It can be challenging for organisms to achieve a good match between their phenotypic characteristics and environmental requirements that vary in space and time. The evolution of adaptive phenotypes can result from genetic differentiation at the population level. Individuals, however, could also change their phenotype (adaptive plasticity) or select an environment because it matches with their phenotype (matching habitat choice). It is poorly known under which conditions these different solutions to environmental heterogeneity evolve and whether they operate together. Using an individual-based simulation model, we assessed which solutions evolved depending on degree of temporal variation, costs of multiple underlying traits, and order of dis...
Habitat preference may promote adaptive divergence and speciation, yet the conditions under which th...
Adaptive phenotypic plasticity is an important source of intraspecific variation, and for many plast...
Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Pla...
It can be challenging for organisms to achieve a good match between their phenotypic characteristics...
It can be challenging for organisms to achieve a good match between their phenotypic characteristic...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
Human-induced habitat loss and fragmentation constrains the range of many species, making them unabl...
Can a history of phenotypic plasticity increase the rate of adaptation to a new environment? Theory ...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Organisms are faced with variable environments and one of the most common solutions to cope with suc...
Spatial and temporal environmental variation can favor the evolution of adaptive phenotypic plastici...
Habitat preference may promote adaptive divergence and speciation, yet the conditions under which th...
Adaptive phenotypic plasticity is an important source of intraspecific variation, and for many plast...
Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Pla...
It can be challenging for organisms to achieve a good match between their phenotypic characteristics...
It can be challenging for organisms to achieve a good match between their phenotypic characteristic...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
Human-induced habitat loss and fragmentation constrains the range of many species, making them unabl...
Can a history of phenotypic plasticity increase the rate of adaptation to a new environment? Theory ...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Organisms are faced with variable environments and one of the most common solutions to cope with suc...
Spatial and temporal environmental variation can favor the evolution of adaptive phenotypic plastici...
Habitat preference may promote adaptive divergence and speciation, yet the conditions under which th...
Adaptive phenotypic plasticity is an important source of intraspecific variation, and for many plast...
Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Pla...