Abstract
Observations indicate a precipitation decline over large parts of southern Africa since the 1950s. Concurrently, atmospheric concentrations of greenhouse gases and aerosols have increased due to anthropogenic activities. Here we show that local black carbon and organic carbon aerosol emissions from biomass burning activities are a main cause of the observed decline in southern African dry season precipitation over the last century. Near the main biomass burning regions, global and regional modelling indicates precipitation decreases of 20–30%, with large spatial variability. Increasing global CO2 concentrations further contribute to precipitation reductions, somewhat less in magnitude but covering a larger area. Whereas precipitation changes from increased CO2 are driven by large-scale circulation changes, the increase in biomass burning aerosols causes local drying of the atmosphere. This study illustrates that reducing local biomass burning aerosol emissions may be a useful way to mitigate reduced rainfall in the region.
Highlights
Observations indicate a precipitation decline over large parts of southern Africa since the 1950s
The present study focuses on explaining causes of observed precipitation decline during the dry season in southern Africa
Our results show that the combination of Black carbon (BC)/Organic carbon (OC) from local anthropogenic biomass burning activities, and increases in the global CO2 concentration, can explain the precipitation decline in the region
Summary
Observations indicate a precipitation decline over large parts of southern Africa since the 1950s. We show that local black carbon and organic carbon aerosol emissions from biomass burning activities are a main cause of the observed decline in southern African dry season precipitation over the last century. Our results show that the combination of BC/OC from local anthropogenic biomass burning activities, and increases in the global CO2 concentration, can explain the precipitation decline in the region. These findings are further supported by analysis of the regional energy budget, which shows a local drying of the atmosphere from added biomass burning aerosols
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