International audienceA novel climate downscaling methodology that attempts to correct climate simulation biases is proposed. By combining an advanced statistical bias correction method with a dynamical downscaling it constitutes a hybrid technique that yields nearly unbiased, high-resolution, physically consistent, three-dimensional fields that can be used for climate impact studies. The method is based on a prior statistical distribution correction of large-scale global climate model (GCM) 3-dimensional output fields to be taken as boundary forcing of a dynamical regional climate model (RCM). GCM fields are corrected using meteorological reanalyses. We evaluate this methodology over a decadal experiment. The improvement in terms of spatia...
The urge for higher resolution climate change scenarios has been widely recognized, particularly for...
Regional climate models (RCMs) are used to dynamically downscale global climate models (GCMs) to pro...
Anthropogenic-driven climate change would affect the global ecosystem and is becoming a world-wide c...
International audienceA novel climate downscaling methodology that attempts to correct climate simul...
High-resolution, bias-corrected climate data is necessary for climate impact studies and modeling ef...
Statistical downscaling and bias correction are becoming standard tools in climate impact studies. T...
Regional climate impact assessments require high-resolution projections to resolve local factors tha...
Global Climate Models (GCMs) are the typical sources of future climate data required for impact asse...
Regional climate change studies usually rely on downscaling of global climate model (GCM) output in ...
Global climate model simulations inherently contain multiple biases that, when used as boundary cond...
Large biases associated with climate projections are problematic when it comes to their regional app...
Abstract: There are many different techniques for dynamical downscaling of global climate change pro...
Statistical downscaling can be used to efficiently downscale a large number of General Circulation M...
The term ‘downscaling’ refers to the process of translating information from global climate model s...
The urge for higher resolution climate change scenarios has been widely recognized, particularly for...
Regional climate models (RCMs) are used to dynamically downscale global climate models (GCMs) to pro...
Anthropogenic-driven climate change would affect the global ecosystem and is becoming a world-wide c...
International audienceA novel climate downscaling methodology that attempts to correct climate simul...
High-resolution, bias-corrected climate data is necessary for climate impact studies and modeling ef...
Statistical downscaling and bias correction are becoming standard tools in climate impact studies. T...
Regional climate impact assessments require high-resolution projections to resolve local factors tha...
Global Climate Models (GCMs) are the typical sources of future climate data required for impact asse...
Regional climate change studies usually rely on downscaling of global climate model (GCM) output in ...
Global climate model simulations inherently contain multiple biases that, when used as boundary cond...
Large biases associated with climate projections are problematic when it comes to their regional app...
Abstract: There are many different techniques for dynamical downscaling of global climate change pro...
Statistical downscaling can be used to efficiently downscale a large number of General Circulation M...
The term ‘downscaling’ refers to the process of translating information from global climate model s...
The urge for higher resolution climate change scenarios has been widely recognized, particularly for...
Regional climate models (RCMs) are used to dynamically downscale global climate models (GCMs) to pro...
Anthropogenic-driven climate change would affect the global ecosystem and is becoming a world-wide c...