A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps

Climate and land‐use change jointly affect the future of biodiversity. Yet, biodiversity scenarios have so far concentrated on climatic effects because forecasts of land use are rarely available at appropriate spatial and thematic scales. Agent‐based models (ABMs) represent a potentially powerful bu...

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Autores principales: Dullinger, Iwona, Gattringer, Andreas, Wessely, Johannes, Moser, Dietmar, Plutzar, Christoph, Willner, Wolfgang, Egger, Claudine, Gaube, Veronika, Haberl, Helmut, Mayer, Andreas, Bohner, Andreas, Gilli, Christian, Pascher, Kathrin, Essl, Franz, Dullinger, Stefan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Primary Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7155135/
https://www.ncbi.nlm.nih.gov/pubmed/31994267
http://dx.doi.org/10.1111/gcb.14977
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author Dullinger, Iwona
Gattringer, Andreas
Wessely, Johannes
Moser, Dietmar
Plutzar, Christoph
Willner, Wolfgang
Egger, Claudine
Gaube, Veronika
Haberl, Helmut
Mayer, Andreas
Bohner, Andreas
Gilli, Christian
Pascher, Kathrin
Essl, Franz
Dullinger, Stefan
author_facet Dullinger, Iwona
Gattringer, Andreas
Wessely, Johannes
Moser, Dietmar
Plutzar, Christoph
Willner, Wolfgang
Egger, Claudine
Gaube, Veronika
Haberl, Helmut
Mayer, Andreas
Bohner, Andreas
Gilli, Christian
Pascher, Kathrin
Essl, Franz
Dullinger, Stefan
author_sort Dullinger, Iwona
collection PubMed
description Climate and land‐use change jointly affect the future of biodiversity. Yet, biodiversity scenarios have so far concentrated on climatic effects because forecasts of land use are rarely available at appropriate spatial and thematic scales. Agent‐based models (ABMs) represent a potentially powerful but little explored tool for establishing thematically and spatially fine‐grained land‐use scenarios. Here, we use an ABM parameterized for 1,329 agents, mostly farmers, in a Central European model region, and simulate the changes to land‐use patterns resulting from their response to three scenarios of changing socio‐economic conditions and three scenarios of climate change until the mid of the century. Subsequently, we use species distribution models to, first, analyse relationships between the realized niches of 832 plant species and climatic gradients or land‐use types, respectively, and, second, to project consequent changes in potential regional ranges of these species as triggered by changes in both the altered land‐use patterns and the changing climate. We find that both drivers determine the realized niches of the studied plants, with land use having a stronger effect than any single climatic variable in the model. Nevertheless, the plants' future distributions appear much more responsive to climate than to land‐use changes because alternative future socio‐economic backgrounds have only modest impact on land‐use decisions in the model region. However, relative effects of climate and land‐use changes on biodiversity may differ drastically in other regions, especially where landscapes are still dominated by natural or semi‐natural habitat. We conclude that agent‐based modelling of land use is able to provide scenarios at scales relevant to individual species distribution and suggest that coupling ABMs with models of species' range change should be intensified to provide more realistic biodiversity forecasts.
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spelling pubmed-71551352020-04-15 A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps Dullinger, Iwona Gattringer, Andreas Wessely, Johannes Moser, Dietmar Plutzar, Christoph Willner, Wolfgang Egger, Claudine Gaube, Veronika Haberl, Helmut Mayer, Andreas Bohner, Andreas Gilli, Christian Pascher, Kathrin Essl, Franz Dullinger, Stefan Glob Chang Biol Primary Research Articles Climate and land‐use change jointly affect the future of biodiversity. Yet, biodiversity scenarios have so far concentrated on climatic effects because forecasts of land use are rarely available at appropriate spatial and thematic scales. Agent‐based models (ABMs) represent a potentially powerful but little explored tool for establishing thematically and spatially fine‐grained land‐use scenarios. Here, we use an ABM parameterized for 1,329 agents, mostly farmers, in a Central European model region, and simulate the changes to land‐use patterns resulting from their response to three scenarios of changing socio‐economic conditions and three scenarios of climate change until the mid of the century. Subsequently, we use species distribution models to, first, analyse relationships between the realized niches of 832 plant species and climatic gradients or land‐use types, respectively, and, second, to project consequent changes in potential regional ranges of these species as triggered by changes in both the altered land‐use patterns and the changing climate. We find that both drivers determine the realized niches of the studied plants, with land use having a stronger effect than any single climatic variable in the model. Nevertheless, the plants' future distributions appear much more responsive to climate than to land‐use changes because alternative future socio‐economic backgrounds have only modest impact on land‐use decisions in the model region. However, relative effects of climate and land‐use changes on biodiversity may differ drastically in other regions, especially where landscapes are still dominated by natural or semi‐natural habitat. We conclude that agent‐based modelling of land use is able to provide scenarios at scales relevant to individual species distribution and suggest that coupling ABMs with models of species' range change should be intensified to provide more realistic biodiversity forecasts. John Wiley and Sons Inc. 2020-01-29 2020-04 /pmc/articles/PMC7155135/ /pubmed/31994267 http://dx.doi.org/10.1111/gcb.14977 Text en © 2020 The Authors. Global Change Biology published by John Wiley & Sons Ltd This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Primary Research Articles
Dullinger, Iwona
Gattringer, Andreas
Wessely, Johannes
Moser, Dietmar
Plutzar, Christoph
Willner, Wolfgang
Egger, Claudine
Gaube, Veronika
Haberl, Helmut
Mayer, Andreas
Bohner, Andreas
Gilli, Christian
Pascher, Kathrin
Essl, Franz
Dullinger, Stefan
A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title_full A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title_fullStr A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title_full_unstemmed A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title_short A socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the Austrian Alps
title_sort socio‐ecological model for predicting impacts of land‐use and climate change on regional plant diversity in the austrian alps
topic Primary Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7155135/
https://www.ncbi.nlm.nih.gov/pubmed/31994267
http://dx.doi.org/10.1111/gcb.14977
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