Phenotypic plasticity, the ability of an organism to express different phenotypes depending on the environment, provides an important mechanism by which an animal population can persist under rapid climate change. We experimentally tested both life-history and transcriptional responses of an ecological model species, the three-spined stickleback, to warm acclimation at the southern edge of its European range. We explored cross-environment genetic correlations of key life-history traits in male sticklebacks exposed to long-term temperature changes to examine whether the plasticity pattern was variable among genotypes by using a character-state approach. We also studied gene expression plasticity by analysing both whole-transcriptome and cand...
Temperature stress will continue to be a major challenge for all organisms over the next century. Ec...
There are numerous reports in the literature of advancing trends in phenophases of plants, insects a...
Resilience to climate change depends on a species\u27 adaptive potential and phenotypic plasticity. ...
Phenotypic plasticity, the ability of an organism to express different phenotypes depending on the e...
Phenotypic plasticity occurs at a variety of time-scales, but little is known about the degree to wh...
Phenotypic plasticity is predicted to facilitate individual survival and/or evolve in response to no...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Abiotic factors can act as barriers to colonization and drive local adaptation. During colonization,...
1. While there is evidence of genetic and phenotypic responses to climate change, few studies have d...
Ocean climates are changing rapidly and marine organisms must either acclimate or adapt to survive. ...
Increasing climate variability is predicted to pose an even greater risk to species than climate war...
Increasing climate variability is predicted to pose an even greater risk to species than climate war...
Transgenerational effects can buffer populations against environmental change, yet little is known a...
1. The environment can play an important role in the evolution of senescence because the optimal all...
Temperature stress will continue to be a major challenge for all organisms over the next century. Ec...
There are numerous reports in the literature of advancing trends in phenophases of plants, insects a...
Resilience to climate change depends on a species\u27 adaptive potential and phenotypic plasticity. ...
Phenotypic plasticity, the ability of an organism to express different phenotypes depending on the e...
Phenotypic plasticity occurs at a variety of time-scales, but little is known about the degree to wh...
Phenotypic plasticity is predicted to facilitate individual survival and/or evolve in response to no...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Heat waves constitute a challenge for aquatic ectotherms. However, the thermal tolerance of animals ...
Abiotic factors can act as barriers to colonization and drive local adaptation. During colonization,...
1. While there is evidence of genetic and phenotypic responses to climate change, few studies have d...
Ocean climates are changing rapidly and marine organisms must either acclimate or adapt to survive. ...
Increasing climate variability is predicted to pose an even greater risk to species than climate war...
Increasing climate variability is predicted to pose an even greater risk to species than climate war...
Transgenerational effects can buffer populations against environmental change, yet little is known a...
1. The environment can play an important role in the evolution of senescence because the optimal all...
Temperature stress will continue to be a major challenge for all organisms over the next century. Ec...
There are numerous reports in the literature of advancing trends in phenophases of plants, insects a...
Resilience to climate change depends on a species\u27 adaptive potential and phenotypic plasticity. ...