The aerosol indirect effect remains one of the largest uncertainties in the projection of the future climate change. In this dissertation we improve both aerosol and cloud treatments in a coupled aerosol and atmospheric circulation model to advance our understanding of aerosol indirect effects. An empirical aerosol nucleation parameterization is implemented into the coupled model to better represent observed nucleation events in the boundary layer and is shown to improve the comparison of simulated aerosol size distributions with observations. Simulated cloud condensation nuclei (CCN) concentrations in the boundary layer range from 70 to 169 /cm3 from different nucleation mechanisms. Primary-emitted sulfate has the largest effect on simula...
Aerosols affect the climate system by changing cloud characteristics. Using the global climate model...
Assessments of the influence of aerosol emissions from human activities on the radiation budget, in ...
Aerosols affect the climate system by changing cloud characteristics in many ways. They act as cloud...
The aerosol indirect effect remains one of the largest uncertainties in the projection of the future...
Abstract. The number concentration of cloud condensation nuclei (CCN) formed as a result of anthropo...
The aerosol indirect effect remains one of the most important uncertainties in the projection of fut...
Much of the large uncertainty in estimates of anthropogenic aerosol effects on climate arises from t...
Various improvements were made to a state-of-the-art aerosol–cloud model and comparison of the model...
With a global aerosol transport‐radiation model coupled to a general circulation model, changes in t...
Anthropogenic aerosol perturbations to clouds and climate (the indirect effect, or AIE) contribute s...
The double-moment cloud microphysics scheme from ECHAM4 that predicts both the mass mixing ratios an...
Strategies to detect and attribute aerosol global impacts on clouds and climate from synergetic appr...
Aerosol–cloud interactions continue to constitute a major source of uncertainty for the estimate of ...
For a better understanding and projection of future climate changes, it is important to quantify and...
The indirect effects of anthropogenic aerosols—through their interactions with clouds—are currently ...
Aerosols affect the climate system by changing cloud characteristics. Using the global climate model...
Assessments of the influence of aerosol emissions from human activities on the radiation budget, in ...
Aerosols affect the climate system by changing cloud characteristics in many ways. They act as cloud...
The aerosol indirect effect remains one of the largest uncertainties in the projection of the future...
Abstract. The number concentration of cloud condensation nuclei (CCN) formed as a result of anthropo...
The aerosol indirect effect remains one of the most important uncertainties in the projection of fut...
Much of the large uncertainty in estimates of anthropogenic aerosol effects on climate arises from t...
Various improvements were made to a state-of-the-art aerosol–cloud model and comparison of the model...
With a global aerosol transport‐radiation model coupled to a general circulation model, changes in t...
Anthropogenic aerosol perturbations to clouds and climate (the indirect effect, or AIE) contribute s...
The double-moment cloud microphysics scheme from ECHAM4 that predicts both the mass mixing ratios an...
Strategies to detect and attribute aerosol global impacts on clouds and climate from synergetic appr...
Aerosol–cloud interactions continue to constitute a major source of uncertainty for the estimate of ...
For a better understanding and projection of future climate changes, it is important to quantify and...
The indirect effects of anthropogenic aerosols—through their interactions with clouds—are currently ...
Aerosols affect the climate system by changing cloud characteristics. Using the global climate model...
Assessments of the influence of aerosol emissions from human activities on the radiation budget, in ...
Aerosols affect the climate system by changing cloud characteristics in many ways. They act as cloud...