Evapotranspiration has been recognized as one of the most uncertain term in the surface water balance simulated by land surface models. In this study, the SURFEX/ISBAA- gs simulations of evapotranspiration are assessed at local scale over a 12 year 5 Mediterranean crop succession. The model is evaluated in its standard implementation which relies on the use of the ISBA pedotransfer estimates of the soil properties. The originality of this work consists in explicitly representing the succession of crop cycles and inter-crop bare soil periods in the simulations and assessing its impact on the dynamic of simulated and measured evapotranspiration over a long period of time. 10 The analysis focuses on key soil parameters which drive the simulati...
Agro-hydrological models have increasingly become useful and powerful tools in optimizing water and ...
Uncertainties in simulated evapotranspiration from land surface models over a 15-year Mediterranean...
The simulation of root water uptake in land surface models is affected by large uncertainties. The d...
Evapotranspiration has been recognized as one of the most uncertain term in the surface water balanc...
[Departement_IRSTEA]EAUX [TR1_IRSTEA]ARCEAUInternational audienceThis paper presents a comparison of...
This paper presents a comparison of two water transfer schemes implemented in land surface models: a...
Generic land surface models are generally driven by large-scale data sets to describe the climate, t...
Uncertainties in simulated evapotranspiration from land surface models over a 14-year Mediterranean ...
Generic land surface models are generally driven by large-scale data sets to describe the climate, t...
Plant water uptake is a crucial process linking water fluxes in the soil-plant-atmosphere continuum....
The performance of a water balance model is also based on the ability to correctly perform simulatio...
Although the quantification of real evapotranspiration (ETr) is a prerequisite for an appropriate es...
The aim of the present work is the analysis and simulation of the water-soil-atmosphere system, in r...
International audienceThe purpose of this study is to test the ability of the Land Surface Model SEC...
Agro-hydrological models have increasingly become useful and powerful tools in optimizing water and ...
Uncertainties in simulated evapotranspiration from land surface models over a 15-year Mediterranean...
The simulation of root water uptake in land surface models is affected by large uncertainties. The d...
Evapotranspiration has been recognized as one of the most uncertain term in the surface water balanc...
[Departement_IRSTEA]EAUX [TR1_IRSTEA]ARCEAUInternational audienceThis paper presents a comparison of...
This paper presents a comparison of two water transfer schemes implemented in land surface models: a...
Generic land surface models are generally driven by large-scale data sets to describe the climate, t...
Uncertainties in simulated evapotranspiration from land surface models over a 14-year Mediterranean ...
Generic land surface models are generally driven by large-scale data sets to describe the climate, t...
Plant water uptake is a crucial process linking water fluxes in the soil-plant-atmosphere continuum....
The performance of a water balance model is also based on the ability to correctly perform simulatio...
Although the quantification of real evapotranspiration (ETr) is a prerequisite for an appropriate es...
The aim of the present work is the analysis and simulation of the water-soil-atmosphere system, in r...
International audienceThe purpose of this study is to test the ability of the Land Surface Model SEC...
Agro-hydrological models have increasingly become useful and powerful tools in optimizing water and ...
Uncertainties in simulated evapotranspiration from land surface models over a 15-year Mediterranean...
The simulation of root water uptake in land surface models is affected by large uncertainties. The d...