Understanding how the natural world will be impacted by environmental change over the coming decades is one of the most pressing challenges facing humanity. Addressing this challenge is difficult because environmental change can generate both population level plastic and evolutionary responses, with plastic responses being either adaptive or non-adaptive. We develop an approach that links quantitative genetic theory with data-driven structured models to allow prediction of population responses to environmental change via plasticity and adaptive evolution. After introducing general new theory, we construct a number of example models to demonstrate that evolutionary responses to environmental change over the short-term will be considerably sl...
To forecast extinction risks of natural populations under climate change and direct human impacts, a...
Human-induced habitat loss and fragmentation constrains the range of many species, making them unabl...
Standing genetic variation represents a genetic load on population fitness but can also support a ra...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Many species facing climate change have complex life cycles, with individuals in different stages di...
Many species are experiencing sustained environmental change mainly due to human activities. The unu...
Background: Given the recent changes in climate, there is an urgent need to understand the evolution...
Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Pla...
Rapid environmental changes are putting numerous species at risk of extinction. For migration-limite...
Given the recent changes in climate, there is an urgent need to understand the evolutionary ability ...
A simple evolutionary model is used to understand the critical rate of environmental change beyond w...
Predicting if, when, and how populations can adapt to climate change constitutes one of the greatest...
To forecast extinction risks of natural populations under climate change and direct human impacts, a...
Human-induced habitat loss and fragmentation constrains the range of many species, making them unabl...
Standing genetic variation represents a genetic load on population fitness but can also support a ra...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Understanding how the natural world will be impacted by environmental change over the coming decades...
Many species facing climate change have complex life cycles, with individuals in different stages di...
Many species are experiencing sustained environmental change mainly due to human activities. The unu...
Background: Given the recent changes in climate, there is an urgent need to understand the evolution...
Populations adapt to novel environmental conditions by genetic changes or phenotypic plasticity. Pla...
Rapid environmental changes are putting numerous species at risk of extinction. For migration-limite...
Given the recent changes in climate, there is an urgent need to understand the evolutionary ability ...
A simple evolutionary model is used to understand the critical rate of environmental change beyond w...
Predicting if, when, and how populations can adapt to climate change constitutes one of the greatest...
To forecast extinction risks of natural populations under climate change and direct human impacts, a...
Human-induced habitat loss and fragmentation constrains the range of many species, making them unabl...
Standing genetic variation represents a genetic load on population fitness but can also support a ra...