Statistical downscaling and bias correction are becoming standard tools in climate impact studies. This book provides a comprehensive reference to widely-used approaches, and additionally covers the relevant user context and technical background, as well as a synthesis and guidelines for practitioners. It presents the main approaches including statistical downscaling, bias correction and weather generators, along with their underlying assumptions, skill and limitations. Relevant background information on user needs and observational and climate model uncertainties is complemented by concise introductions to the most important concepts in statistical and dynamical modelling. A substantial part is dedicated to the evaluation of regional clima...
VALUE is a network that developed a framework to evaluate statistical downscaling methods including ...
Abstract Efforts to diagnose the risks of a changing climate often rely on downscaled and bias-corre...
The Statistical DownScaling Model (SDSM) is a freely available tool that produces high resolution cl...
Statistical downscaling and bias correction are becoming standard tools in climate impact studies. T...
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...
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...
Global Climate Models (GCMs) are the primary tools for understanding how the global climate might ch...
The idea of statistical downscaling is to translate the information we get from the Global Climate M...
The climate change information required for many impact studies is of a spatial scale much finer tha...
The urge for higher resolution climate change scenarios has been widely recognized, particularly for...
in the frequency and intensity of flooding. The primary source of information in climate hange impac...
The term ‘downscaling’ refers to the process of translating information from global climate model s...
VALUE is a network that developed a framework to evaluate statistical downscaling methods including ...
Abstract Efforts to diagnose the risks of a changing climate often rely on downscaled and bias-corre...
The Statistical DownScaling Model (SDSM) is a freely available tool that produces high resolution cl...
Statistical downscaling and bias correction are becoming standard tools in climate impact studies. T...
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...
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...
Global Climate Models (GCMs) are the primary tools for understanding how the global climate might ch...
The idea of statistical downscaling is to translate the information we get from the Global Climate M...
The climate change information required for many impact studies is of a spatial scale much finer tha...
The urge for higher resolution climate change scenarios has been widely recognized, particularly for...
in the frequency and intensity of flooding. The primary source of information in climate hange impac...
The term ‘downscaling’ refers to the process of translating information from global climate model s...
VALUE is a network that developed a framework to evaluate statistical downscaling methods including ...
Abstract Efforts to diagnose the risks of a changing climate often rely on downscaled and bias-corre...
The Statistical DownScaling Model (SDSM) is a freely available tool that produces high resolution cl...