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Forecasting the combined effects of climate and land use change on Mexican bats

Forecasting the combined effects of climate and land use change on Mexican bats
Forecasting the combined effects of climate and land use change on Mexican bats

Aim: Climate and land use change are among the most important threatening processes driving biodiversity loss, especially in the tropics. Although the potential impacts of each threat have been widely studied in isolation, few studies have assessed the impacts of climate and land cover change in combination. Here, we evaluate the exposure of a large mammalian clade, bats, to multiple scenarios of environmental change and dispersal to understand potential consequences for biodiversity conservation. Location: Mexico. Methods: We used ensemble species distribution models to forecast changes in environmental suitability for 130 bat species that occur in Mexico by 2050s under four dispersal assumptions and four combined climate and land use change scenarios. We identified regions with the strongest projected impacts for each scenario and assessed the overlap across scenarios. Results: The combined effects of climate and land use change will cause an average reduction in environmental suitability for 51% of the species across their range, regardless of scenario. Overall, species show a mean decrease in environmental suitability in at least 46% of their current range in all scenarios of change and dispersal. Climate scenarios had a higher impact on species environmental suitability than land use scenarios. There was a spatial overlap of 43% across the four environmental change scenarios for the regions projected to have the strongest impacts. Main conclusions: Combined effects of future environmental change may result in substantial declines in environmental suitability for Mexican bats even under optimistic scenarios. This study highlights the vulnerability of megadiverse regions and an indicator taxon to human disturbance. The consideration of combined threats can make an important difference in how we react to changes to conserve our biodiversity as they pose different challenges.

Chiroptera, dispersal, ensemble species distribution models, environmental change, environmental suitability, megadiverse regions
1366-9516
363-374
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Pearson, Richard G.
adc32c7b-4c7a-481e-88be-4dba404c5886
Green, Rhys E.
ba6e9e5b-fe86-43ed-8616-c162850ad213
Jones, Kate E.
f1cf7f49-c3cb-4900-9ae8-411b5d7605a2
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Pearson, Richard G.
adc32c7b-4c7a-481e-88be-4dba404c5886
Green, Rhys E.
ba6e9e5b-fe86-43ed-8616-c162850ad213
Jones, Kate E.
f1cf7f49-c3cb-4900-9ae8-411b5d7605a2

Zamora-Gutierrez, Veronica, Pearson, Richard G., Green, Rhys E. and Jones, Kate E. (2018) Forecasting the combined effects of climate and land use change on Mexican bats. Diversity and Distributions, 24 (3), 363-374. (doi:10.1111/ddi.12686).

Record type: Article

Abstract

Aim: Climate and land use change are among the most important threatening processes driving biodiversity loss, especially in the tropics. Although the potential impacts of each threat have been widely studied in isolation, few studies have assessed the impacts of climate and land cover change in combination. Here, we evaluate the exposure of a large mammalian clade, bats, to multiple scenarios of environmental change and dispersal to understand potential consequences for biodiversity conservation. Location: Mexico. Methods: We used ensemble species distribution models to forecast changes in environmental suitability for 130 bat species that occur in Mexico by 2050s under four dispersal assumptions and four combined climate and land use change scenarios. We identified regions with the strongest projected impacts for each scenario and assessed the overlap across scenarios. Results: The combined effects of climate and land use change will cause an average reduction in environmental suitability for 51% of the species across their range, regardless of scenario. Overall, species show a mean decrease in environmental suitability in at least 46% of their current range in all scenarios of change and dispersal. Climate scenarios had a higher impact on species environmental suitability than land use scenarios. There was a spatial overlap of 43% across the four environmental change scenarios for the regions projected to have the strongest impacts. Main conclusions: Combined effects of future environmental change may result in substantial declines in environmental suitability for Mexican bats even under optimistic scenarios. This study highlights the vulnerability of megadiverse regions and an indicator taxon to human disturbance. The consideration of combined threats can make an important difference in how we react to changes to conserve our biodiversity as they pose different challenges.

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More information

Published date: March 2018
Additional Information: Funding Information: This study was financially supported by American Society of Mammalogists, Bat Conservation International, Cambridge Commonwealth European and International Trust (No. 301879989), CONACYT (No. 310731), Hitchcock funds Cambridge, Idea Wild, Rufford Small Grants (No. 12059-1) and Whitmore Trust Cambridge to V.Z.G and Engineering and Physical Sciences Research Council (EPSRC) Grant EP/K015664/1 to K.E.J. We thank the people who shared their material, to Jesús Aguirre-Gutiérrez and then two anonymous referees for their valuable comments on earlier versions of the manuscript. Funding Information: American Society of Mammalogists; Bat Conservation International; Cambridge Commonwealth European and International Trust, Grant/Award Number: 301879989; CONACYT, Grant/Award Number: 310731; Hitchcock funds Cambridge; Idea Wild, Rufford Small Grants, Grant/Award Number: 12059-1; Whitmore Trust Cambridge; Engineering and Physical Sciences Research Council (EPSRC), Grant/Award Number: EP/ K015664/1 Publisher Copyright: © 2017 John Wiley & Sons Ltd
Keywords: Chiroptera, dispersal, ensemble species distribution models, environmental change, environmental suitability, megadiverse regions

Identifiers

Local EPrints ID: 486697
URI: http://eprints.soton.ac.uk/id/eprint/486697
DOI: doi:10.1111/ddi.12686
ISSN: 1366-9516
PURE UUID: 73a7aef7-aa6d-46b6-bc11-a893029d6e56
ORCID for Veronica Zamora-Gutierrez: ORCID iD orcid.org/0000-0003-0661-5180

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Date deposited: 01 Feb 2024 17:51
Last modified: 18 Mar 2024 04:18

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Contributors

Author: Veronica Zamora-Gutierrez ORCID iD
Author: Richard G. Pearson
Author: Rhys E. Green
Author: Kate E. Jones

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