scholarly journals Seasonal Evolution and Variability Associated with the West African Monsoon System

2004 ◽  
Vol 17 (17) ◽  
pp. 3364-3377 ◽  
Author(s):  
Guojun Gu ◽  
Robert F. Adler
Keyword(s):  
West African Monsoon ◽  
West African ◽  
The West ◽  
African Monsoon ◽  
Seasonal Evolution ◽  
Monsoon System

scholarly journals The role of low-level clouds in the West African monsoon system

2019 ◽  
Vol 19 (3) ◽  
pp. 1623-1647 ◽  
Author(s):  
Anke Kniffka ◽  
Peter Knippertz ◽  
Andreas H. Fink
Keyword(s):  
Climate Models ◽  
West African Monsoon ◽  
West African ◽  
Surface Radiation ◽  
Boreal Summer ◽  
The West ◽  
African Monsoon ◽  
Low Level ◽  
Low Clouds ◽  
Monsoon System

Abstract. Realistically simulating the West African monsoon system still poses a substantial challenge to state-of-the-art weather and climate models. One particular issue is the representation of the extensive and persistent low-level clouds over southern West Africa (SWA) during boreal summer. These clouds are important in regulating the amount of solar radiation reaching the surface, but their role in the local energy balance and the overall monsoon system has never been assessed. Based on sensitivity experiments using the ICON model for July 2006, we show for the first time that rainfall over SWA depends logarithmically on the optical thickness of low clouds, as these control the diurnal evolution of the planetary boundary layer, vertical stability and finally convection. In our experiments, the increased precipitation over SWA has a small direct effect on the downstream Sahel, as higher temperatures due to increased surface radiation are accompanied by decreases in low-level moisture due to changes in advection, leading to almost unchanged equivalent potential temperatures in the Sahel. A systematic comparison of simulations with and without convective parameterization reveals agreement in the direction of the precipitation signal but larger sensitivity for explicit convection. For parameterized convection the main rainband is too far south and the diurnal cycle shows signs of unrealistic vertical mixing, leading to a positive feedback on low clouds. The results demonstrate that relatively minor errors, variations or trends in low-level cloudiness over SWA can have substantial impacts on precipitation. Similarly, they suggest that the dimming likely associated with an increase in anthropogenic emissions in the future would lead to a decrease in summer rainfall in the densely populated Guinea coastal area. Future work should investigate longer-term effects of the misrepresentation of low clouds in climate models, e.g. moderated through effects on rainfall, soil moisture and evaporation.

scholarly journals Characteristics of wet and dry spells in the West African monsoon system

2017 ◽  
Vol 18 (3) ◽  
pp. 125-131 ◽  
Author(s):  
Stéphanie Froidurot ◽  
Arona Diedhiou
Keyword(s):  
West African Monsoon ◽  
West African ◽  
The West ◽  
African Monsoon ◽  
Dry Spells ◽  
Monsoon System

scholarly journals The role of moist convection in the West African monsoon system: Insights from continental-scale convection-permitting simulations

2013 ◽  
Vol 40 (9) ◽  
pp. 1843-1849 ◽  
Author(s):  
John H. Marsham ◽  
Nick S. Dixon ◽  
Luis Garcia-Carreras ◽  
Grenville M. S. Lister ◽  
Douglas J. Parker ◽  
...  
Keyword(s):  
West African Monsoon ◽  
West African ◽  
Moist Convection ◽  
The West ◽  
African Monsoon ◽  
Continental Scale ◽  
Monsoon System

scholarly journals The role of low-level clouds in the West African monsoon system

2018 ◽  
Author(s):  
Anke Kniffka ◽  
Peter Knippertz ◽  
Andreas H. Fink
Keyword(s):  
Climate Models ◽  
West African Monsoon ◽  
West African ◽  
Surface Radiation ◽  
Boreal Summer ◽  
The West ◽  
African Monsoon ◽  
Low Level ◽  
Low Clouds ◽  
Monsoon System

Abstract. Realistically simulating the West African monsoon system still poses a substantial challenge to state-of-the-art weather and climate models. One particular issue is the representation of the extensive and persistent low-level clouds over southern West Africa (SWA) during boreal summer. These clouds are important in regulating the amount of solar radiation reaching the surface but their role in the local energy balance and the overall monsoon system has never been assessed. Based on sensitivity experiments using the ICON model for July 2006, we show for the first time that rainfall over SWA depends logarithmically on the optical thickness of low clouds, as these control the diurnal evolution of the planetary boundary layer, vertical stability and finally convection. In our experiments, the increased precipitation over SWA has small direct effects on the downstream Sahel, as higher temperatures due to increased surface radiation are accompanied by decreases in low-level moisture due to changes in advection, leading to almost unchanged equivalent-potential temperatures in the Sahel. A systematic comparison of simulations with and without convective parameterisation reveals agreement in the direction of the precipitation signal but larger sensitivity for explicit convection. For parametrized convection the main rainband is too far south and the diurnal cycle shows signs of unrealistic vertical mixing, leading to a positive feedback on low clouds. The results demonstrate that relatively minor errors, variations or trends in low-level cloudiness over SWA can have substantial impacts on precipitation. Similarly they suggest that the dimming likely associated with an increase in anthropogenic emissions in the future would lead to a decrease of summer rainfall in the densely populated Guinea Coastal area. Future work should investigate longer-term effects of the misrepresentation of low clouds in climate models, e.g. moderated through effects on rainfall, soil moisture and evaporation.

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