Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere

Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere

Species occupying semi-arid and dry regions around the globe face an uncertain future due to increases in the frequency and severity of droughts. In this study we modelled the potential effect of climate change on bat communities within two high-drought risk regions of the world and assessed the mag...

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Main Authors: Mattia Piccioli Cappelli, Rachel V. Blakey, Daniel Taylor, Jon Flanders, Trish Badeen, Sally Butts, Winifred F. Frick, Hugo Rebelo
Format: Article
Language:English
Published: Elsevier 2021-08-01
Series:Global Ecology and Conservation
Subjects:
Bats
Drought
Climate change
Europe
Mediterranean climate
North Africa
Online Access:http://www.sciencedirect.com/science/article/pii/S235198942100158X
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language English
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author Mattia Piccioli Cappelli
Rachel V. Blakey
Daniel Taylor
Jon Flanders
Trish Badeen
Sally Butts
Winifred F. Frick
Hugo Rebelo
spellingShingle Mattia Piccioli Cappelli
Rachel V. Blakey
Daniel Taylor
Jon Flanders
Trish Badeen
Sally Butts
Winifred F. Frick
Hugo Rebelo
Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
Global Ecology and Conservation
Bats
Drought
Climate change
Europe
Mediterranean climate
North Africa
author_facet Mattia Piccioli Cappelli
Rachel V. Blakey
Daniel Taylor
Jon Flanders
Trish Badeen
Sally Butts
Winifred F. Frick
Hugo Rebelo
author_sort Mattia Piccioli Cappelli
title Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
title_short Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
title_full Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
title_fullStr Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
title_full_unstemmed Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern Hemisphere
title_sort limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the northern hemisphere
publisher Elsevier
series Global Ecology and Conservation
issn 2351-9894
publishDate 2021-08-01
description Species occupying semi-arid and dry regions around the globe face an uncertain future due to increases in the frequency and severity of droughts. In this study we modelled the potential effect of climate change on bat communities within two high-drought risk regions of the world and assessed the magnitude and direction of the predicted shifts in climatic suitability, locating climate change refugia and identifying species at greatest risk of population declines. To do this, we compared climate suitability models for 43 species using three global climate models and three emissions scenarios for current (1950–2000) and future (2061–2080) climates within two regions where droughts are predicted to increase, the Western Palaearctic and Western North America. Our models predicted an overall reduction in bat richness with future climates. Areas projected to support high species richness in the current climate coincided with greatest predicted species loss and greatest future drought risk. For species with the potential to extend their range, high velocity range shifts would be required to keep pace with these changes, particularly in the Western Palaearctic, where additional barriers to movement include seas and areas of high human population density. Predicted refugial zones were limited and occurred in similar areas across continents (montane and high latitude with some coastal areas). The area of climate suitability was predicted to contract for around half of study species, with nine identified as species of conservation concern due to low overlap between current and future modelled ranges. The best-case scenario for bat diversity in semi-arid and dry regions in the future is likely to be reduced species richness, with many species facing rapid range expansion over challenging landscapes to access climatically suitable areas. Conservation of bats in high drought risk regions will likely depend on protection of identified refugia and networks of water sources, as well as global measures to protect biodiversity and human wellbeing, such as reduction in global carbon emissions.
topic Bats
Drought
Climate change
Europe
Mediterranean climate
North Africa
url http://www.sciencedirect.com/science/article/pii/S235198942100158X
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spelling doaj-df65349787ef44a0aff77a3bfab892e32021-08-12T04:34:25ZengElsevierGlobal Ecology and Conservation2351-98942021-08-0128e01608Limited refugia and high velocity range-shifts predicted for bat communities in drought-risk areas of the Northern HemisphereMattia Piccioli Cappelli0Rachel V. Blakey1Daniel Taylor2Jon Flanders3Trish Badeen4Sally Butts5Winifred F. Frick6Hugo Rebelo7Guido Tosi Research Group, Department of Theoretical and Applied Sciences, University of Insubria, Varese, Italy; CIBIO/InBIO, University of Porto, Campus Agrário Vairão, 4485-661 Vairão, PortugalLa Kretz Center for California Conservation Science, Institute of the Environment and Sustainability, University of California, Los Angeles, CA 90095, USA; The Institute for Bird Populations, PO Box 518, Petaluma, CA 94953, USA; Corresponding author at: La Kretz Center for California Conservation Science, Institute of the Environment and Sustainability, University of California, Los Angeles, CA 90095, USA.Bat Conservation International, 500 North Capital of Texas Highway North, Austin, TX 78746, USABat Conservation International, 500 North Capital of Texas Highway North, Austin, TX 78746, USA; Division of Vertebrate Zoology (Mammalogy), American Museum of Natural History, New York, NY 10024, USABat Conservation International, 500 North Capital of Texas Highway North, Austin, TX 78746, USAUSDA Forest Service, Region 6 Regional Office, Portland, OR 97204, USA; USDI Bureau of Land Management, Washington, DC 20003, USABat Conservation International, 500 North Capital of Texas Highway North, Austin, TX 78746, USA; Ecology and Evolutionary Biology, University of California, Santa Cruz, CA 95060, USACIBIO/InBIO, University of Porto, Campus Agrário Vairão, 4485-661 Vairão, Portugal; CIBIO/InBIO, School of Agriculture, University of Lisbon, Tapada da Ajuda, 1349-017 Lisbon, PortugalSpecies occupying semi-arid and dry regions around the globe face an uncertain future due to increases in the frequency and severity of droughts. In this study we modelled the potential effect of climate change on bat communities within two high-drought risk regions of the world and assessed the magnitude and direction of the predicted shifts in climatic suitability, locating climate change refugia and identifying species at greatest risk of population declines. To do this, we compared climate suitability models for 43 species using three global climate models and three emissions scenarios for current (1950–2000) and future (2061–2080) climates within two regions where droughts are predicted to increase, the Western Palaearctic and Western North America. Our models predicted an overall reduction in bat richness with future climates. Areas projected to support high species richness in the current climate coincided with greatest predicted species loss and greatest future drought risk. For species with the potential to extend their range, high velocity range shifts would be required to keep pace with these changes, particularly in the Western Palaearctic, where additional barriers to movement include seas and areas of high human population density. Predicted refugial zones were limited and occurred in similar areas across continents (montane and high latitude with some coastal areas). The area of climate suitability was predicted to contract for around half of study species, with nine identified as species of conservation concern due to low overlap between current and future modelled ranges. The best-case scenario for bat diversity in semi-arid and dry regions in the future is likely to be reduced species richness, with many species facing rapid range expansion over challenging landscapes to access climatically suitable areas. Conservation of bats in high drought risk regions will likely depend on protection of identified refugia and networks of water sources, as well as global measures to protect biodiversity and human wellbeing, such as reduction in global carbon emissions.http://www.sciencedirect.com/science/article/pii/S235198942100158XBatsDroughtClimate changeEuropeMediterranean climateNorth Africa

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