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Assessment of black carbon radiative effects in climate models

Abstract:
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might intensify the greenhouse gas warming. Therefore, ideas to combat climate warming by reducing black carbon emissions emerged. However, black carbon emissions are generally accompanied by co-emission of other aerosols that predominantly scatter and have a cooling effect, so that the net forcing is substantially smaller, reducing mitigation potentials. Moreover, indirect effects on clouds are likely to exert additional cooling. As in situ measurements do not sufficiently sample the global atmosphere and satellite data does not provide the necessary detail on aerosol absorption, our only tools to estimate the effect of mitigation are numerical climate models. A review of current model estimates of black carbon radiative effects gives an average estimate of the direct radiative forcing as +0.33 W/m2, indirect effects of -0.11 W/m2 and through BC deposition on snow/ice surfaces of about +0.05 W/m2. A key limitation of these estimates is that the numerical models required for their global quantification are insufficiently constrained by observations. In addition, the comparison of instantaneous forcings generally overestimates the relative importance of black carbon and policy makers should consider alternative metrics, incorporating time-horizons. © 2012 John Wiley and Sons, Inc..
Publication status:
Published

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Publisher copy:
10.1002/wcc.180

Authors

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Institution:
University of Oxford
Division:
MPLS
Department:
Physics
Sub department:
Atmos Ocean & Planet Physics
Role:
Author


Journal:
WILEY INTERDISCIPLINARY REVIEWS-CLIMATE CHANGE More from this journal
Volume:
3
Issue:
4
Pages:
359-370
Publication date:
2012-01-01
DOI:
EISSN:
1757-7799
ISSN:
1757-7780


Language:
English
Pubs id:
pubs:345881
UUID:
uuid:f34c2d7c-f103-45bf-94d9-f17f0049ba4e
Local pid:
pubs:345881
Source identifiers:
345881
Deposit date:
2013-03-20
ARK identifier:

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