The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface variability at this scale has been analysed to provide a parameterization for use in large-scale atmospheric models with a grid size unable to solve the landscape scale explicitly. Landscape variations are found to add drag to the atmosphere, owing to sudden changes in vegetation height. The drag increases momentum flux and indirectly influences the transfer of heat and gases between the landscape and the atmosphere. Consequently, the exchange between a variable landscape and the atmosphere deviates from a simple sum of the exchanges between landscape elements and the contiguous air layer. Strong influences are found for tree lines and forest ed...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
This study highlights the impacts of the surface variability on Land-Atmosphere interactions using m...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
Land exchanges momentum, energy, water, aerosols, carbon dioxide and other trace gases with its over...
The land surface interacts strongly with the atmosphere at all spatial and temporal scales. Therefor...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
This study highlights the impacts of the surface variability on Land-Atmosphere interactions using m...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
The Earth's surface shows variability at the landscape scale (1-10 km); the influence of surface var...
Land exchanges momentum, energy, water, aerosols, carbon dioxide and other trace gases with its over...
The land surface interacts strongly with the atmosphere at all spatial and temporal scales. Therefor...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...
This study highlights the impacts of the surface variability on Land-Atmosphere interactions using m...
Using a surface-layer model, fluxes of heat and momentum have been calculated for flat regions with ...