We examine the resolution dependence of errors in extreme sub-daily precipitation in available high-resolution climate models. We find that simulated extreme precipitation increases as horizontal resolution increases but that appropriately constructed model skill metrics do not significantly change. We find little evidence that simulated extreme winter or summer storm processes significantly improve with the resolution because the model performance changes identified are consistent with expectations from scale dependence arguments alone. We also discuss the implications of these scale-dependent limitations on the interpretation of simulated extreme precipitation. This article is part of a discussion meeting issue 'Intensification of short-d...
AbstractPrecipitation extremes have tangible societal impacts. Here, we assess if current state of t...
We investigate the ability of a global atmospheric general circulation model (AGCM) to reproduce obs...
We present an analysis of version 5.1 of the Community Atmospheric Model (CAM5.1) at a high horizont...
Extreme weather events can have serious impacts on human society as well as on ecosystems. Future an...
Numerous studies have shown that atmospheric models with high horizontal resolution better represent...
Finer grids in global climate models could lead to an improvement in the simulation of precipitation...
To investigate the influence of atmospheric model resolution on the representation of daily precipit...
This study explores whether climate models with higher spatial resolutions provide higher accuracy f...
The importance of warning the population of floods and extreme precipitation is big and therefore th...
Sub-daily precipitation extremes can have a huge impact on society as they cause hazards such as flo...
Climate models often underestimate the magnitude of extreme precipitation. We compare the performanc...
[[abstract]]Changes in the frequency or intensify of extreme weather and climate events could have p...
Precipitation maxima in global climate model (GCM) simulations are compared with observations in ter...
This study explores whether climate models with higher spatial resolutions provide higher accuracy f...
Sub-daily precipitation extremes can have a huge impact on society as they cause hazards such as flo...
AbstractPrecipitation extremes have tangible societal impacts. Here, we assess if current state of t...
We investigate the ability of a global atmospheric general circulation model (AGCM) to reproduce obs...
We present an analysis of version 5.1 of the Community Atmospheric Model (CAM5.1) at a high horizont...
Extreme weather events can have serious impacts on human society as well as on ecosystems. Future an...
Numerous studies have shown that atmospheric models with high horizontal resolution better represent...
Finer grids in global climate models could lead to an improvement in the simulation of precipitation...
To investigate the influence of atmospheric model resolution on the representation of daily precipit...
This study explores whether climate models with higher spatial resolutions provide higher accuracy f...
The importance of warning the population of floods and extreme precipitation is big and therefore th...
Sub-daily precipitation extremes can have a huge impact on society as they cause hazards such as flo...
Climate models often underestimate the magnitude of extreme precipitation. We compare the performanc...
[[abstract]]Changes in the frequency or intensify of extreme weather and climate events could have p...
Precipitation maxima in global climate model (GCM) simulations are compared with observations in ter...
This study explores whether climate models with higher spatial resolutions provide higher accuracy f...
Sub-daily precipitation extremes can have a huge impact on society as they cause hazards such as flo...
AbstractPrecipitation extremes have tangible societal impacts. Here, we assess if current state of t...
We investigate the ability of a global atmospheric general circulation model (AGCM) to reproduce obs...
We present an analysis of version 5.1 of the Community Atmospheric Model (CAM5.1) at a high horizont...