Litcius/Paper detail

Temperate and tropical lizards are vulnerable to climate warming due to increased water loss and heat stress

Chunrong Mi, Liang Ma, Yang Wang, Dan-Yang Wu, Wei‐Guo Du, Bao‐Jun Sun

2022Proceedings of the Royal Society B Biological Sciences49 citationsDOIOpen Access PDF

Abstract

lizards as a study system, we quantified physiological and life-history responses and geography range change across latitudes under climate warming. Using integrated biophysical models and hybrid species distribution models, we found: (i) thermal safety margin is larger at high latitudes and is predicted to decrease under climate warming for lizards at all latitudes; (ii) climate warming will speed up embryonic development and increase annual activity time of adult lizards, but will exacerbate water loss of adults across all latitudes; and (iii) species across latitudes are predicted to experience habitat contraction under climate warming due to different limitations-tropical and subtropical species are vulnerable due to increased extremely high temperatures, whereas temperate species are vulnerable due to both extremely high temperatures and increased water loss. This study provides a comprehensive understanding of the vulnerability of species from different latitudinal regions to climate warming in ectotherms, and also highlights the importance of integrating environmental factors, behaviour, physiology and life-history responses in predicting the risk of species to climate warming.

Topics & Concepts

Temperate climateHeat stressClimate changeEcologyTropical climateEnvironmental scienceTropicsGlobal warmingClimatologyBiologyAtmospheric sciencesGeologySpecies Distribution and Climate ChangeAmphibian and Reptile BiologyPhysiological and biochemical adaptations