact of sediment pollution on the total ES value provided by water systems. Thereby, we calculated the total ES value loss as a function of the multi-substance potentially affected fraction of species at the HC50 level (msPAF(HC50)). The function is a combination of relationships between, subsequently: the msPAF(HC50), diversity, productivity and total ES value. Regardless of the inherent differences between terrestrial and aquatic ecosystems, an increase of diversity generally corresponded to an increase in productivity with curvilinear or linear effects. A positive correlation between productivity and total values of ESs of biomes was observed. The combined relationships showed that 1% msPAF(HC50) corresponded to on average 0.5% (0.05–1.40%) of total ES value loss. 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subjects Belgium
Chemical pollution
Diversity
Ecosystem
Environmental Pollution
Life Sciences
Netherlands
Potentially affected fraction
Productivity
Total ecosystem service value
Water
title Towards a systematic method for assessing the impact of chemical pollution on ecosystem services of water systems
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