The impact of environmental change on animal populations is strongly influenced by the ability of individuals to plastically adjust key life-history events. There is therefore considerable interest in establishing the degree of plasticity in traits and how selection acts on plasticity in natural populations. Breeding time is a key life-history trait that affects fitness and recent studies have found that females vary significantly in their breeding time–environment relationships, with selection often favouring individuals exhibiting stronger plastic responses. In contrast, here, we show that although breeding time in the common guillemot, Uria aalge, is highly plastic at the population level in response to a large-scale environmental cue (t...
1. Evolutionary adaptation as a response to climate change is expected for fitness-related traits af...
International audienceEarlier phenology induced by climate change, such as the passerines' breeding ...
Theoretical and laboratory research suggests that phenotypic plasticity can evolve under selection. ...
Climate fluctuations and its effects on ecological processes are evident in most areas worldwide but...
Climate change may have demographic consequences for marine top predators if it leads to altered rat...
Rapid climate change has been implicated as a cause of evolution in poorly adapted populations. Howe...
Individuals vary phenotypically. Phenotypic variation can emerge because of bet-hedging, micro-evolu...
The origin of natural selection is linked to environmental heterogeneity, which influences variation...
A crucial assumption underlying the breeders' equation is that selection acts directly on the trait ...
1. Phenological adjustments are an important aspect of a population’s response to climate change. Ch...
As many natural populations are declining and facing increasing threats, understanding the mechanism...
In response to climatic and other sources of environmental variation, individuals within a populatio...
Rapid climate change has been implicated as a cause of evolution in poorly adapted populations. Howe...
Phenotypic plasticity is an important mechanism for populations to respond to fluctuating environmen...
road-scale environmental changes are altering patterns of natural selection in the wild, but few emp...
1. Evolutionary adaptation as a response to climate change is expected for fitness-related traits af...
International audienceEarlier phenology induced by climate change, such as the passerines' breeding ...
Theoretical and laboratory research suggests that phenotypic plasticity can evolve under selection. ...
Climate fluctuations and its effects on ecological processes are evident in most areas worldwide but...
Climate change may have demographic consequences for marine top predators if it leads to altered rat...
Rapid climate change has been implicated as a cause of evolution in poorly adapted populations. Howe...
Individuals vary phenotypically. Phenotypic variation can emerge because of bet-hedging, micro-evolu...
The origin of natural selection is linked to environmental heterogeneity, which influences variation...
A crucial assumption underlying the breeders' equation is that selection acts directly on the trait ...
1. Phenological adjustments are an important aspect of a population’s response to climate change. Ch...
As many natural populations are declining and facing increasing threats, understanding the mechanism...
In response to climatic and other sources of environmental variation, individuals within a populatio...
Rapid climate change has been implicated as a cause of evolution in poorly adapted populations. Howe...
Phenotypic plasticity is an important mechanism for populations to respond to fluctuating environmen...
road-scale environmental changes are altering patterns of natural selection in the wild, but few emp...
1. Evolutionary adaptation as a response to climate change is expected for fitness-related traits af...
International audienceEarlier phenology induced by climate change, such as the passerines' breeding ...
Theoretical and laboratory research suggests that phenotypic plasticity can evolve under selection. ...