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Developmental environments do not affect thermal physiological traits in reptiles: an experimental test and meta-analysis.

Rose Y ZhangKristoffer H WildPatrice PottierMaider Iglesias CarrascoShinichi NakagawaDaniel W A Noble
Published in: Biology letters (2023)
On a global scale, organisms face significant challenges due to climate change and anthropogenic disturbance. In many ectotherms, developmental and physiological processes are sensitive to changes in temperature and resources. Developmental plasticity in thermal physiology may provide adaptive advantages to environmental extremes if early environmental conditions are predictive of late-life environments. Here, we conducted a laboratory experiment to test how developmental temperature and maternal resource investment influence thermal physiological traits (critical thermal maximum: CT max and thermal preference: T pref ) in a common skink ( Lampropholis delicata ). We then compared our experimental findings more broadly across reptiles (snakes, lizards and turtles) using meta-analysis. In both our experimental study and meta-analysis, we did not find evidence that developmental environments influence CT max or T pref . Furthermore, the effects of developmental environments on thermal physiology did not vary by age, taxon or climate zone (temperate/tropical). Overall, the magnitude of developmental plasticity on thermal physiology appears to be limited across reptile taxa suggesting that behavioural or evolutionary processes may be more important. However, there is a paucity of information across most reptile taxa, and a broader focus on thermal performance curves themselves will be critical in understanding the impacts of changing thermal conditions on reptiles in the future.
Keyphrases
  • climate change
  • systematic review
  • computed tomography
  • magnetic resonance imaging
  • risk assessment
  • gene expression
  • genome wide
  • magnetic resonance
  • social media
  • human health
  • dual energy
  • pregnancy outcomes