Add to ORKGSurface fluxes are important boundary conditions for climatological modeling and Asian monsoon system. The recent availability of high-resolution, multi-band imagery from the ASTER (Advanced Space-borne Thermal Emission and Reflection radiometer) sensor has enabled us to estimate surface fluxes to bridge the gap between local scale flux measurements using micrometeorological instruments and regional scale land-atmosphere exchanges of water and heat fluxes that are fundamental for the understanding of the water cycle in the Asian monsoon system. A parameterization method based on ASTER data and field observations has been proposed and tested for deriving surface albedo, surface temperature, Normalized Difference Vegetation Index (NDVI), Modi...
To better predict and understand land–atmospheric interactions in the Tibetan Plateau (TP), we used ...
Dealing with the regional land surfaces heat fluxes over inhomogeneous land surfaces in arid and sem...
Soil albedo controls the surface energy budget on the Tibetan Plateau (TP); however, estimates of th...
Surface fluxes are important boundary conditions for climatological modeling and Asian monsoon syste...
In this study, a parameterization method based on NOAA-14/AVHRR data and field observations is descr...
In this study, a parameterization method based on Landsat‐7 ETM data and field observations has been...
Land surface heat fluxes are essential measures of the strengths of land-atmosphere interactions inv...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
This paper explores the potential for documenting regional fields of surface energy fluxes over the ...
The regional heat flux exchange between heterogeneous landscapes and the nearby surface layer (SL) i...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
Analysis of long-term, ground-based observation data on the Tibetan Plateau help to enhance our unde...
In this study, a parameterization methodology based on MODIS (Moderate Resolution Imaging Spectrorad...
A parameterization approach of effective roughness length was introduced into the Surface Energy Bal...
This paper summarizes the results of studies carried in the framework of the Dragon 2 Program - Proj...
To better predict and understand land–atmospheric interactions in the Tibetan Plateau (TP), we used ...
Dealing with the regional land surfaces heat fluxes over inhomogeneous land surfaces in arid and sem...
Soil albedo controls the surface energy budget on the Tibetan Plateau (TP); however, estimates of th...
Surface fluxes are important boundary conditions for climatological modeling and Asian monsoon syste...
In this study, a parameterization method based on NOAA-14/AVHRR data and field observations is descr...
In this study, a parameterization method based on Landsat‐7 ETM data and field observations has been...
Land surface heat fluxes are essential measures of the strengths of land-atmosphere interactions inv...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
This paper explores the potential for documenting regional fields of surface energy fluxes over the ...
The regional heat flux exchange between heterogeneous landscapes and the nearby surface layer (SL) i...
The energy and water cycle over the Tibetan Plateau play an important role in the Asian monsoon syst...
Analysis of long-term, ground-based observation data on the Tibetan Plateau help to enhance our unde...
In this study, a parameterization methodology based on MODIS (Moderate Resolution Imaging Spectrorad...
A parameterization approach of effective roughness length was introduced into the Surface Energy Bal...
This paper summarizes the results of studies carried in the framework of the Dragon 2 Program - Proj...
To better predict and understand land–atmospheric interactions in the Tibetan Plateau (TP), we used ...
Dealing with the regional land surfaces heat fluxes over inhomogeneous land surfaces in arid and sem...
Soil albedo controls the surface energy budget on the Tibetan Plateau (TP); however, estimates of th...