The road to integrate climate change projections with regional land‐use–biodiversity models

Juliano Sarmento Cabral; Alma Mendoza‐Ponce; André Pinto daSilva; Johannes Oberpriller; Anne Mimet; Julia Kieslinger; Thomas Berger; Jana Blechschmidt; Maximilian Brönner; Alice Classen; Stefan Fallert; Florian Hartig; Christian Hof; Markus Hoffmann; Thomas Knoke; Andreas Krause; Anne Lewerentz; Perdita Pohle; Uta Raeder; Anja Rammig; Sarah Redlich; Sven Rubanschi; Christian Stetter; Wolfgang Weisser; Daniel Vedder; Peter H. Verburg; Damaris Zurell

doi:10.1002/pan3.10472

People and Nature (Oct 2024)

The road to integrate climate change projections with regional land‐use–biodiversity models

Juliano Sarmento Cabral,
Alma Mendoza‐Ponce,
André Pinto daSilva,
Johannes Oberpriller,
Anne Mimet,
Julia Kieslinger,
Thomas Berger,
Jana Blechschmidt,
Maximilian Brönner,
Alice Classen,
Stefan Fallert,
Florian Hartig,
Christian Hof,
Markus Hoffmann,
Thomas Knoke,
Andreas Krause,
Anne Lewerentz,
Perdita Pohle,
Uta Raeder,
Anja Rammig,
Sarah Redlich,
Sven Rubanschi,
Christian Stetter,
Wolfgang Weisser,
Daniel Vedder,
Peter H. Verburg,
Damaris Zurell

Affiliations

Juliano Sarmento Cabral: Ecosystem Modelling Center for Computational and Theoretical Biology (CCTB) University of Wurzburg Würzburg Germany
Alma Mendoza‐Ponce: Research Program on Climate Change Universidad Nacional Autónoma de México Mexico City Mexico
André Pinto daSilva: Department of Ecology and Genetics Animal Ecology Evolutionary Biology Centre Uppsala University Uppsala Sweden
Johannes Oberpriller: Theoretical Ecology Lab University of Regensburg Regensburg Germany
Anne Mimet: Terrestrial Ecology Research Group Department of Life Science Systems School of Life Sciences Technical University of Munich Freising Germany
Julia Kieslinger: Chair of Human Geography and Development Studies Institute of Geography Friedrich‐Alexander University Erlangen‐Nuernberg Erlangen Germany
Thomas Berger: Land‐Use Economics in the Tropics and Subtropics Hans‐Ruthenberg Institute Hohenheim University Hohenheim Germany
Jana Blechschmidt: Ecosystem Modelling Center for Computational and Theoretical Biology (CCTB) University of Wurzburg Würzburg Germany
Maximilian Brönner: Chair of Human Geography and Development Studies Institute of Geography Friedrich‐Alexander University Erlangen‐Nuernberg Erlangen Germany
Alice Classen: Department of Animal Ecology and Tropical Biology Biocentre, University of Wurzburg Würzburg Germany
Stefan Fallert: Ecosystem Modelling Center for Computational and Theoretical Biology (CCTB) University of Wurzburg Würzburg Germany
Florian Hartig: Theoretical Ecology Lab University of Regensburg Regensburg Germany
Christian Hof: Terrestrial Ecology Research Group Department of Life Science Systems School of Life Sciences Technical University of Munich Freising Germany
Markus Hoffmann: Chair of Aquatic Systems Biology Department of Life Science Systems Limnologische Station Iffeldorf School of Life Science Technical University of Munich Iffeldorf Germany
Thomas Knoke: Department of Life Science Systems School of Life Sciences Institute of Forest Management Technical University of Munich Freising Germany
Andreas Krause: Department of Life Science Systems School of Life Sciences Land Surface‐Atmosphere Interactions Technical University of Munich Freising Germany
Anne Lewerentz: Ecosystem Modelling Center for Computational and Theoretical Biology (CCTB) University of Wurzburg Würzburg Germany
Perdita Pohle: Chair of Human Geography and Development Studies Institute of Geography Friedrich‐Alexander University Erlangen‐Nuernberg Erlangen Germany
Uta Raeder: Chair of Aquatic Systems Biology Department of Life Science Systems Limnologische Station Iffeldorf School of Life Science Technical University of Munich Iffeldorf Germany
Anja Rammig: Department of Life Science Systems School of Life Sciences Land Surface‐Atmosphere Interactions Technical University of Munich Freising Germany
Sarah Redlich: Department of Animal Ecology and Tropical Biology Biocentre, University of Wurzburg Würzburg Germany
Sven Rubanschi: Terrestrial Ecology Research Group Department of Life Science Systems School of Life Sciences Technical University of Munich Freising Germany
Christian Stetter: Agricultural Production and Resource Economics School of Life Sciences Technical University of Munich Freising Germany
Wolfgang Weisser: Terrestrial Ecology Research Group Department of Life Science Systems School of Life Sciences Technical University of Munich Freising Germany
Daniel Vedder: Ecosystem Modelling Center for Computational and Theoretical Biology (CCTB) University of Wurzburg Würzburg Germany
Peter H. Verburg: Institute for Environmental Studies VU University Amsterdam Amsterdam The Netherlands
Damaris Zurell: Ecology & Macroecology Institute for Biochemistry and Biology University of Potsdam Potsdam Germany

DOI: https://doi.org/10.1002/pan3.10472
Journal volume & issue: Vol. 6, no. 5
pp. 1716 – 1741

Abstract

Read online

Abstract Current approaches to project spatial biodiversity responses to climate change mainly focus on the direct effects of climate on species while regarding land use and land cover as constant or prescribed by global land‐use scenarios. However, local land‐use decisions are often affected by climate change and biodiversity on top of socioeconomic and policy drivers. To realistically understand and predict climate impacts on biodiversity, it is, therefore, necessary to integrate both direct and indirect effects (via climate‐driven land‐use change) of climate change on biodiversity. In this perspective paper, we outline how biodiversity models could be better integrated with regional, climate‐driven land‐use models. We initially provide a short, non‐exhaustive review of empirical and modelling approaches to land‐use and land‐cover change (LU) and biodiversity (BD) change at regional scales, which forms the base for our perspective about improved integration of LU and BD models. We consider a diversity of approaches, with a special emphasis on mechanistic models. We also look at current levels of integration and at model properties, such as scales, inputs and outputs, to further identify integration challenges and opportunities. We find that LU integration in BD models is more frequent than the other way around and has been achieved at different levels: from overlapping predictions to simultaneously coupled simulations (i.e. bidirectional effects). Of the integrated LU‐BD socio‐ecological models, some studies included climate change effects on LU, but the relative contribution of direct vs. indirect effects of climate change on BD remains a key research challenge. Important research avenues include concerted efforts in harmonizing spatial and temporal resolution, disentangling direct and indirect effects of climate change on biodiversity, explicitly accounting for bidirectional feedbacks, and ultimately feeding socio‐ecological systems back into climate predictions. These avenues can be navigated by matching models, plugins for format and resolution conversion, and increasing the land‐use forecast horizon with adequate uncertainty. Recent developments of coupled models show that such integration is achievable and can lead to novel insights into climate–land use–biodiversity relations. Read the free Plain Language Summary for this article on the Journal blog.

Published in People and Nature

ISSN: 2575-8314 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Human ecology. Anthropogeography; Science: Biology (General): Ecology
Website: https://besjournals.onlinelibrary.wiley.com/journal/25758314

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