ABSTRACT
Climate change models for lizards assume that changes in its climate envelope (the climatic conditions that define a species’ distribution at a given time) are due to species being unable to withstand temperature increases, but this assumption has not been tested to assess its robustness. Studies on lizards’ preferred temperature in thermal gradients can fill this gap. Our aim is to assess the response to climate change of Liolaemus nigroviridis, a sky island lizard, by (i) assessing its thermal preference in a thermal gradient; and (ii) estimating which localities inhabited by the species would exhibit hours of activity restriction (Hr) implying an increased risk of local extinction. The results of this research and the information obtained from the literature concur on the consequences that climate change will have on the thermal ecology of Liolaemus from specialized habitats; the increase in substrate temperature is indeed a factor determining its presence. We also have information that not all populations of L. nigroviridis will be influenced in the same way; the northern populations will be more affected in terms of thermal restrictions and, in addition, Hr will increase at higher elevations. We propose that this be considered for future management for this species.
Acknowledgments
JM-R thanks ANID (CONICYT-PCHA, Doctorado Nacional/2019-21190472) for financing his postgraduate studies. JM-R thanks Fernando Moya, Lucas Alquinta, Jorge Mella, and Pablo Lamilla for their support in the fieldwork related to his doctoral thesis. We also thank Servicio Agrícola y Ganadero for the capture permit R.E. N° 5116/2022. The authors thank C. Botto-Mahan for her help in the logistics of using the biotherium and two reviewers, who improved the manuscript with their comments.
Disclosure statement
No potential conflict of interest was reported by the author(s).