Add to ORKGCoupled models are the tools by which we diagnose and project future climate, yet in certain regions they are critically underevaluated. The Congo Basin is one such region which has received limited scientific attention, due to the severe scarcity of observational data. There is a large difference in the climatology of rainfall in global coupled climate models over the basin. This study attempts to address this research gap by evaluating modeled rainfall magnitude and distribution amongst global coupled models in the Coupled Model Intercomparison Project 5 (CMIP5) ensemble. Mean monthly rainfall between models varies by up to a factor of 5 in some months, and models disagree on the location of maximum rainfall. The ensemble mean, which is u...
Regional impact assessments of climate change on hydrological extremes require robust examinations o...
We investigate the reasons for the opposite climate change signals in precipitation between the regi...
This study presents potential future variations of mean rainfall and temperature over East Africa (E...
The convective region of the Congo Basin is a vital component of both the tropical and global circul...
Congo Basin September-November rainfall varies by up to a factor of three across CMIP5 coupled model...
Understanding the processes responsible for precipitation and its future change is important to deve...
As one of three global hot spots of tropical convection, potential future changes to the Congo Basin...
Across the Congo, there is a wide spread in rainfall in the two wet seasons in Coupled Model Interco...
The Congo Basin is one of three key areas of tropical convection and contains the planet’s second la...
Local African communities heavily depend on rain-fed agriculture, which are vulnerable to the impact...
In southern Africa, models from the 5th Coupled Model Intercomparison Project (CMIP5) predict robust...
This study aims to assess patterns, variability, and trends of rainfall and meteorological drought a...
It is well accepted within the scientific community that a large ensemble of different projections i...
International audienceWest African monsoon is one of the most challenging climate components to mode...
Climate variability, in Africa in general and in the Republic of Congo-Brazzaville in particular, ha...
Regional impact assessments of climate change on hydrological extremes require robust examinations o...
We investigate the reasons for the opposite climate change signals in precipitation between the regi...
This study presents potential future variations of mean rainfall and temperature over East Africa (E...
The convective region of the Congo Basin is a vital component of both the tropical and global circul...
Congo Basin September-November rainfall varies by up to a factor of three across CMIP5 coupled model...
Understanding the processes responsible for precipitation and its future change is important to deve...
As one of three global hot spots of tropical convection, potential future changes to the Congo Basin...
Across the Congo, there is a wide spread in rainfall in the two wet seasons in Coupled Model Interco...
The Congo Basin is one of three key areas of tropical convection and contains the planet’s second la...
Local African communities heavily depend on rain-fed agriculture, which are vulnerable to the impact...
In southern Africa, models from the 5th Coupled Model Intercomparison Project (CMIP5) predict robust...
This study aims to assess patterns, variability, and trends of rainfall and meteorological drought a...
It is well accepted within the scientific community that a large ensemble of different projections i...
International audienceWest African monsoon is one of the most challenging climate components to mode...
Climate variability, in Africa in general and in the Republic of Congo-Brazzaville in particular, ha...
Regional impact assessments of climate change on hydrological extremes require robust examinations o...
We investigate the reasons for the opposite climate change signals in precipitation between the regi...
This study presents potential future variations of mean rainfall and temperature over East Africa (E...