Climate change and lizards: changing species' geographic ranges in Patagonia

Climate change and lizards: changing species' geographic ranges in Patagonia

Ectothermic organisms strongly depend on temperature, making them an excellent model to study the impact of global climatic change (GCC). Under global warming, species may be forced to move toward colder environments, such as higher latitudes, higher elevations or both. However, several studies show...

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Bibliographic Details
Published in:Regional environmental change Vol. 15; no. 6; pp. 1121 - 1132
Main Authors: Bonino, Marcelo F., Moreno Azócar, Débora L., Schulte, James A., Cruz, Félix B.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-08-2015
Springer
Springer Nature B.V
Subjects:
Climate Change
Climate Change/Climate Change Impacts
Earth and Environmental Science
Environment
Environmental aspects
Geographical distribution
Geography
Global climate
Global warming
Lacertilia
Latitude
Liolaemus
Lizards
Nature Conservation
Oceanography
Original Article
Regional/Spatial Science
Reptiles & amphibians
Patagonia
PSW, Argentina, Patagonia
Range of distribution
Species distribution models (SDMs)
Global climate change
Patagonia
Lizards
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Summary:Ectothermic organisms strongly depend on temperature, making them an excellent model to study the impact of global climatic change (GCC). Under global warming, species may be forced to move toward colder environments, such as higher latitudes, higher elevations or both. However, several studies show that responses may vary significantly in different groups of species. Therefore, it is unclear whether species’ current distribution range sizes will be affected in future climatic scenarios. In addition to the specific possible effect of range size changes, the potential consequences of distributional range shifts also should be considered. Here, our aim is to assess whether GCC may affect a group of Liolaemus lizard species based on their current geographic distribution range size and whether the effect is uniform across all species using species distribution models (SDMs). Our results show that range boundaries of the fourteen species switch toward higher altitude and latitude in future scenarios. Additionally, there is not a unique pattern in terms of increase or decrease in potential range for lizards in Patagonia in future scenarios. Finally, our results show that the original distribution range size is determinant for the resultant SDMs projections, suggesting that species with a high degree of endemicity may be susceptible to a greater impact of GCC.
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ISSN:1436-3798
1436-378X
DOI:10.1007/s10113-014-0693-x