Add to ORKGThermal tolerance is a key determinant of species distribution. Despite much study, the genetic basis of adaptive evolution of thermal tolerance, including the relative contributions of transcriptional regulation versus protein evolution, remains unclear. Populations of the intertidal copepod Tigriopus californicus are adapted to local thermal regimes across their broad geographic range. Upon thermal stress, adults from a heat tolerant southern population, San Diego (SD), upregulate several heat shock proteins (HSPs) to higher levels than those from a less tolerant northern population, Santa Cruz (SC). Suppression of a specific HSP, HSPB1, significantly reduces T. californicus survival following acute heat stress. Sequencing of HSPB1 reveal...
Understanding how populations adapt to heterogeneous thermal regimes is essential for comprehending ...
Accurately predicting how species respond to climate change is increasingly important as current met...
In response to environmental change, organisms rely on both genetic adaptation and phenotypic plasti...
With the warming trend due to climate change, conservation of species requires knowledge in ecologic...
Abstract Background Geographic variation in the thermal environment impacts a broad range of biochem...
As the climate warms, the response of organisms to rising temperatures has become an area of increas...
Organisms may respond to changing environments through phenotypic plasticity or adaptive evolution. ...
As species struggle to keep pace with the rapidly warming climate, adaptive introgression of benefic...
Populations of the intertidal copepod, Tigriopus californicus, vary in their tolerance to thermal st...
Thermal stress experiments are essential for understanding organisms' thermal limits and the physiol...
As populations diverge in allopatry, but under similar thermal conditions, do similar thermal perfor...
Thermal stress will become a more frequent occurrence as global temperatures continue to rise due to...
© 2016 The Authors. Functional Ecology © 2016 British Ecological Society Organisms may respond to ch...
Trade-offs may influence both physiological and evolutionary responses to co-occurring stressors, bu...
2/15/2019Intertidal environments fluctuate due to many environmental stressors, including temperatur...
Understanding how populations adapt to heterogeneous thermal regimes is essential for comprehending ...
Accurately predicting how species respond to climate change is increasingly important as current met...
In response to environmental change, organisms rely on both genetic adaptation and phenotypic plasti...
With the warming trend due to climate change, conservation of species requires knowledge in ecologic...
Abstract Background Geographic variation in the thermal environment impacts a broad range of biochem...
As the climate warms, the response of organisms to rising temperatures has become an area of increas...
Organisms may respond to changing environments through phenotypic plasticity or adaptive evolution. ...
As species struggle to keep pace with the rapidly warming climate, adaptive introgression of benefic...
Populations of the intertidal copepod, Tigriopus californicus, vary in their tolerance to thermal st...
Thermal stress experiments are essential for understanding organisms' thermal limits and the physiol...
As populations diverge in allopatry, but under similar thermal conditions, do similar thermal perfor...
Thermal stress will become a more frequent occurrence as global temperatures continue to rise due to...
© 2016 The Authors. Functional Ecology © 2016 British Ecological Society Organisms may respond to ch...
Trade-offs may influence both physiological and evolutionary responses to co-occurring stressors, bu...
2/15/2019Intertidal environments fluctuate due to many environmental stressors, including temperatur...
Understanding how populations adapt to heterogeneous thermal regimes is essential for comprehending ...
Accurately predicting how species respond to climate change is increasingly important as current met...
In response to environmental change, organisms rely on both genetic adaptation and phenotypic plasti...