The purpose of this study is to test the ability of the Land Surface Model SECHIBA to simulate water budget and particularly soil moisture at two different scales: regional and local. The model is forced by NLDAS data set at 1/8th degree resolution over the 1997-1999 period. SECHIBA gives satisfying results in terms of evapotranspiration and runoff over the US compared with four other land surface models, all forced by NLDAS data set for a common time period. The simulated soil moisture is compared to in-situ data from the Global Soil Moisture Database across Illinois by computing a soil wetness index. A comprehensive approach is performed to test the ability of SECHIBA to simulate soil moisture with a gradual change of the vegetation param...
The objective of the present study is to test the performance of the ECMWF land surface module (LSM)...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
International audienceThe purpose of this study is to test the ability of the Land Surface Model SEC...
The purpose of this study is to test the ability of the Land Surface Model SECHIBA to simulate wate...
Evapotranspiration has been recognized as one of the most uncertain term in the surface water balanc...
Integration of simulated and observed states through data assimilation as well as model evaluation r...
Soil moisture is a key state variable in land surface processes. Since field measurements of soil mo...
The soil moisture state simulated by a land surface model is a highly model-dependent quantity, mean...
The Parameterization for Land–Atmosphere–Cloud Exchange (PLACE), a typical surface–vegetation–atmosp...
A critical function of a land surface scheme, used in climate and weather prediction models, is to p...
International audiencePlant activity in semi-arid ecosystems is largely controlled by pulses of prec...
textFrom June to August 2011, Texas experienced the hottest summer ever recorded in the history of t...
Long-term measurements of high-resolution soil moisture across rolling terrain facilitate complex si...
The objective of the present study is to test the performance of the ECMWF land surface module (LSM)...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
International audienceThe purpose of this study is to test the ability of the Land Surface Model SEC...
The purpose of this study is to test the ability of the Land Surface Model SECHIBA to simulate wate...
Evapotranspiration has been recognized as one of the most uncertain term in the surface water balanc...
Integration of simulated and observed states through data assimilation as well as model evaluation r...
Soil moisture is a key state variable in land surface processes. Since field measurements of soil mo...
The soil moisture state simulated by a land surface model is a highly model-dependent quantity, mean...
The Parameterization for Land–Atmosphere–Cloud Exchange (PLACE), a typical surface–vegetation–atmosp...
A critical function of a land surface scheme, used in climate and weather prediction models, is to p...
International audiencePlant activity in semi-arid ecosystems is largely controlled by pulses of prec...
textFrom June to August 2011, Texas experienced the hottest summer ever recorded in the history of t...
Long-term measurements of high-resolution soil moisture across rolling terrain facilitate complex si...
The objective of the present study is to test the performance of the ECMWF land surface module (LSM)...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...