Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

Autoren

  • Emily Alice Martin
  • Benjamin Feit
  • Fabrice Requier
  • Hanna Friberg
  • Mattias Jonsson

Externe Organisationen

  • Julius-Maximilians-Universität Würzburg
  • Swedish University of Agricultural Sciences
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksResilience in Complex Socio-ecological Systems
Herausgeber/-innenDavid A. Bohan, Alex J. Dumbrell
Herausgeber (Verlag)Academic Press Inc.
Kapitel3
Seiten59-123
Seitenumfang65
Auflage1.
ISBN (elektronisch)9780081028551
ISBN (Print)9780081028544
PublikationsstatusVeröffentlicht - 2019
Extern publiziertJa

Publikationsreihe

NameAdvances in Ecological Research
Band60
ISSN (Print)0065-2504

Abstract

Predicting the resilience of biodiversity-driven functions in agroecosystems to drivers of environmental change (EC) is of critical importance to ensure long-term and environmentally safe agricultural production. However, operationalizing resilience of such functions is challenging, because conceptual approaches differ, direct measures are difficult, and the validity and interpretation of existing indicators are unclear. Here, we (1) summarize dimensions of resilience that apply in agroecosystems, and the disturbances they are subject to under EC. We then (2) review indicators of the resilience of biodiversity-driven functions in agroecosystems, and their support in theoretical and empirical studies. (3) Using these indicators, we examine what can be learned for the resilience of these functions to drivers of EC, focussing on the ecosystem services of biological pest control, biological disease control in soil and pollination. We conclude (4) that research into the resilience of these services is still in its infancy, but novel tools and approaches can catalyse further steps to assess and improve the resilience of biodiversity-driven agroecosystem functions under EC.

ASJC Scopus Sachgebiete

Zitieren

Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change. / Martin, Emily Alice; Feit, Benjamin; Requier, Fabrice et al.
Resilience in Complex Socio-ecological Systems. Hrsg. / David A. Bohan; Alex J. Dumbrell. 1. Aufl. Academic Press Inc., 2019. S. 59-123 (Advances in Ecological Research; Band 60).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

Martin, EA, Feit, B, Requier, F, Friberg, H & Jonsson, M 2019, Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change. in DA Bohan & AJ Dumbrell (Hrsg.), Resilience in Complex Socio-ecological Systems. 1. Aufl., Advances in Ecological Research, Bd. 60, Academic Press Inc., S. 59-123. https://doi.org/10.1016/bs.aecr.2019.02.003
Martin, E. A., Feit, B., Requier, F., Friberg, H., & Jonsson, M. (2019). Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change. In D. A. Bohan, & A. J. Dumbrell (Hrsg.), Resilience in Complex Socio-ecological Systems (1. Aufl., S. 59-123). (Advances in Ecological Research; Band 60). Academic Press Inc.. https://doi.org/10.1016/bs.aecr.2019.02.003
Martin EA, Feit B, Requier F, Friberg H, Jonsson M. Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change. in Bohan DA, Dumbrell AJ, Hrsg., Resilience in Complex Socio-ecological Systems. 1. Aufl. Academic Press Inc. 2019. S. 59-123. (Advances in Ecological Research). Epub 2019 Mär 25. doi: 10.1016/bs.aecr.2019.02.003
Martin, Emily Alice ; Feit, Benjamin ; Requier, Fabrice et al. / Assessing the resilience of biodiversity-driven functions in agroecosystems under environmental change. Resilience in Complex Socio-ecological Systems. Hrsg. / David A. Bohan ; Alex J. Dumbrell. 1. Aufl. Academic Press Inc., 2019. S. 59-123 (Advances in Ecological Research).
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abstract = "Predicting the resilience of biodiversity-driven functions in agroecosystems to drivers of environmental change (EC) is of critical importance to ensure long-term and environmentally safe agricultural production. However, operationalizing resilience of such functions is challenging, because conceptual approaches differ, direct measures are difficult, and the validity and interpretation of existing indicators are unclear. Here, we (1) summarize dimensions of resilience that apply in agroecosystems, and the disturbances they are subject to under EC. We then (2) review indicators of the resilience of biodiversity-driven functions in agroecosystems, and their support in theoretical and empirical studies. (3) Using these indicators, we examine what can be learned for the resilience of these functions to drivers of EC, focussing on the ecosystem services of biological pest control, biological disease control in soil and pollination. We conclude (4) that research into the resilience of these services is still in its infancy, but novel tools and approaches can catalyse further steps to assess and improve the resilience of biodiversity-driven agroecosystem functions under EC.",
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AU - Martin, Emily Alice

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N1 - Funding information: Financial support for this work was provided to M.J. and B.F. through a grant from the Swedish Research Council FORMAS (Grant number 2016-01511, project: ‘Will seemingly redundant predator communities maintain stable biological control in the future?’). M.J. and H.F. were financially supported by the Centre for Biological Control at the Swedish University of Agricultural Sciences. E.A.M. and F.R. received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors.

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N2 - Predicting the resilience of biodiversity-driven functions in agroecosystems to drivers of environmental change (EC) is of critical importance to ensure long-term and environmentally safe agricultural production. However, operationalizing resilience of such functions is challenging, because conceptual approaches differ, direct measures are difficult, and the validity and interpretation of existing indicators are unclear. Here, we (1) summarize dimensions of resilience that apply in agroecosystems, and the disturbances they are subject to under EC. We then (2) review indicators of the resilience of biodiversity-driven functions in agroecosystems, and their support in theoretical and empirical studies. (3) Using these indicators, we examine what can be learned for the resilience of these functions to drivers of EC, focussing on the ecosystem services of biological pest control, biological disease control in soil and pollination. We conclude (4) that research into the resilience of these services is still in its infancy, but novel tools and approaches can catalyse further steps to assess and improve the resilience of biodiversity-driven agroecosystem functions under EC.

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