2021
DOI: 10.1111/1365-2656.13482
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Evolution of cold tolerance and thermal plasticity in life history, behaviour and physiology during a poleward range expansion

Abstract: 1. Many species that are moving polewards encounter novel thermal regimes to which they have to adapt. Therefore, rapid evolution of thermal tolerance and of thermal plasticity in fitness-related traits in edge populations can be crucial for the success and speed of range expansions.2. We tested for adaptation in cold tolerance and in life history, behavioural and physiological traits and their thermal plasticity during a poleward range expansion.3. We reconstructed the thermal performance curves of life histo… Show more

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Cited by 23 publications
(26 citation statements)
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“…Directly after the growth rate estimation, one subset of larvae was used to estimate the functional response, and another subset to measure metabolic rate. Routine metabolic rate (MO 2 ) was determined using closed respirometry (Carbonell et al, 2021). Metabolic rate was estimated on a subset of 15 larvae per combination of temperature and region (total of 60 larvae).…”
Section: Methodsmentioning
confidence: 99%
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“…Directly after the growth rate estimation, one subset of larvae was used to estimate the functional response, and another subset to measure metabolic rate. Routine metabolic rate (MO 2 ) was determined using closed respirometry (Carbonell et al, 2021). Metabolic rate was estimated on a subset of 15 larvae per combination of temperature and region (total of 60 larvae).…”
Section: Methodsmentioning
confidence: 99%
“…Accordingly, an increasing number of studies have documented rapid evolution and thermal plasticity of life history traits during range expansions (e.g. Carbonell et al, 2021; Diamond, 2018; Stuart et al, 2019). Yet, range expansion dynamics and their ecological impact may critically depend on interactions with other species and the effects of thermal changes on these interactions (Aguilera et al, 2019; Jones et al, 2020; Nadeau & Urban, 2019).…”
Section: Introductionmentioning
confidence: 99%
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“…Many studies of evolution during range shifts in insects have focused on changes in physiological traits under ecological selection (e.g. [21][22][23]). However, novel demographic conditions arising from range expansion can also impose selection on characteristics such as enhanced dispersal or resistance to inbreeding, and on life history traits such as reduced generation time, voltinism and diapause that can speed up the expansion itself [24].…”
Section: Eco-evolutionary Dynamics During Insect Range Shiftsmentioning
confidence: 99%
“…In such cases, it is important to understand the environmental or climatic limitations of the species in question, in order to know in which regions, latitudes or locations it can exist. Physiological assessments of the invading species can help with this, by determining tolerance or plasticity to environmental conditions of a given region (Carbonell et al, 2021; Jacobson et al, 2012; Kelley, 2014; Riddle & Markezich, 1981).…”
Section: Introductionmentioning
confidence: 99%