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Aerosols. Kenneth Hunu and Partner Dynamics of Climate Variability and Climate Change 5 December 2006. What are aerosols?. Aerosols: liquid or solid particles suspended in air Natural aerosols: sources: volcanoes, sea spray from ocean, dust coarse in size (~2 microns)
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Aerosols Kenneth Hunu and Partner Dynamics of Climate Variability and Climate Change 5 December 2006
What are aerosols? Aerosols: liquid or solid particles suspended in air Natural aerosols: sources: volcanoes, sea spray from ocean, dust coarse in size (~2 microns) Anthropogenic aerosols: sources: combustion of fossil fuels and biomass fine in size (~ 0.2microns) Aerosols have a short lifespan in the atmosphere
Main Point 1: Aerosols influence the Earth’s radiation budget • Direct effect: Increased albedo- reflecting incoming sunlight • Semi-direct effect: absorption of sunlight by black carbon and soot warms the atmosphere thereby reducing convection. • First indirect effect: increase number of cloud droplets thereby increasing cloud’s reflectivity and cooling the earth. • Second indirect effect: smaller size of anthropogenic aerosols makes it difficult for cloud droplets to gather enough mass to fall as rain - cools the earth and decreases precipitation efficiency of cloud. • Aerosols have a net cooling effect • Aerosol cooling expected to decrease in the future
Main Point 2: Aerosols affect the hydrologic cycle • Smaller cloud condensation nuclei from man-made sources • Results in smaller cloud droplets (indirect effect) • Harder to form raindrops (lowered precipitation efficiency) • Potential to rain less over polluted regions • Potential to have polluted rain over clean areas • This results in a net cooling effect and reduced precipitation
Main Point 3: The magnitude of aerosol forcing on climate is uncertain • Uncertainties make it hard to calculate exact aerosol forcing • Difficult to determine the second indirect effect • Incomplete understanding about cloud dynamics • Resolution of models too coarse • Net cooling effect of aerosols results in a ‘radiative’ forcing of around 0 to –4.4 W/m2
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