An accurate simulation of the sensible heat flux (H) over vegetation from thermal remote sensing requires an a priori estimate of roughness length and the excess resistance parameter kB −1 . Despite being the subject of considerable interest in hydrometeorology, there still does not exist a uniform method for estimating roughness length from remote sensing techniques. This study demonstrates a turbulent diffusion method to simulate canopy-air sensible heat. The performance of the roughness length scheme as described in Chen et al. (2013, https://doi.org/10.1175/JAMC-D-12-056.1 ) was examined by comparing simulated H to measured values at 28 flux tower stations, which include seven different land covers (needle forest, broadleaf forest, shru...
Abstract. An integrated canopy micrometeorological mode1 is described for calculating CO*, water vap...
<p>The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balanc...
Aerodynamic roughness length z(om) is an important parameter for reliably simulating surface fluxes....
Land surface models used in climate models neglect the roughness sublayer and parameterize within-c...
ABSTRACT all participating in a world-wide flux monitoring initia-tive known as FluxNet (Baldocchi e...
In this observational study, the role of tree phenology on the atmospheric turbulence parameterizati...
In this observational study, the role of tree phenology on the atmospheric turbulence parameterizati...
The aim of this thesis is the study of the exchange processes at atmosphere/biosphere interface, wit...
Parameterization methods which calculate turbulent heat and water fluxes with thermal remote sensing...
Complex terrain covers a large fraction of the land surface of the Earth. Due to the limited uses of...
The approach of using remote sensing of surface temperature to estimate spatially distributed surfac...
<p>This thesis deals with the representation of the exchange of energy, momentum and chemically reac...
The estimation of the surface roughness parameters and the choice of the non-dimensional gradient fu...
Parameterizations of aerodynamic resistance to heat and water transfer have a significant impact on ...
Stably stratified canopy flow in complex terrain has been considered a difficult condition for measu...
Abstract. An integrated canopy micrometeorological mode1 is described for calculating CO*, water vap...
<p>The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balanc...
Aerodynamic roughness length z(om) is an important parameter for reliably simulating surface fluxes....
Land surface models used in climate models neglect the roughness sublayer and parameterize within-c...
ABSTRACT all participating in a world-wide flux monitoring initia-tive known as FluxNet (Baldocchi e...
In this observational study, the role of tree phenology on the atmospheric turbulence parameterizati...
In this observational study, the role of tree phenology on the atmospheric turbulence parameterizati...
The aim of this thesis is the study of the exchange processes at atmosphere/biosphere interface, wit...
Parameterization methods which calculate turbulent heat and water fluxes with thermal remote sensing...
Complex terrain covers a large fraction of the land surface of the Earth. Due to the limited uses of...
The approach of using remote sensing of surface temperature to estimate spatially distributed surfac...
<p>This thesis deals with the representation of the exchange of energy, momentum and chemically reac...
The estimation of the surface roughness parameters and the choice of the non-dimensional gradient fu...
Parameterizations of aerodynamic resistance to heat and water transfer have a significant impact on ...
Stably stratified canopy flow in complex terrain has been considered a difficult condition for measu...
Abstract. An integrated canopy micrometeorological mode1 is described for calculating CO*, water vap...
<p>The parameterization of heat transfer based on remote sensing data, and the Surface Energy Balanc...
Aerodynamic roughness length z(om) is an important parameter for reliably simulating surface fluxes....