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 a
It is challenging to understand how plants adapt flowering time to novel environmental conditions, s...
Climate change is altering the availability of resources and the conditions that are crucial to plan...
Ice holes are microthermal biotopes occurring at low elevations such as 500 m a.s.l. characterized b...
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...
In a rapidly changing climate, alpine plants may persist by adapting to new conditions. However, the...
International audiencePhenotypic plasticity is important for species responses to global change and ...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Plants are exposed to heterogeneity in the environment where new stress factors (i.e., climate chang...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Understanding the ability of species to respond to climate change is essential for prediction of the...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
The Alpine landscape is characterized by great spatial and temporal heterogeneity, to which plants m...
Climate change is altering the availability of resources and the conditions that are crucial to plan...
It is challenging to understand how plants adapt flowering time to novel environmental conditions, s...
Climate change is altering the availability of resources and the conditions that are crucial to plan...
Ice holes are microthermal biotopes occurring at low elevations such as 500 m a.s.l. characterized b...
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...
In a rapidly changing climate, alpine plants may persist by adapting to new conditions. However, the...
International audiencePhenotypic plasticity is important for species responses to global change and ...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Plants are exposed to heterogeneity in the environment where new stress factors (i.e., climate chang...
Local persistence of plant species in the face of climate change is largely mediated by genetic adap...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Understanding the ability of species to respond to climate change is essential for prediction of the...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
The Alpine landscape is characterized by great spatial and temporal heterogeneity, to which plants m...
Climate change is altering the availability of resources and the conditions that are crucial to plan...
It is challenging to understand how plants adapt flowering time to novel environmental conditions, s...
Climate change is altering the availability of resources and the conditions that are crucial to plan...
Ice holes are microthermal biotopes occurring at low elevations such as 500 m a.s.l. characterized b...
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