Environmentally induced phenotypic plasticity may be a critical component of response to changing environments. We examined local differentiation and adaptive phenotypic plasticity in response to elevated temperature in half-sib lines collected across an elevation gradient for the alpine herb, Wahlenbergia ceracea. Using Amplified Fragment Length Polymorphism (AFLP), we found low but significant genetic differentiation between low- and high-elevation seedlings, and seedlings originating from low elevations grew faster and showed stronger temperature responses (more plasticity) than those from medium and high elevations. Furthermore, plasticity was more often adaptive for plants of low-elevation origin and maladaptive for plants of high elev...
Aims: Effects of climate change, especially changes in temperatures and precipitation patterns, are ...
Local adaptation is one possible response of organisms to survive in a changing environment. However...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Local adaptation and phenotypic plasticity are two important characteristics of alpine plants to ove...
Environmentally induced epigenetic variation has been recently recognized as a possible mechanism al...
In a rapidly changing climate, alpine plants may persist by adapting to new conditions. However, the...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Alpine plants occurring at high elevation are vulnerable to ongoing climate change, yet relatively l...
Climate change will dramatically alter temperature around the world. This research aims to identify ...
Across climate regions, organisms have developed various mechanisms to their local environments. Und...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
The ongoing climate crisis represents a growing threat for plants and other organisms. However, how ...
Aims: Effects of climate change, especially changes in temperatures and precipitation patterns, are ...
Local adaptation is one possible response of organisms to survive in a changing environment. However...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Environmentally induced phenotypic plasticity may be a critical component of response to changing en...
Local adaptation and phenotypic plasticity are two important characteristics of alpine plants to ove...
Environmentally induced epigenetic variation has been recently recognized as a possible mechanism al...
In a rapidly changing climate, alpine plants may persist by adapting to new conditions. However, the...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Alpine plants occurring at high elevation are vulnerable to ongoing climate change, yet relatively l...
Climate change will dramatically alter temperature around the world. This research aims to identify ...
Across climate regions, organisms have developed various mechanisms to their local environments. Und...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
The ongoing climate crisis represents a growing threat for plants and other organisms. However, how ...
Aims: Effects of climate change, especially changes in temperatures and precipitation patterns, are ...
Local adaptation is one possible response of organisms to survive in a changing environment. However...
Our ability to understand the underlying morphological and physiological responses of plants to chan...