2022
DOI: 10.1101/2022.05.09.491229
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Evolution of thermal performance curves: a meta-analysis of selection experiments

Abstract: Temperatures are increasing due to global changes, putting biodiversity at risk. Organisms are faced with a limited set of options to cope with this situation: adapt, disperse or die. We here focus on the first possibility, more specifically, on evolutionary adaptations to temperature. Ectotherms are usually characterized by a hump-shaped relationship between fitness and temperature, a non-linear reaction norm that is referred to as thermal performance curve (TPC). To understand and predict impacts of global c… Show more

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“…the slope of the linear TPCs of log-scaled performance), and the optimum temperature ( T opt ) at which the maximal performance ( R max ) is reached for unimodal TPCs [11,14,15]. Besides trait means, also their TPCs may rapidly evolve (reviewed by [16]), and this has been increasingly investigated in ectotherms [1722]. Evolutionary changes of TPCs could in principle include changes in their key features: E a for the exponentially rising part of TPCs, and T opt and R max for unimodal TPCs.…”
Section: Introductionmentioning
confidence: 99%
“…the slope of the linear TPCs of log-scaled performance), and the optimum temperature ( T opt ) at which the maximal performance ( R max ) is reached for unimodal TPCs [11,14,15]. Besides trait means, also their TPCs may rapidly evolve (reviewed by [16]), and this has been increasingly investigated in ectotherms [1722]. Evolutionary changes of TPCs could in principle include changes in their key features: E a for the exponentially rising part of TPCs, and T opt and R max for unimodal TPCs.…”
Section: Introductionmentioning
confidence: 99%