Add to ORKGThe importance of climatic conditions in shaping the geographic distribution of amphibian species is mainly associated to their high sensitivity to environmental conditions. How they cope with climate gradients through behavioral adaptations throughout their distribution is an important issue due to the ecological and evolutionary implications for population viability. Given their low dispersal abilities, the response to seasonal climate changes may not be migration, but behavioral and physiological adaptations. Here we tested whether shifts in climatic seasonality can predict the temporal variation of surface activity of the fossorial Lowland Burrowing Treefrog (Smilisca fodiens) across its geographical distribution. We employed Ecological...
Abstract Background Climate is often considered as a key ecological factor limiting the capability o...
Climate change is determining a generalized phenological advancement, and amphibians are among the t...
1. The vulnerability of species to climate change is jointly influenced by geographic phenotypic var...
The importance of climatic conditions in shaping the geographic distribution of amphibian species is...
<div><p>The importance of climatic conditions in shaping the geographic distribution of amphibian sp...
As environmental conditions change over time, some species can follow the spatial footprint of their...
The vulnerability of species to climate change is jointly influenced by geographic phenotypic variat...
International audienceSeasonality exerts strong pressures on biodiversity patterns. Yet, temporal be...
Accurate predictions regarding how climate change affects species and populations are crucial for th...
Disentangling the role that multiple interacting factors have on species responses to shifting clima...
Amphibian populations are sensitive to environmental temperatures and moisture, which vary with loca...
Environmental temperatures are a major constraint on ectotherm abundance, influencing their distribu...
Despite the widespread use of Ecological Niche Models (ENMs) for predicting the responses of species...
Amphibians are particularly sensitive to environmental water availability due to their particulariti...
Changing climate will impact species' ranges only when environmental variability directly impacts th...
Abstract Background Climate is often considered as a key ecological factor limiting the capability o...
Climate change is determining a generalized phenological advancement, and amphibians are among the t...
1. The vulnerability of species to climate change is jointly influenced by geographic phenotypic var...
The importance of climatic conditions in shaping the geographic distribution of amphibian species is...
<div><p>The importance of climatic conditions in shaping the geographic distribution of amphibian sp...
As environmental conditions change over time, some species can follow the spatial footprint of their...
The vulnerability of species to climate change is jointly influenced by geographic phenotypic variat...
International audienceSeasonality exerts strong pressures on biodiversity patterns. Yet, temporal be...
Accurate predictions regarding how climate change affects species and populations are crucial for th...
Disentangling the role that multiple interacting factors have on species responses to shifting clima...
Amphibian populations are sensitive to environmental temperatures and moisture, which vary with loca...
Environmental temperatures are a major constraint on ectotherm abundance, influencing their distribu...
Despite the widespread use of Ecological Niche Models (ENMs) for predicting the responses of species...
Amphibians are particularly sensitive to environmental water availability due to their particulariti...
Changing climate will impact species' ranges only when environmental variability directly impacts th...
Abstract Background Climate is often considered as a key ecological factor limiting the capability o...
Climate change is determining a generalized phenological advancement, and amphibians are among the t...
1. The vulnerability of species to climate change is jointly influenced by geographic phenotypic var...