Abstract
CMIP6 climate models have difficulties representing the strong absorption properties of biomass-burning aerosols (BBA) over the Southeast Atlantic and the associated direct forcing. This study takes advantage of unique in situ and remote sensing observations to evaluate the vertical profile and chemical composition of BBA, which are key properties for modeling radiative interactions. Over land, CMIP6 models show a sharper vertical decrease in carbonaceous aerosol concentration than observed, indicating insufficient vertical mixing. Over the ocean, most models transport BBA lower, between 1 and 1.5 km, than observed. This could be due to both excessive subsidence and lack of self-lofting of BBA. In addition, the ratio between black carbon and organic aerosol mass concentrations is underestimated by about 0.1 compared to observations. These biases limit the ability of models to capture the absorption above clouds in this region, which could have implications for the regional radiative and climatic impact of African BBA.