Assessing the Aerosol Impact on Southern West African Clouds and Atmospheric Dynamics
Deetz, Konrad
Assessing the Aerosol Impact on Southern West African Clouds and Atmospheric Dynamics - KIT Scientific Publishing 2018 - 1 electronic resource (V, 316 p. p.)
Open Access
By using COSMO-ART, highly resolved process study simulations for 2-3 July 2016 are conducted to assess the aerosol effect on the meteorological conditions of southern West Africa. The meteorological phenomenon Evening Monsoon Flow Enhancement (EMFE) is identified as highly susceptible to the aerosol direct effect, leading to a spatial shift of the EMFE front. In a second aerosol feedback chain the aerosol variation leads to a temporal shift of the stratus-to-cumulus transition.
Creative Commons
English
KSP/1000077925 9783731507444
10.5445/KSP/1000077925 doi
COSMO-ART Wolken Aerosol Westafrikanischer Monsun clouds West African monsoon Nächtlicher Stratus COSMO-ARTaerosol nocturnal stratus
Assessing the Aerosol Impact on Southern West African Clouds and Atmospheric Dynamics - KIT Scientific Publishing 2018 - 1 electronic resource (V, 316 p. p.)
Open Access
By using COSMO-ART, highly resolved process study simulations for 2-3 July 2016 are conducted to assess the aerosol effect on the meteorological conditions of southern West Africa. The meteorological phenomenon Evening Monsoon Flow Enhancement (EMFE) is identified as highly susceptible to the aerosol direct effect, leading to a spatial shift of the EMFE front. In a second aerosol feedback chain the aerosol variation leads to a temporal shift of the stratus-to-cumulus transition.
Creative Commons
English
KSP/1000077925 9783731507444
10.5445/KSP/1000077925 doi
COSMO-ART Wolken Aerosol Westafrikanischer Monsun clouds West African monsoon Nächtlicher Stratus COSMO-ARTaerosol nocturnal stratus