Latitudinal variation in thermal reaction norms of key fitness traits may inform about the
response of populations to climate warming, yet their adaptive nature and evolutionary …

To assess long‐term impacts of global warming on species, there is growing interest in
latitudinal intraspecific patterns in thermal adaptation. Yet, while both mean temperatures …

Thermal tolerance is a key factor limiting insect distributions, but there is limited information
on the ability of species to evolve different thermal limits. Recent studies indicate that the …

Thermal tolerance is an important factor influencing the distribution of ectotherms, but we still
have limited understanding of the ability of species to evolve different thermal limits. Recent …

Although the potential to adapt to warmer climate is constrained by genetic trade-offs, our
understanding of how selection and mutation shape genetic (co) variances in thermal …

In ectotherms, lower temperatures in high-latitude environments would theoretically reduce
the annual growth rates of individuals. If slower growth and resultant smaller body size …

The potential of populations to evolve in response to ongoing climate change is partly
conditioned by the presence of heritable genetic variation in relevant physiological traits …

Thermal tolerance is an important factor influencing the distribution of ectotherms, but our
understanding of the ability of species to evolve different thermal limits is limited. Based on …

Most ectotherms follow the temperature‐size rule (TSR): in cold environments individuals
grow slowly but reach a large asymptotic length. Intraspecific competition can induce plastic …

Although environmental variability and predictability have been proposed as the underlying
ecological context in which transgenerational plasticity (TGP) arises, the adaptive …