Improved Attribution of Climate Forcing to Emissions

Improved Attribution of Climate Forcing to Emissions

Evaluating multicomponent climate change mitigation strategies requires knowledge of the diverse direct and indirect effects of emissions. Methane, ozone, and aerosols are linked through atmospheric chemistry so that emissions of a single pollutant can affect several species. We calculated atmospher...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2009-10, Vol.326 (5953), p.716-718
Hauptverfasser: Shindell, Drew T, Faluvegi, Greg, Koch, Dorothy M, Schmidt, Gavin A, Unger, Nadine, Bauer, Susanne E
Format: Artikel
Sprache:eng
Schlagworte:
Aerosols
Air pollution
Applied sciences
Atmospheric chemistry
Atmospheric pollution
Atmospheric sciences
Carbon dioxide emissions
Climate change
Climate models
Climatology. Bioclimatology. Climate change
Earth, ocean, space
Emissions
Exact sciences and technology
External geophysics
Global warming potential
Meteorology
Methane
Ozone
Particulate emissions
Pollutant emissions
Pollution
Prevention and purification methods
Sulfates
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Zusammenfassung:Evaluating multicomponent climate change mitigation strategies requires knowledge of the diverse direct and indirect effects of emissions. Methane, ozone, and aerosols are linked through atmospheric chemistry so that emissions of a single pollutant can affect several species. We calculated atmospheric composition changes, historical radiative forcing, and forcing per unit of emission due to aerosol and tropospheric ozone precursor emissions in a coupled composition-climate model. We found that gas-aerosol interactions substantially alter the relative importance of the various emissions. In particular, methane emissions have a larger impact than that used in current carbon-trading schemes or in the Kyoto Protocol. Thus, assessments of multigas mitigation policies, as well as any separate efforts to mitigate warming from short-lived pollutants, should include gas-aerosol interactions.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1174760