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JOURNAL ARTICLE

Standard climate models radiation codes underestimate black carbon radiative forcing

Gunnar MyhreB. H. Samset

Year: 2015 Journal:   Atmospheric chemistry and physics Vol: 15 (5)Pages: 2883-2888   Publisher: Copernicus Publications
DOI: 10.5194/acp-15-2883-2015
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Abstract

Abstract. Radiative forcing (RF) of black carbon (BC) in the atmosphere is estimated using radiative transfer codes of various complexities. Here we show that the two-stream radiative transfer codes used most in climate models give too strong forward scattering, leading to enhanced absorption at the surface and too weak absorption by BC in the atmosphere. Such calculations are found to underestimate the positive RF of BC by 10% for global mean, all sky conditions, relative to the more sophisticated multi-stream models. The underestimation occurs primarily for low surface albedo, even though BC is more efficient for absorption of solar radiation over high surface albedo.

Keywords:
Radiative forcing Albedo (alchemy) Radiative transfer Atmosphere (unit) Atmospheric sciences Climate model Absorption (acoustics) Forcing (mathematics) Environmental science Earth's energy budget Atmospheric radiative transfer codes Radiation Computational physics Physics Climate change Meteorology Optics Geology

Metrics

35
Cited By
3.38
FWCI (Field Weighted Citation Impact)
30
Refs
0.93
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Atmospheric chemistry and aerosols
Physical Sciences →  Earth and Planetary Sciences →  Atmospheric Science
Atmospheric Ozone and Climate
Physical Sciences →  Earth and Planetary Sciences →  Atmospheric Science
Atmospheric aerosols and clouds
Physical Sciences →  Environmental Science →  Global and Planetary Change

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