<p>The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balance System (SEBS) scheme to retrieve turbulent heat fluxes, already proved to be very appropriate for estimating evapotranspiration (ET) over homogeneous land surfaces. However, the use of such a method over heterogeneous landscapes (e.g., semi-arid regions or agricultural land) becomes more difficult, since the principle of similarity theory is compromised by the presence of different heat sources at various heights. This study aims to propose and evaluate some models based on vegetation geometry partly developed by Colin and Faivre, to retrieve the surface aerodynamic roughness length for momentum transfer (z<sub>0m</sub>), which is a key par...
Aerodynamic roughness length (z(0m)) is a key factor in surface flux estimations with remote sensing...
Aerodynamic roughness length (z(0)) is one of the main parameters for describing aerodynamic charact...
International audienceParameterizations of aerodynamic resistance to heat and water transfer have a ...
The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balance S...
The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balance S...
Roughness length of land surfaces is an essential variable for the parameterisation of momentum and ...
The parameterization of heat transfer by remote sensing, and based on SEBS scheme for turbulent heat...
Information of temporal and spatial variation of aerodynamic roughness length is required in most la...
The aerodynamic roughness length (Z0) and surface geometry at ultra-high resolution in precision agr...
Most land surface models require information on aerodynamic roughness length and its temporal and sp...
The parameterization of heat transfer by remote sensing, and based on SEBS scheme for turbulent heat...
Aerodynamic roughness height (Zom) is a key parameter required in several land surface hydrological ...
This work presented in [1] was partly supported by the ESA Dragon 2 programme under proposal no. 532...
The land surface heterogeneity has a very significant impact on atmospheric variables (air temperatu...
Current land surface models still have difficulties with producing reliable surface heat fluxes and ...
Aerodynamic roughness length (z(0m)) is a key factor in surface flux estimations with remote sensing...
Aerodynamic roughness length (z(0)) is one of the main parameters for describing aerodynamic charact...
International audienceParameterizations of aerodynamic resistance to heat and water transfer have a ...
The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balance S...
The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balance S...
Roughness length of land surfaces is an essential variable for the parameterisation of momentum and ...
The parameterization of heat transfer by remote sensing, and based on SEBS scheme for turbulent heat...
Information of temporal and spatial variation of aerodynamic roughness length is required in most la...
The aerodynamic roughness length (Z0) and surface geometry at ultra-high resolution in precision agr...
Most land surface models require information on aerodynamic roughness length and its temporal and sp...
The parameterization of heat transfer by remote sensing, and based on SEBS scheme for turbulent heat...
Aerodynamic roughness height (Zom) is a key parameter required in several land surface hydrological ...
This work presented in [1] was partly supported by the ESA Dragon 2 programme under proposal no. 532...
The land surface heterogeneity has a very significant impact on atmospheric variables (air temperatu...
Current land surface models still have difficulties with producing reliable surface heat fluxes and ...
Aerodynamic roughness length (z(0m)) is a key factor in surface flux estimations with remote sensing...
Aerodynamic roughness length (z(0)) is one of the main parameters for describing aerodynamic charact...
International audienceParameterizations of aerodynamic resistance to heat and water transfer have a ...