International audienceThe importance of considering the spatial distribution of rainfall for process-oriented hydrological modelling is well-known. However, the application of rainfall radar data to provide such detailed spatial resolution is still under debate. In this study the process-oriented TACD (Tracer Aided Catchment model, Distributed) model had been used to investigate the effects of different spatially distributed rainfall input on simulated discharge and runoff components on an event base. TACD is fully distributed (50x50 m2 raster cells) and was applied on an hourly base. As model input rainfall data from up to 11 ground stations and high resolution rainfall radar data from an operational C-band radar were used. For seven rainf...
The performance of distributed hydrological models depends on the resolution, both spatial and tempo...
As the use of weather radar images is growing up, the link between temporal and spatial variability ...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAU [Encadrant_IRSTEA]Loumagne, C. ; Andréassian, V.Hydrolog...
International audienceThe importance of considering the spatial distribution of rainfall for process...
The importance of considering the spatial distribution of rainfall for process-oriented hydrological...
The link between rainfall space-time variability and hydrological modelling at a catchment outlet re...
The primary input for hydrological the hydrological model is rainfall. The accurate illustration of ...
The present work aims to quantify the effects of neglecting rainfall spatial variability for runoff ...
International audienceWe investigate the effect of spatial variability of daily rainfall on soil moi...
International audienceThe sensitivity of catchment runoff models to rainfall is investigated at a va...
International audienceWe investigate the effect of spatial variability of daily rainfall on soil moi...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Precipitation is the key factor controlling the high-frequency hydrological response in catchments, ...
The performance of distributed hydrological models depends on the resolution, both spatial and tempo...
As the use of weather radar images is growing up, the link between temporal and spatial variability ...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAU [Encadrant_IRSTEA]Loumagne, C. ; Andréassian, V.Hydrolog...
International audienceThe importance of considering the spatial distribution of rainfall for process...
The importance of considering the spatial distribution of rainfall for process-oriented hydrological...
The link between rainfall space-time variability and hydrological modelling at a catchment outlet re...
The primary input for hydrological the hydrological model is rainfall. The accurate illustration of ...
The present work aims to quantify the effects of neglecting rainfall spatial variability for runoff ...
International audienceWe investigate the effect of spatial variability of daily rainfall on soil moi...
International audienceThe sensitivity of catchment runoff models to rainfall is investigated at a va...
International audienceWe investigate the effect of spatial variability of daily rainfall on soil moi...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Hydrologic models are essential tools to compute the catchment rainfall-runoff response required for...
Precipitation is the key factor controlling the high-frequency hydrological response in catchments, ...
The performance of distributed hydrological models depends on the resolution, both spatial and tempo...
As the use of weather radar images is growing up, the link between temporal and spatial variability ...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAU [Encadrant_IRSTEA]Loumagne, C. ; Andréassian, V.Hydrolog...