Understanding the evolutionary potential of organisms to adapt to a changing climate, and the fitness consequences of temperature fluctuations, are critical to forecasting the future of biodiversity. Geographic variation among populations in life history response to temperature mean and variability offers one view of the potential for local adaptation to broaden the thermal niche. We used laboratory growth experiments to examine the effects of temperatures between 13 and 25°C on five life history traits and the intrinsic rate of increase for 15 Tigriopus californicus populations distributed over 17° of latitude. Different life history stages showed distinct latitudinal shifts in thermal response, while the temperature of peak population gro...
Understanding the mechanisms that allow organisms to cope with spatial and temporal variation is a f...
Antagonistic correlations among traits may slow the rate of adaptation to a changing environment. Th...
As the climate warms, the response of organisms to rising temperatures has become an area of increas...
Understanding the evolutionary potential of organisms to adapt to a changing climate, and the fitnes...
Many current models predicting the effects of climate change assume species are homogenous across ge...
Many current models predicting the effects of climate change assume species are homogenous across ge...
Climate change will alter life on Earth, but the specific impact on any given species is less certai...
Thermal adaptation to spatially varying environmental conditions occurs in a wide range of species, ...
Understanding how populations adapt to heterogeneous thermal regimes is essential for comprehending ...
Broadly distributed species may adapt to local temperature conditions such that isolated population...
Thermal adaptation to spatially varying environmental conditions occurs in a wide range of species, ...
Species living over large geographical ranges often have populations that are better adapted their ...
Local adaptation to different thermal environments is often expected to result in trade-offs in othe...
Local adaptation has been understudied in marine systems, but might be expected to be pronounced in ...
In response to environmental change, organisms rely on both genetic adaptation and phenotypic plasti...
Understanding the mechanisms that allow organisms to cope with spatial and temporal variation is a f...
Antagonistic correlations among traits may slow the rate of adaptation to a changing environment. Th...
As the climate warms, the response of organisms to rising temperatures has become an area of increas...
Understanding the evolutionary potential of organisms to adapt to a changing climate, and the fitnes...
Many current models predicting the effects of climate change assume species are homogenous across ge...
Many current models predicting the effects of climate change assume species are homogenous across ge...
Climate change will alter life on Earth, but the specific impact on any given species is less certai...
Thermal adaptation to spatially varying environmental conditions occurs in a wide range of species, ...
Understanding how populations adapt to heterogeneous thermal regimes is essential for comprehending ...
Broadly distributed species may adapt to local temperature conditions such that isolated population...
Thermal adaptation to spatially varying environmental conditions occurs in a wide range of species, ...
Species living over large geographical ranges often have populations that are better adapted their ...
Local adaptation to different thermal environments is often expected to result in trade-offs in othe...
Local adaptation has been understudied in marine systems, but might be expected to be pronounced in ...
In response to environmental change, organisms rely on both genetic adaptation and phenotypic plasti...
Understanding the mechanisms that allow organisms to cope with spatial and temporal variation is a f...
Antagonistic correlations among traits may slow the rate of adaptation to a changing environment. Th...
As the climate warms, the response of organisms to rising temperatures has become an area of increas...