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Predicting organismal vulnerability to climate warming: roles of behaviour, physiology and adaptation.

TitlePredicting organismal vulnerability to climate warming: roles of behaviour, physiology and adaptation.
Publication TypeJournal Article
Year of Publication2012
AuthorsHuey RB, Kearney MR, Krockenberger A, Holtum JAM, Jess M, Williams SE
JournalPhilosophical transactions of the Royal Society of London. Series B, Biological sciences
Volume367
Issue1596
Pagination1665-79
Date Published2012 Jun 19
ISSN1471-2970
KeywordsAcclimatization, Animals, Behavior, Animal, Body Temperature Regulation, Ecosystem, Extinction, Biological, Forecasting, Global Warming, Insects, Life Cycle Stages, Lizards, Selection, Genetic, Stress, Physiological, Temperature
Abstract

<p>A recently developed integrative framework proposes that the vulnerability of a species to environmental change depends on the species&#39; exposure and sensitivity to environmental change, its resilience to perturbations and its potential to adapt to change. These vulnerability criteria require behavioural, physiological and genetic data. With this information in hand, biologists can predict organisms most at risk from environmental change. Biologists and managers can then target organisms and habitats most at risk. Unfortunately, the required data (e.g. optimal physiological temperatures) are rarely available. Here, we evaluate the reliability of potential proxies (e.g. critical temperatures) that are often available for some groups. Several proxies for ectotherms are promising, but analogous ones for endotherms are lacking. We also develop a simple graphical model of how behavioural thermoregulation, acclimation and adaptation may interact to influence vulnerability over time. After considering this model together with the proxies available for physiological sensitivity to climate change, we conclude that ectotherms sharing vulnerability traits seem concentrated in lowland tropical forests. Their vulnerability may be exacerbated by negative biotic interactions. Whether tropical forest (or other) species can adapt to warming environments is unclear, as genetic and selective data are scant. Nevertheless, the prospects for tropical forest ectotherms appear grim.</p>

DOI10.1098/rstb.2012.0005
Alternate JournalPhilos. Trans. R. Soc. Lond., B, Biol. Sci.