Atmospheric black carbon (BC) absorbs solar radiation, and exacerbates global warming through exerting positive radiative forcing (RF). However, the contribution of BC to ongoing changes in global climate is under debate. Anthropogenic BC emissions, and the resulting distribution of BC concentration, are highly uncertain. In particular, long-range transport and processes affecting BC atmospheric lifetime are poorly understood. Here we discuss whether recent assessments may have overestimated present-day BC radiative forcing in remote regions. We compare vertical profiles of BC concentration from four recent aircraft measurement campaigns to simulations by 13 aerosol models participating in the AeroCom Phase II intercomparison. An atmospheri...
International audienceBlack carbon (BC) contributes to global warming by absorbing sunlight. However...
International audiencePeng et al. (1) conclude that a fast increase in the mass absorption cross-sec...
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might inte...
International audienceAtmospheric black carbon (BC) absorbs solar radiation , and exacerbates global...
Atmospheric black carbon (BC) absorbs solar radiation, and exacerbates global warming through exert...
Black Carbon (BC) aerosols substantially affect the global climate. However, accurate simulation of ...
International audienceThe impact of black carbon (BC) aerosols on the global radiation balance is no...
Our understanding of the global black carbon (BC) cycle is essentially qualitative due to uncertaint...
Black carbon (BC) contributes to global warming by absorbing sunlight. However, the size of this con...
Accurate representation of black carbon (BC) concentrations in climate models is a key prerequisite ...
Our understanding of the global black carbon (BC) cycle is essentially qualitative due to uncertaint...
The black carbon ( BC) burden of the upper troposphere and lowermost stratosphere (UTLS) is investig...
International audienceBlack carbon (BC) contributes to global warming by absorbing sunlight. However...
International audiencePeng et al. (1) conclude that a fast increase in the mass absorption cross-sec...
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might inte...
International audienceAtmospheric black carbon (BC) absorbs solar radiation , and exacerbates global...
Atmospheric black carbon (BC) absorbs solar radiation, and exacerbates global warming through exert...
Black Carbon (BC) aerosols substantially affect the global climate. However, accurate simulation of ...
International audienceThe impact of black carbon (BC) aerosols on the global radiation balance is no...
Our understanding of the global black carbon (BC) cycle is essentially qualitative due to uncertaint...
Black carbon (BC) contributes to global warming by absorbing sunlight. However, the size of this con...
Accurate representation of black carbon (BC) concentrations in climate models is a key prerequisite ...
Our understanding of the global black carbon (BC) cycle is essentially qualitative due to uncertaint...
The black carbon ( BC) burden of the upper troposphere and lowermost stratosphere (UTLS) is investig...
International audienceBlack carbon (BC) contributes to global warming by absorbing sunlight. However...
International audiencePeng et al. (1) conclude that a fast increase in the mass absorption cross-sec...
Black carbon (BC) from the burning of fossil fuel and biomass absorbs solar radiation and might inte...