Add to ORKGThough many global aerosols models prognose surface deposition, only a few models have been used to directly simulate the radiative effect from black carbon (BC) deposition to snow and sea ice. Here, we apply aerosol deposition fields from 25 models contributing to two phases of the Aerosol Comparisons between Observations and Models (AeroCom) project to simulate and evaluate within-snow BC concentrations and radiative effect in the Arctic. We accomplish this by driving the offline land and sea ice components of the Community Earth System Model with different deposition fields and meteorological conditions from 2004 to 2009, during which an extensive field campaign of BC measurements in Arctic snow occurred. We find that models generally un...
International audienceWe used a coupled climate-chemistry model to quantify the impacts of aerosols ...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
The transport of black carbon (BC) to polar regions is studied using the University of Michigan IMPA...
Though many global aerosols models prognose surface deposition, only a few models have been used to ...
Over two dozen global atmospheric chemistry models contributing to the Aerosol Comparisons between O...
In this study, we evaluate the ability of the latest NASA GISS composition-climate model, GISS-E2- P...
Aerosol particles can contribute to the Arctic amplification (AA) by direct and indirect radiative e...
The magnitude of solar radiative effects (cooling or warming) of black carbon (BC) particles embedde...
As part of the Atmospheric Chemistry and Climate Model Intercomparison Project (ACCMIP), we evaluate...
Key Points: • First ever measurements with a high‐accuracy single‐particle soot photometer of bla...
The presence of light-absorbing aerosol particles deposited on arctic snow and sea ice influences th...
A state-of-the-art regional model, the Weather Research and Forecasting (WRF) model (Skamarock et al...
As part of the Atmospheric Chemistry and Climate Model Intercomparison Project (ACCMIP), we evaluate...
International audienceWe used a coupled climate-chemistry model to quantify the impacts of aerosols ...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
The transport of black carbon (BC) to polar regions is studied using the University of Michigan IMPA...
Though many global aerosols models prognose surface deposition, only a few models have been used to ...
Over two dozen global atmospheric chemistry models contributing to the Aerosol Comparisons between O...
In this study, we evaluate the ability of the latest NASA GISS composition-climate model, GISS-E2- P...
Aerosol particles can contribute to the Arctic amplification (AA) by direct and indirect radiative e...
The magnitude of solar radiative effects (cooling or warming) of black carbon (BC) particles embedde...
As part of the Atmospheric Chemistry and Climate Model Intercomparison Project (ACCMIP), we evaluate...
Key Points: • First ever measurements with a high‐accuracy single‐particle soot photometer of bla...
The presence of light-absorbing aerosol particles deposited on arctic snow and sea ice influences th...
A state-of-the-art regional model, the Weather Research and Forecasting (WRF) model (Skamarock et al...
As part of the Atmospheric Chemistry and Climate Model Intercomparison Project (ACCMIP), we evaluate...
International audienceWe used a coupled climate-chemistry model to quantify the impacts of aerosols ...
Aerosols, transported from distant source regions, influence the Arctic surface radiation budget. Wh...
The transport of black carbon (BC) to polar regions is studied using the University of Michigan IMPA...