Studies have demonstrated that precipitation on Northern Hemisphere mid-latitudes has increased in the last decades and that it is likely that this trend will continue. This will have an influence on discharge of the river Meuse. The use of bias correction methods is important when the effect of precipitation change on river discharge is studied. The objective of this paper is to investigate the effect of using two different bias correction methods on output from a Regional Climate Model (RCM) simulation. In this study a Regional Atmospheric Climate Model (RACMO2) run is used, forced by ECHAM-5 under the condition of the SRES-A1B emission scenario, with a 25 km horizontal resolution. The RACMO2 runs contain a systematic precipitation bias o...
Bias correction is a necessary post-processing procedure in order to use regional climate model (RCM...
Future climate model scenarios depend crucially on the models' adequate representation of the hydrol...
The present study investigates a statistical approach for the downscaling of climate simulations foc...
Studies have demonstrated that precipitation on Northern Hemisphere mid-latitudes has increased in t...
Due to biases in the output of climate models, a bias correction is often needed to make the output ...
In climate change impact research, the assessment of future river runoff as well as the catchment-sc...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
Bias-correction methods are commonly applied to climate model data in hydrological climate impact s...
In this work we asses the benefits of removing bias in climate forcing data used for hydrological cl...
Many studies bias correct daily precipitation from climate models to match the observed precipitatio...
The systemic biases of Regional Climate Models (RCMs) impede their application in regional hydrologi...
Bias correction is a necessary post-processing procedure in order to use Regional Climate Model (RCM...
Nowadays hydrological models have become an important tool in predicting streamflow generation. Most...
Summarization: Global climate model (GCM) outputs feature systematic biases that render them unsuita...
In this study, we evaluate the implications of a bias correction method on a combination of Global/R...
Bias correction is a necessary post-processing procedure in order to use regional climate model (RCM...
Future climate model scenarios depend crucially on the models' adequate representation of the hydrol...
The present study investigates a statistical approach for the downscaling of climate simulations foc...
Studies have demonstrated that precipitation on Northern Hemisphere mid-latitudes has increased in t...
Due to biases in the output of climate models, a bias correction is often needed to make the output ...
In climate change impact research, the assessment of future river runoff as well as the catchment-sc...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
Bias-correction methods are commonly applied to climate model data in hydrological climate impact s...
In this work we asses the benefits of removing bias in climate forcing data used for hydrological cl...
Many studies bias correct daily precipitation from climate models to match the observed precipitatio...
The systemic biases of Regional Climate Models (RCMs) impede their application in regional hydrologi...
Bias correction is a necessary post-processing procedure in order to use Regional Climate Model (RCM...
Nowadays hydrological models have become an important tool in predicting streamflow generation. Most...
Summarization: Global climate model (GCM) outputs feature systematic biases that render them unsuita...
In this study, we evaluate the implications of a bias correction method on a combination of Global/R...
Bias correction is a necessary post-processing procedure in order to use regional climate model (RCM...
Future climate model scenarios depend crucially on the models' adequate representation of the hydrol...
The present study investigates a statistical approach for the downscaling of climate simulations foc...