Add to ORKGBlack carbon (BC) emissions play an important role in regional climate change in the Arctic. It is necessary to pay attention to the impact of long-range transport from regions outside the Arctic as BC emissions from local sources in the Arctic were relatively small. The task force Hemispheric Transport of Air Pollution Phase 2 (HTAP2) set up a series of simulation scenarios to investigate the response of BC in a given region to different source regions. This study investigated the responses of Arctic BC concentrations and surface temperature to 20 % anthropogenic emission reductions from six regions in 2010 within the framework of HTAP2 based on ensemble modeling results. Emission reductions from East Asia (EAS) had the most (monthly contr...
International audienceBlack carbon aerosol (BC) deposited to the Arctic sea ice or present in the fr...
Measurements of equivalent black carbon (EBC), calculated from aethalometer measurements of light at...
We examine the response of Arctic gas and aerosol concentrations to perturbations in pollutant emiss...
We use the ECHAM-HAMMOZ aerosol-climate model to assess the effects of black carbon (BC) mitigation ...
The impacts of black carbon (BC) and particulate matter with aerodynamic diameters less than 2.5&thi...
There are currently large uncertainties in global climate model predictions of black carbon (BC) in ...
The Arctic is warming at twice the global rate over recent decades. To slow down this warming trend,...
The Arctic environment is undergoing rapid changes such as faster warming than the global average an...
Aerosol particles can contribute to the Arctic amplification (AA) by direct and indirect radiative e...
We investigate the sensitivity of black carbon (BC) in the Arctic, including BC concentration in sno...
Market strategies have greatly incentivized the use of diesel engines for land transportation. These...
We examine the response of Arctic gas and aerosol concentrations to perturbations in pollutant emiss...
Winter warming and sea-ice retreat observed in the Arctic in the last decades may be related to chan...
International audienceBlack carbon aerosol (BC) deposited to the Arctic sea ice or present in the fr...
Measurements of equivalent black carbon (EBC), calculated from aethalometer measurements of light at...
We examine the response of Arctic gas and aerosol concentrations to perturbations in pollutant emiss...
We use the ECHAM-HAMMOZ aerosol-climate model to assess the effects of black carbon (BC) mitigation ...
The impacts of black carbon (BC) and particulate matter with aerodynamic diameters less than 2.5&thi...
There are currently large uncertainties in global climate model predictions of black carbon (BC) in ...
The Arctic is warming at twice the global rate over recent decades. To slow down this warming trend,...
The Arctic environment is undergoing rapid changes such as faster warming than the global average an...
Aerosol particles can contribute to the Arctic amplification (AA) by direct and indirect radiative e...
We investigate the sensitivity of black carbon (BC) in the Arctic, including BC concentration in sno...
Market strategies have greatly incentivized the use of diesel engines for land transportation. These...
We examine the response of Arctic gas and aerosol concentrations to perturbations in pollutant emiss...
Winter warming and sea-ice retreat observed in the Arctic in the last decades may be related to chan...
International audienceBlack carbon aerosol (BC) deposited to the Arctic sea ice or present in the fr...
Measurements of equivalent black carbon (EBC), calculated from aethalometer measurements of light at...
We examine the response of Arctic gas and aerosol concentrations to perturbations in pollutant emiss...