Investigating the impacts of climate change on ecosystem services in UK agro-ecosystems: An application of the DPSIR framework

Understanding how climate change will affect agro-ecosystems and the ecosystem services they provide is a significant global challenge. Investigating this topic requires a holistic approach that can capture the complexity of agro-ecosystems and assess impacts on the physical, biological, and socio-e...

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Veröffentlicht in:	Land use policy 2021-06, Vol.105, p.105394, Article 105394
Hauptverfasser:	Moss, Ellen D., Evans, Darren M., Atkins, Jonathan P.
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Sprache:	eng
Schlagworte:	Agricultural ecosystems Agricultural land Arbuscular mycorrhizal fungi Arbuscular mycorrhizas Biodiversity Case studies Cause-effect relationships Climate change Complex systems Complexity Crop yield Ecosystem services Ecosystems Environmental impact Environmental management Environmental policy Food security Impact analysis Insect pest regulation Land use Multidisciplinary approach Pollination Pollinators Problem structuring method Resource management Services Social factors Socioeconomic factors Soil quality
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creator	Moss, Ellen D. Evans, Darren M. Atkins, Jonathan P.
description	Understanding how climate change will affect agro-ecosystems and the ecosystem services they provide is a significant global challenge. Investigating this topic requires a holistic approach that can capture the complexity of agro-ecosystems and assess impacts on the physical, biological, and socio-economic aspects of the system. The Drivers-Pressures-State-Impact-Response (DPSIR) framework is a problem structuring method commonly used in environmental policy and management to collate and synthesise multidisciplinary evidence. By reviewing relevant literature and policy documents, we created a DPSIR framework characterising the impacts of climate change on some key ecosystem services directly generated by farmland biodiversity, using UK agriculture as a case study. We focussed on three groups of service providers: pollinators, pest regulators and arbuscular mycorrhizal fungi. We used the standard DPSIR framework to establish broad-scale relationships, before developing two extensions to the initial DPSIR, which together formed a novel three-step approach. The second step allowed detailed exploration of the cause-effect relationships between different features of the agro-ecosystem, including cascading impacts on ecosystem services. This process highlighted knowledge gaps relating to the impacts of climate change on species interactions and cultural services. The third step provided a visual summary of the expected directional trends for the different features of UK agro-ecosystems, based upon current evidence. This demonstrated negative impacts on biodiversity, soil quality, crop yields and a wide variety of ecosystem services and goods, which can only be addressed effectively with targeted policies. The novel three-step DPSIR approach developed here would be useful for modelling other complex systems where management is impeded by knowledge gaps and the availability of accessible syntheses of current evidence. •Studied climate change effects on farmland biodiversity, with UK as a case study.•Used the DPSIR framework to assemble relevant literature and policies.•Developed two focussed DPSIR extensions that provide visual syntheses of evidence.•Exposed knowledge gaps in impacts on biological communities and ecosystem services.•Showed climate change likely to negatively impact biodiversity, soils, and crops.
doi_str_mv	10.1016/j.landusepol.2021.105394
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The second step allowed detailed exploration of the cause-effect relationships between different features of the agro-ecosystem, including cascading impacts on ecosystem services. This process highlighted knowledge gaps relating to the impacts of climate change on species interactions and cultural services. The third step provided a visual summary of the expected directional trends for the different features of UK agro-ecosystems, based upon current evidence. This demonstrated negative impacts on biodiversity, soil quality, crop yields and a wide variety of ecosystem services and goods, which can only be addressed effectively with targeted policies. 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subjects	Agricultural ecosystems Agricultural land Arbuscular mycorrhizal fungi Arbuscular mycorrhizas Biodiversity Case studies Cause-effect relationships Climate change Complex systems Complexity Crop yield Ecosystem services Ecosystems Environmental impact Environmental management Environmental policy Food security Impact analysis Insect pest regulation Land use Multidisciplinary approach Pollination Pollinators Problem structuring method Resource management Services Social factors Socioeconomic factors Soil quality
title	Investigating the impacts of climate change on ecosystem services in UK agro-ecosystems: An application of the DPSIR framework
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