Add to ORKGHeterogeneous environments are often associated with differential selection pressures and montane habitats present a particularly interesting and useful case for the study of local adaption, as the environment changes rapidly and predictably along an elevation gradient. Higher elevations are characterized by predictably lower temperatures, more snowfall, and longer periods of winter conditions compared to lower elevations. Due to such environmental heterogeneity, individuals inhabiting higher elevations may experience stronger selection on various ecologically relevant traits compared to their lower elevation counterparts. These local adaptations may be enhanced by reduced movement between elevations and potentially maintained by assortativ...
Climate is a strong selection agent at high elevations, but experimental examinations of how animals...
An important aspect of montane bird ecology is that most species have limited elevational distributi...
Understanding how individual differences in physiological performance modify behavioral responses to...
Montane habitats are characterized by predictably rapid heterogeneity along elevational gradients an...
Animals use climate-related environmental cues to fine-tune breeding timing and investment to match ...
Comparative studies, across and within taxa, have made important contributions to our understanding ...
Forty percent of the terrestrial planet is mountainous, yet little is known about how breeding eleva...
Elevational gradients provide powerful natural systems for testing hypotheses regarding the role of ...
Natural selection favors traits that enhance fitness in a species and species occur in habitats for ...
We developed an approach to distinguish among three alternative strategies birds may employ relating...
Abstract We developed an approach to distinguish among 3 alternative strategies that ...
Elevational gradients provide a powerful laboratory for understanding the environmental and ecologic...
Tropical mountains are the most biodiverse terrestrial systems on Earth. This "megadiversity" is lar...
I used a comparative approach to examine phenotypic plasticity in morphology and life-history trait...
Elevational gradients provide a powerful laboratory for understanding the environmental and ecologic...
Climate is a strong selection agent at high elevations, but experimental examinations of how animals...
An important aspect of montane bird ecology is that most species have limited elevational distributi...
Understanding how individual differences in physiological performance modify behavioral responses to...
Montane habitats are characterized by predictably rapid heterogeneity along elevational gradients an...
Animals use climate-related environmental cues to fine-tune breeding timing and investment to match ...
Comparative studies, across and within taxa, have made important contributions to our understanding ...
Forty percent of the terrestrial planet is mountainous, yet little is known about how breeding eleva...
Elevational gradients provide powerful natural systems for testing hypotheses regarding the role of ...
Natural selection favors traits that enhance fitness in a species and species occur in habitats for ...
We developed an approach to distinguish among three alternative strategies birds may employ relating...
Abstract We developed an approach to distinguish among 3 alternative strategies that ...
Elevational gradients provide a powerful laboratory for understanding the environmental and ecologic...
Tropical mountains are the most biodiverse terrestrial systems on Earth. This "megadiversity" is lar...
I used a comparative approach to examine phenotypic plasticity in morphology and life-history trait...
Elevational gradients provide a powerful laboratory for understanding the environmental and ecologic...
Climate is a strong selection agent at high elevations, but experimental examinations of how animals...
An important aspect of montane bird ecology is that most species have limited elevational distributi...
Understanding how individual differences in physiological performance modify behavioral responses to...