Vegetated habitats contain a variety of fine-scale features that can ameliorate temperate extremes. These buffered microhabitats may be used by species to evade extreme weather and novel climates in the future. Yet, the magnitude and extent of this buffering on a global scale remains unknown. Across all tropical continents and using 36 published studies, we assessed temperature buffering from within microhabitats across various habitat strata and structures (e.g. soil, logs, epiphytes and tree holes) and compared them to non-buffered macro-scale ambient temperatures (the thermal control). Microhabitats buffered temperature by 3.9°C and reduced maximum temperatures by 3.5°C. Buffering was most pronounced in tropical lowlands where temperatur...
Forest canopies buffer climate extremes and promote microclimates that may function as refugia for u...
According to a prevailing hypothesis, lowland tropical organisms are unlikely to successfully cross ...
Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, wh...
Vegetated habitats contain a variety of fine-scale features that can ameliorate temperate extremes. ...
Extreme weather events, such as unusually hot or dry conditions, can cause death by exceeding physio...
Climate change is affecting the phenology, distribution and performance of species across the globe....
Species may circumvent or minimize some impacts resulting from climate change by utilizing microhabi...
Global temperatures are rising. Temperature data derived from weather stations are used in order to ...
Complex landscapes interact with meteorological processes to generate climatically suitable habitat ...
With the increase in intensity and frequency of extreme climate events, interactions between vegetat...
Temperature is a core component of a species’ fundamental niche. At the fine scale over which most o...
Tropical rainforests are subject to extensive degradation by commercial selective logging. Despite p...
International audienceForest canopies buffer macroclimatic temperature fluctuations. However, we do ...
Forest canopies buffer climate extremes and promote microclimates that may function as refugia for u...
According to a prevailing hypothesis, lowland tropical organisms are unlikely to successfully cross ...
Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, wh...
Vegetated habitats contain a variety of fine-scale features that can ameliorate temperate extremes. ...
Extreme weather events, such as unusually hot or dry conditions, can cause death by exceeding physio...
Climate change is affecting the phenology, distribution and performance of species across the globe....
Species may circumvent or minimize some impacts resulting from climate change by utilizing microhabi...
Global temperatures are rising. Temperature data derived from weather stations are used in order to ...
Complex landscapes interact with meteorological processes to generate climatically suitable habitat ...
With the increase in intensity and frequency of extreme climate events, interactions between vegetat...
Temperature is a core component of a species’ fundamental niche. At the fine scale over which most o...
Tropical rainforests are subject to extensive degradation by commercial selective logging. Despite p...
International audienceForest canopies buffer macroclimatic temperature fluctuations. However, we do ...
Forest canopies buffer climate extremes and promote microclimates that may function as refugia for u...
According to a prevailing hypothesis, lowland tropical organisms are unlikely to successfully cross ...
Climate change may be a major threat to global biodiversity, especially to tropical species. Yet, wh...