In this study, the potential future changes of mean and extreme precipitation in the middle and lower Yangtze River basin (MLYRB), eastern China, are assessed using the models of phase 5 of the Coupled Model Intercomparison Project (CMIP5). Historical model simulations are first compared with observations in order to evaluate model performance. In general, the models simulate the precipitation mean and frequency better than the precipitation intensity and extremes, but still have difficulty capturing precipitation patterns over complex terrains. They tend to overestimate precipitation mean, frequency, and intensity while underestimating the extremes. After correcting for model biases, the spatial variation of mean precipitation projected by...
textThe current generation of climate models in the Coupled Model Intercomparison Project Phase 5 (C...
Extreme hydrological events are a direct threat to society and the environment, and their study with...
The Sichuan basin is one of the most densely populated regions of China, making the area particularl...
Both central-eastern U.S. and China are prone to increasing flooding from Mississippi River and Yang...
Projecting future changes in extreme flood is critical for risk management. This paper presented an ...
The Yangtze River basin is a typical region of the world that has a well-developed economy but is al...
Sufficient samples of extreme precipitation events are needed in order to obtain reliable estimates ...
Eastern China is regularly exposed to extreme precipitation with significant socio-economical conseq...
This paper estimates the likely impacts of future climate change on streamflow, especially the hydro...
Monitoring extreme climate events is of great importance, mainly due to increasingly severe impacts ...
It is reported that the China–Pakistan Economic Corridor has been affected by extreme precipitation ...
Climate change directly impacts the hydrological cycle via increasing temperatures and seasonal prec...
It is indisputable that global warming has triggered more frequent extreme weather and in turn led t...
The regional climate model (RegCM3), developed by the Abdus Salam International Centre for Theoretic...
Based on the ERA5-Land datasets from 1981–2020, a decadal oscillation has been found in the variatio...
textThe current generation of climate models in the Coupled Model Intercomparison Project Phase 5 (C...
Extreme hydrological events are a direct threat to society and the environment, and their study with...
The Sichuan basin is one of the most densely populated regions of China, making the area particularl...
Both central-eastern U.S. and China are prone to increasing flooding from Mississippi River and Yang...
Projecting future changes in extreme flood is critical for risk management. This paper presented an ...
The Yangtze River basin is a typical region of the world that has a well-developed economy but is al...
Sufficient samples of extreme precipitation events are needed in order to obtain reliable estimates ...
Eastern China is regularly exposed to extreme precipitation with significant socio-economical conseq...
This paper estimates the likely impacts of future climate change on streamflow, especially the hydro...
Monitoring extreme climate events is of great importance, mainly due to increasingly severe impacts ...
It is reported that the China–Pakistan Economic Corridor has been affected by extreme precipitation ...
Climate change directly impacts the hydrological cycle via increasing temperatures and seasonal prec...
It is indisputable that global warming has triggered more frequent extreme weather and in turn led t...
The regional climate model (RegCM3), developed by the Abdus Salam International Centre for Theoretic...
Based on the ERA5-Land datasets from 1981–2020, a decadal oscillation has been found in the variatio...
textThe current generation of climate models in the Coupled Model Intercomparison Project Phase 5 (C...
Extreme hydrological events are a direct threat to society and the environment, and their study with...
The Sichuan basin is one of the most densely populated regions of China, making the area particularl...