Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, why tropical species are more vulnerable to climate change remains unclear. Tropical species are thought to have narrower physiological tolerances to temperature, and they have already experienced a higher estimated frequency of climate-related local extinctions. These two patterns suggest that tropical species are more vulnerable to climate change because they have narrower thermal niche widths. However, no studies have tested whether species with narrower climatic niche widths for temperature have experienced more local extinctions, and if these narrower niche widths can explain the higher frequency of tropical local extinctions. Here, we tes...
Aim: The conservatism of realized climatic niche is a pivotal assumption for predicting invasion ris...
Climate change may soon threaten much of global biodiversity, especially if species cannot adapt to ...
Aim: The assumption that species’ native distributions are in equilibrium with climate has been show...
Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, wh...
Current climate change may be a major threat to global biodiversity, but the extent of species loss ...
Current climate change may be a major threat to global biodiversity, but the extent of species loss ...
Climatic niches are essential in determining where species can occur and how they will respond to cl...
Aim. Tropical species are thought to experience and be adapted to narrow ranges of abiotic condition...
The responses of lowland tropical communities to climate change will critically influence global bio...
Species extinction is the most alarming consequence of global biodiversity decline, with potential d...
Predictions suggest that climate change could cause the extinction of up to a million species. Howev...
Climate is a main predictor of biodiversity on a global scale, yet how climate availability affects ...
Aims: As global temperatures rise, the survival of many species may hinge on whether they can shift...
The geographic ranges of closely related species can vary dramatically, yet we do not fully grasp th...
Geologically rapid climate change is anticipated to increase extinction risk non-uniformly across th...
Aim: The conservatism of realized climatic niche is a pivotal assumption for predicting invasion ris...
Climate change may soon threaten much of global biodiversity, especially if species cannot adapt to ...
Aim: The assumption that species’ native distributions are in equilibrium with climate has been show...
Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, wh...
Current climate change may be a major threat to global biodiversity, but the extent of species loss ...
Current climate change may be a major threat to global biodiversity, but the extent of species loss ...
Climatic niches are essential in determining where species can occur and how they will respond to cl...
Aim. Tropical species are thought to experience and be adapted to narrow ranges of abiotic condition...
The responses of lowland tropical communities to climate change will critically influence global bio...
Species extinction is the most alarming consequence of global biodiversity decline, with potential d...
Predictions suggest that climate change could cause the extinction of up to a million species. Howev...
Climate is a main predictor of biodiversity on a global scale, yet how climate availability affects ...
Aims: As global temperatures rise, the survival of many species may hinge on whether they can shift...
The geographic ranges of closely related species can vary dramatically, yet we do not fully grasp th...
Geologically rapid climate change is anticipated to increase extinction risk non-uniformly across th...
Aim: The conservatism of realized climatic niche is a pivotal assumption for predicting invasion ris...
Climate change may soon threaten much of global biodiversity, especially if species cannot adapt to ...
Aim: The assumption that species’ native distributions are in equilibrium with climate has been show...