To study the global hydrological cycle and its response to a changing climate, we rely on global climate models (GCMs) and global hydrological models (GHMs). The spatial resolution of these models is restricted by computational resources and therefore limits the processes and level of detail that can be resolved. Increase in computer power therefore permits increase in resolution, but it is an open question where this resolution is invested best: in the GCM or GHM. In this study, we evaluated the benefits of increased resolution, without modifying the representation of physical processes in the models. By doing so, we can evaluate the benefits of resolution alone.We assess and compare the benefits of an increased resolution for a GCM and a ...
This study aimed to investigate the influence of hydrological model calibration/validation on discha...
Importance of evaluation of global hydrological models (gHMs) before doing climate impact assessment...
Quantification of spatially and temporally resolved water flows and water storage variations for all...
To study the global hydrological cycle and its response to a changing climate, we rely on global cli...
This repository contains the observational data and the parameter fields for the hydrological model ...
We used 20th century simulations by nine global climate models (GCMs) to provide input for a streamf...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
This study investigates the impact of model resolution on the hydrological cycle in a suite of model...
A number of global hydrological models [GHMs) have been developed in recent decades in order to unde...
This study investigates the impact of model resolution on the hydrological cycle in a suite of model...
Previous studies showed that high-resolution GCMs overestimate land precipitation when compared agai...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAUPrecipitation is the key factor controlling the high-freq...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
The impact of climate change on flooding in the river Meuse is assessed on a daily basis using spati...
The global water cycle is a fundamental component of our climate and Earth system. Many, if not the ...
This study aimed to investigate the influence of hydrological model calibration/validation on discha...
Importance of evaluation of global hydrological models (gHMs) before doing climate impact assessment...
Quantification of spatially and temporally resolved water flows and water storage variations for all...
To study the global hydrological cycle and its response to a changing climate, we rely on global cli...
This repository contains the observational data and the parameter fields for the hydrological model ...
We used 20th century simulations by nine global climate models (GCMs) to provide input for a streamf...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
This study investigates the impact of model resolution on the hydrological cycle in a suite of model...
A number of global hydrological models [GHMs) have been developed in recent decades in order to unde...
This study investigates the impact of model resolution on the hydrological cycle in a suite of model...
Previous studies showed that high-resolution GCMs overestimate land precipitation when compared agai...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAUPrecipitation is the key factor controlling the high-freq...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
The impact of climate change on flooding in the river Meuse is assessed on a daily basis using spati...
The global water cycle is a fundamental component of our climate and Earth system. Many, if not the ...
This study aimed to investigate the influence of hydrological model calibration/validation on discha...
Importance of evaluation of global hydrological models (gHMs) before doing climate impact assessment...
Quantification of spatially and temporally resolved water flows and water storage variations for all...