Global estimate of aerosol direct radiative forcing from satellite measurements
- PMID:16372005
- DOI: 10.1038/nature04348
Global estimate of aerosol direct radiative forcing from satellite measurements
Abstract
Atmospheric aerosols cause scattering and absorption of incoming solar radiation. Additional anthropogenic aerosols released into the atmosphere thus exert a direct radiative forcing on the climate system. The degree of present-day aerosol forcing is estimated from global models that incorporate a representation of the aerosol cycles. Although the models are compared and validated against observations, these estimates remain uncertain. Previous satellite measurements of the direct effect of aerosols contained limited information about aerosol type, and were confined to oceans only. Here we use state-of-the-art satellite-based measurements of aerosols and surface wind speed to estimate the clear-sky direct radiative forcing for 2002, incorporating measurements over land and ocean. We use a Monte Carlo approach to account for uncertainties in aerosol measurements and in the algorithm used. Probability density functions obtained for the direct radiative forcing at the top of the atmosphere give a clear-sky, global, annual average of -1.9 W m(-2) with standard deviation, +/- 0.3 W m(-2). These results suggest that present-day direct radiative forcing is stronger than present model estimates, implying future atmospheric warming greater than is presently predicted, as aerosol emissions continue to decline.
Comment in
- Atmospheric physics: reflections on aerosol cooling.Coakley J.Coakley J.Nature. 2005 Dec 22;438(7071):1091-2. doi: 10.1038/4381091a.Nature. 2005.PMID:16371992No abstract available.
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