An adapted statistical bias correction method is introduced to incorporate circulation-dependence of the model precipitation bias, and its influence on estimated discharges for the Rhine basin is analyzed for a historical period. The bias correction method is tailored to time scales relevant to flooding events in the basin. Large-scale circulation patterns (CPs) are obtained through Maximum Covariance Analysis using reanalysis sea level pressure and high-resolution precipitation observations. A bias correction using these CPs is applied to winter and summer separately, acknowledging the seasonal variability of the circulation regimes in North Europe and their correlation with regional precipitation rates over the Rhine basin. Two different ...
Climate change is likely to influence the frequency of extreme extremes - temperature, precipitation...
Study region: The Mindel river catchment, gauge Offingen, Bavaria, Germany. Study focus: The study i...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
An adapted statistical bias correction method is introduced to incorporate circulation-dependence of...
An adapted statistical bias correction method is introduced to incorporate circulation-dependence of...
Nowadays hydrological models have become an important tool in predicting streamflow generation. Most...
In many climate impact studies hydrological models are forced with meteorological data without an at...
To understand past flood changes in the Rhine catchment and in particular the role of anthropogenic...
Future climate model scenarios depend crucially on the models' adequate representation of the hydrol...
General circulation models (GCMs) project an increasing frequency and intensity of heavy rainfall ev...
Bias-correction methods are commonly applied to climate model data in hydrological climate impact s...
Abstract. To understand past flood changes in the Rhine catchment and in particular the role of anth...
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...
Enduring and extensive heavy precipitation events associated with widespread river floods are among ...
Climate change is likely to influence the frequency of extreme extremes - temperature, precipitation...
Study region: The Mindel river catchment, gauge Offingen, Bavaria, Germany. Study focus: The study i...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
An adapted statistical bias correction method is introduced to incorporate circulation-dependence of...
An adapted statistical bias correction method is introduced to incorporate circulation-dependence of...
Nowadays hydrological models have become an important tool in predicting streamflow generation. Most...
In many climate impact studies hydrological models are forced with meteorological data without an at...
To understand past flood changes in the Rhine catchment and in particular the role of anthropogenic...
Future climate model scenarios depend crucially on the models' adequate representation of the hydrol...
General circulation models (GCMs) project an increasing frequency and intensity of heavy rainfall ev...
Bias-correction methods are commonly applied to climate model data in hydrological climate impact s...
Abstract. To understand past flood changes in the Rhine catchment and in particular the role of anth...
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...
Enduring and extensive heavy precipitation events associated with widespread river floods are among ...
Climate change is likely to influence the frequency of extreme extremes - temperature, precipitation...
Study region: The Mindel river catchment, gauge Offingen, Bavaria, Germany. Study focus: The study i...
Probability estimates of the future change of extreme precipitation events are usually based on a li...