Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combined snowmelt- and rainfall-driven regime to a more rainfall-dominated regime. Previous impact assessments have indicated that this leads, on average, to increasing streamflow by similar to 30% in winter and spring and decreasing streamflow by a similar value in summer. In this study, high-resolution (0.088 degrees) regional climate scenarios conducted with the regional climate model REMO (REgional MOdel) for the Rhine basin are used to force a macroscale hydrological model. These climate scenarios are based on model output from the ECHAM5-Max Planck Institute Ocean Model (MPI-OM) global climate model, which is in turn forced by three Speci...
AbstractThe genesis of floods in large river basins often is complex. Streamflow originating from pr...
Study region: To provide a picture of hydrological impact of climate change across different climati...
In this study we applied the hydrological model SIMGRO to the Rhine basin. After the input data of t...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
The Rhine basin will shift from a combined rainfall and snow melt regime to a more rainfall dominate...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
The impacts of climate change on the seasonality of low flows were analysed for 134 sub-catchments c...
The hydrological regime of the Rhine basin is expected to shift from a combined snowmelt-rainfall re...
The impacts of climate change on the seasonality of low flows are analysed for 134 sub-catchments co...
The impacts of climate change on the seasonality of low flows were analysed for 134 sub-catchments c...
Simulations with seven regional climate models driven by a common control climate simulation of a GC...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Variability is present on multiple levels in the hydrological cycle, both spatially and temporally. ...
Assessments of climate change impacts on runoff regimes are essential to climate change adaptation a...
AbstractThe genesis of floods in large river basins often is complex. Streamflow originating from pr...
Study region: To provide a picture of hydrological impact of climate change across different climati...
In this study we applied the hydrological model SIMGRO to the Rhine basin. After the input data of t...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
The Rhine basin will shift from a combined rainfall and snow melt regime to a more rainfall dominate...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
The impacts of climate change on the seasonality of low flows were analysed for 134 sub-catchments c...
The hydrological regime of the Rhine basin is expected to shift from a combined snowmelt-rainfall re...
The impacts of climate change on the seasonality of low flows are analysed for 134 sub-catchments co...
The impacts of climate change on the seasonality of low flows were analysed for 134 sub-catchments c...
Simulations with seven regional climate models driven by a common control climate simulation of a GC...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Variability is present on multiple levels in the hydrological cycle, both spatially and temporally. ...
Assessments of climate change impacts on runoff regimes are essential to climate change adaptation a...
AbstractThe genesis of floods in large river basins often is complex. Streamflow originating from pr...
Study region: To provide a picture of hydrological impact of climate change across different climati...
In this study we applied the hydrological model SIMGRO to the Rhine basin. After the input data of t...