International audienceLand surface models (LSMs) used in climate modeling include detailed above-ground biophysics but usually lack a good representation of runoff. Both processes are closely linked through soil moisture. Soil moisture however has a high spatial variability that is unresolved at climate model grid scales. Physically based vertical and horizontal aggregation methods exist to account for this scaling problem. Effects of scaling and aggregation have been evaluated in this study by performing catchment-scale LSM simulations for the Rhône catchment. It is found that evapotranspiration is not sensitive to soil moisture over the Rhône but it largely controls total runoff as a residual of the terrestrial water balance. Runoff magni...
Knowledge on the state of soil moisture is essential for improving predictability of the global ener...
Climate variability and landscape characteristics interact to define specific catchment hydrological...
A new strategy for modeling the land surface component of the climate system is described. The strat...
International audienceLand surface models (LSMs) used in climate modeling include detailed above-gro...
The Rhône-Aggregation (Rhône-AGG) Land Surface Scheme (LSS) intercomparison project is an initiative...
International audienceThe Rhône-Aggregation (Rhône-AGG) Land Surface Scheme (LSS) intercomparison pr...
Abstract. The issue of scale in land surface water and energy balance processes has been a dominant ...
Soil moisture modifies the state of the atmosphere and thus plays a major role in the climate system...
International audienceVery different approaches exist in land surface models (LSMs) to describe the ...
An accurate estimation of water exchange between land surface and atmosphere is critical for numeric...
Biotic leaf transpiration (T) and abiotic evaporation (E) are the two major pathways by which water ...
Knowledge on the state of soil moisture is essential for improving predictability of the global ener...
Climate variability and landscape characteristics interact to define specific catchment hydrological...
A new strategy for modeling the land surface component of the climate system is described. The strat...
International audienceLand surface models (LSMs) used in climate modeling include detailed above-gro...
The Rhône-Aggregation (Rhône-AGG) Land Surface Scheme (LSS) intercomparison project is an initiative...
International audienceThe Rhône-Aggregation (Rhône-AGG) Land Surface Scheme (LSS) intercomparison pr...
Abstract. The issue of scale in land surface water and energy balance processes has been a dominant ...
Soil moisture modifies the state of the atmosphere and thus plays a major role in the climate system...
International audienceVery different approaches exist in land surface models (LSMs) to describe the ...
An accurate estimation of water exchange between land surface and atmosphere is critical for numeric...
Biotic leaf transpiration (T) and abiotic evaporation (E) are the two major pathways by which water ...
Knowledge on the state of soil moisture is essential for improving predictability of the global ener...
Climate variability and landscape characteristics interact to define specific catchment hydrological...
A new strategy for modeling the land surface component of the climate system is described. The strat...