Understanding whether populations and communities can evolve fast enough to keep up with ongoing climate change is one of the most pressing issues in biology today. A growing number of studies have documented rapid evolutionary responses to warming, suggesting that populations may be able to persist despite temperature increases. The challenge now is to better understand how species interactions, which are ubiquitous in nature, mediate these population responses to warming. Here we use laboratory natural selection experiments in a freshwater community to test hypotheses related to how thermal evolution of Daphnia pulex to two selection temperatures (12˚C, 18˚C) is mediated by rapid thermal evolution of its algal resource (Scenedesmus obliqu...
Climate change is altering regional temperatures, forcing species to respond to new environmental ch...
Global climate is changing rapidly, and the degree to which natural populations respond genetically ...
Understanding the evolutionary responses of organisms to thermal regimes is of prime importance to b...
Understanding whether populations and communities can evolve fast enough to keep up with ongoing cli...
As climate regimes shift in many ecosystems worldwide, evolution may be a critical process allowing ...
Populations at risk of extinction due to climate change may be rescued by adaptive evolution or plas...
There are an increasing number of studies documenting effects of global warming on the distribution ...
Warming global temperatures are driving changes in species distributions, growth and timing, but muc...
Many studies document genetic and phenotypic trait changes of species in response to climate change,...
Populations at risk of extinction due to climate change may be rescued by adaptive evolution or plas...
International audience1. How thermal evolution may affect trophic interactions and its implications ...
Changes in temperature have occurred throughout Earth’s history. However, current warming trends exa...
Global environmental changes are rapidly transforming ecosystems. As a result, populations will face...
Understanding how populations adapt to rising temperatures has been a challenge in ecology. Research...
Climate change is altering regional temperatures, forcing species to respond to new environmental ch...
Global climate is changing rapidly, and the degree to which natural populations respond genetically ...
Understanding the evolutionary responses of organisms to thermal regimes is of prime importance to b...
Understanding whether populations and communities can evolve fast enough to keep up with ongoing cli...
As climate regimes shift in many ecosystems worldwide, evolution may be a critical process allowing ...
Populations at risk of extinction due to climate change may be rescued by adaptive evolution or plas...
There are an increasing number of studies documenting effects of global warming on the distribution ...
Warming global temperatures are driving changes in species distributions, growth and timing, but muc...
Many studies document genetic and phenotypic trait changes of species in response to climate change,...
Populations at risk of extinction due to climate change may be rescued by adaptive evolution or plas...
International audience1. How thermal evolution may affect trophic interactions and its implications ...
Changes in temperature have occurred throughout Earth’s history. However, current warming trends exa...
Global environmental changes are rapidly transforming ecosystems. As a result, populations will face...
Understanding how populations adapt to rising temperatures has been a challenge in ecology. Research...
Climate change is altering regional temperatures, forcing species to respond to new environmental ch...
Global climate is changing rapidly, and the degree to which natural populations respond genetically ...
Understanding the evolutionary responses of organisms to thermal regimes is of prime importance to b...