Black carbon semi-direct effects on cloud cover: review and synthesis
Goddard Institute for Space Studies · Columbia University
Abstract
Abstract. Absorbing aerosols (AAs) such as black carbon (BC) or dust absorb incoming solar radiation, perturb the temperature structure of the atmosphere, and influence cloud cover. Previous studies have described conditions under which AAs either increase or decrease cloud cover. The effect depends on several factors, including the altitude of the AA relative to the cloud and the cloud type. We attempt to categorize the effects into several likely regimes. Cloud cover is decreased if the AAs are embedded in the cloud layer. AAs below cloud may enhance convection and cloud cover. AAs above cloud top stabilize the underlying layer and tend to enhance stratocumulus clouds but may reduce cumulus clouds. AAs can…
Citation impact
- FWCI
- 27.87
- Percentile
- 100%
- References
- 50
Authors
2Topics & keywords
- Cloud cover
- Cloud computing
- Environmental science
- Atmospheric sciences
- Liquid water content
- Cloud height
- Cloud top
- Cloud fraction
- Life below water