Wildfires represent a major source for aerosols impacting atmospheric radiation, atmospheric chemistry and cloud micro-physical properties. Previous case studies indicated that the height of the aerosol–radiation interaction may crucially affect atmospheric radiation, but the sensitivity to emission heights has been examined with only a few models and is still uncertain. In this study we use the general circulation model ECHAM6 extended by the aerosol module HAM2 to investigate the impact of wildfire emission heights on atmospheric long-range transport, black carbon (BC) concentrations and atmospheric radiation. We simulate the wildfire aerosol release using either various versions of ...
Aerosols from open-land fires could significantly perturb the global radiation balance and induce c...
This thesis is actually the composition of two separate studies aimed at further understanding the r...
Fires and the aerosols that they emit impact air quality, health, and climate, but the abundance and...
Wildfires represent a major source for aerosols impacting atmospheric radiation, atmospheric chemist...
Wildfires represent a major source for aerosols impacting atmospheric radiation, atmospheric chemist...
Global warming is expected to considerably impact wildfire activity and aerosol emission release in ...
The vertical distribution of biomass burning aerosol (BBA) is important in regulating their impacts ...
We use the global circulation model ECHAM6 extended by the aerosol module HAM2 to simulate global pa...
Biomass burning is one of a relatively few natural processes that can inject globally significant qu...
Each year landscape fires across the globe emit black and organic carbon smoke particles that can la...
Landscape fires produce smoke containing a very wide variety of chemical species, both gases and aer...
We quantified the effects of the plume rise of biomass burning aerosol and gases for the forest fire...
Wildfires inject large amounts of black carbon (BC) particles into the atmosphere, which can reach t...
Biomass burning (BB) is one of the major contributors to emissions of carbonaceous atmospheric aeros...
Aerosols perturb the Earth's energy balance by absorbing and scattering solar radiation. Radiative e...
Aerosols from open-land fires could significantly perturb the global radiation balance and induce c...
This thesis is actually the composition of two separate studies aimed at further understanding the r...
Fires and the aerosols that they emit impact air quality, health, and climate, but the abundance and...
Wildfires represent a major source for aerosols impacting atmospheric radiation, atmospheric chemist...
Wildfires represent a major source for aerosols impacting atmospheric radiation, atmospheric chemist...
Global warming is expected to considerably impact wildfire activity and aerosol emission release in ...
The vertical distribution of biomass burning aerosol (BBA) is important in regulating their impacts ...
We use the global circulation model ECHAM6 extended by the aerosol module HAM2 to simulate global pa...
Biomass burning is one of a relatively few natural processes that can inject globally significant qu...
Each year landscape fires across the globe emit black and organic carbon smoke particles that can la...
Landscape fires produce smoke containing a very wide variety of chemical species, both gases and aer...
We quantified the effects of the plume rise of biomass burning aerosol and gases for the forest fire...
Wildfires inject large amounts of black carbon (BC) particles into the atmosphere, which can reach t...
Biomass burning (BB) is one of the major contributors to emissions of carbonaceous atmospheric aeros...
Aerosols perturb the Earth's energy balance by absorbing and scattering solar radiation. Radiative e...
Aerosols from open-land fires could significantly perturb the global radiation balance and induce c...
This thesis is actually the composition of two separate studies aimed at further understanding the r...
Fires and the aerosols that they emit impact air quality, health, and climate, but the abundance and...