2006
DOI: 10.5194/acp-6-5225-2006
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Radiative forcing by aerosols as derived from the AeroCom present-day and pre-industrial simulations

Abstract: Abstract. Nine different global models with detailed aerosol modules have independently produced instantaneous direct radiative forcing due to anthropogenic aerosols. The anthropogenic impact is derived from the difference of two model simulations with prescribed aerosol emissions, one for present-day and one for pre-industrial conditions. The difference in the solar energy budget at the top of the atmosphere (ToA) yields a new harmonized estimate for the aerosol direct radiative forcing (RF) under all-sky con… Show more

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Cited by 650 publications
(557 citation statements)
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“…The DRF efficiencies come from a single modeling framework, and thus do not reflect uncertainty in the underlying model and emissions, 58−61 the former aspect alone can have a large impact on aerosol DRF even under unified emissions. 62 Application of yearly average RCP emissions does not account for key seasonalities, such as the biomass burning season in boreal areas being out-of-phase with seasons of peak albedo. Ignoring the potential for organic aerosol to form semiabsorptive (i.e., brown) particles, in addition to secondary formation of organic aerosol, is a further simplification.…”
Section: Discussionmentioning
confidence: 99%
“…The DRF efficiencies come from a single modeling framework, and thus do not reflect uncertainty in the underlying model and emissions, 58−61 the former aspect alone can have a large impact on aerosol DRF even under unified emissions. 62 Application of yearly average RCP emissions does not account for key seasonalities, such as the biomass burning season in boreal areas being out-of-phase with seasons of peak albedo. Ignoring the potential for organic aerosol to form semiabsorptive (i.e., brown) particles, in addition to secondary formation of organic aerosol, is a further simplification.…”
Section: Discussionmentioning
confidence: 99%
“…In the meantime, multi-model experiments were performed with global climate-chemistry models (CCMs) and chemistry transport models (CTMs) to better assess the past and future evolution of the atmospheric composition under anthropogenic emission evolution as well as climate change: PHOTOCOMP for tropospheric chemistry Stevenson et al 2006;Dentener et al 2006a), CCMVal for stratospheric ozone (Eyring et al 2005(Eyring et al , 2006(Eyring et al , 2007SPARC 2010) and AeroCom for aerosols Schulz et al 2006). Such climate-chemistry models solely consider atmospheric circulation and include a more or less detailed representation of atmospheric chemistry.…”
Section: Introductionmentioning
confidence: 99%
“…We use the term pristine to refer to such regions, meaning aerosol in an original (i.e., preindustrial) state, although the term can often be used misleadingly to imply extremely low aerosol concentrations. Anthropogenic emissions in 1750 were not zero (22), and our reference year is therefore not truly "prehuman" (12), but is appropriate for defining the properties and behavior of aerosols in a reference state that is used for radiative forcing calculations (23). We focus our analysis on cloud condensation nuclei (CCN) because of the high sensitivity of cloud radiative forcing to the aerosol load (24).…”
mentioning
confidence: 99%