International audienceThe well-documented energy balance dynamics within forest ecosystems are poorly implemented in studies of the biophysical effects of forests. This results in limitations to the accurate quantification of forest cooling/ warming on local air temperature. Taking into consideration the forest air space, this study proposes a three-layered (canopy, forest air space and soil [CAS]) land surface energy balance model to simulate air temperature within forest spaces (T af) and subsequently to evaluate its biophysical effects on forest cooling/warming, i.e., the air temperature gradient (ΔT a) between the T af and air temperature of open spaces (T ao) (ΔT a = T af − T ao). We test the model using field data for 23 sites across ...
In recent years, afforestation has been proposed as a promising strategy for climate change mitigati...
This study investigates the difference in land–atmosphere interactions between grassland and forest ...
International audienceThe direct biophysical effects of fine-scale tree cover changes on temperature...
International audienceThe well-documented energy balance dynamics within forest ecosystems are poorl...
The microclimate dynamics under forest crown fundamentally drive plant community responses to global...
This is a dataset of urban forest cooling/warming on local air temperatures collected from global ob...
The biophysical effects of forests on climate have been extensively studied with climate models. How...
Although the biophysical effects of afforestation or deforestation on local climate are recognized, ...
Afforestation changes the land surface energy balance, though the effects on climate in temperate re...
In a climate model, surface energy and water fluxes of the vegetated ecosystem largely depend on imp...
In order to estimate the effect of drastic land use changes on the global mean temperature, a set of...
Land-use/cover change (LUCC) is an important driver of environmental change, occurring at the same t...
In this paper the surface energy balance of forests is considered on a regional scale. The interacti...
Observational evidence suggests that compared to non-forested areas, forests have a cooling effect o...
We investigated the effect of land use on differences in air temperature. We based our analysis on a...
In recent years, afforestation has been proposed as a promising strategy for climate change mitigati...
This study investigates the difference in land–atmosphere interactions between grassland and forest ...
International audienceThe direct biophysical effects of fine-scale tree cover changes on temperature...
International audienceThe well-documented energy balance dynamics within forest ecosystems are poorl...
The microclimate dynamics under forest crown fundamentally drive plant community responses to global...
This is a dataset of urban forest cooling/warming on local air temperatures collected from global ob...
The biophysical effects of forests on climate have been extensively studied with climate models. How...
Although the biophysical effects of afforestation or deforestation on local climate are recognized, ...
Afforestation changes the land surface energy balance, though the effects on climate in temperate re...
In a climate model, surface energy and water fluxes of the vegetated ecosystem largely depend on imp...
In order to estimate the effect of drastic land use changes on the global mean temperature, a set of...
Land-use/cover change (LUCC) is an important driver of environmental change, occurring at the same t...
In this paper the surface energy balance of forests is considered on a regional scale. The interacti...
Observational evidence suggests that compared to non-forested areas, forests have a cooling effect o...
We investigated the effect of land use on differences in air temperature. We based our analysis on a...
In recent years, afforestation has been proposed as a promising strategy for climate change mitigati...
This study investigates the difference in land–atmosphere interactions between grassland and forest ...
International audienceThe direct biophysical effects of fine-scale tree cover changes on temperature...