Aerosol invigoration of atmospheric convection through increases in humidity

Cloud-aerosol interactions remain a major obstacle to understanding climate and severe weather. Observations suggest that aerosols enhance tropical thunderstorm activity; past research, motivated by the importance of understanding aerosol impacts on clouds, has proposed several mechanisms that could...

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Bibliographic Details
Published in:arXiv.org 2020-10
Main Authors: Abbott, Tristan H, Cronin, Timothy W
Format: Article
Language:English
Subjects:
Aerosols
Atmospheric models
Clouds
Computer simulation
Convective clouds
Coupling
Entrainment
Humidity
Microphysics
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Summary:Cloud-aerosol interactions remain a major obstacle to understanding climate and severe weather. Observations suggest that aerosols enhance tropical thunderstorm activity; past research, motivated by the importance of understanding aerosol impacts on clouds, has proposed several mechanisms that could explain that observed link. Here, we show that high-resolution atmospheric simulations can reproduce the observed link between aerosols and convection. However, we also show that previously proposed mechanisms are unable to explain the invigoration. Examining underlying processes reveals that, in our simulations, high aerosol concentrations increase environmental humidity by producing clouds that mix more condensed water into the surrounding air. In turn, higher humidity favors large-scale ascent and stronger convection. Our results provide a physical reason to expect invigorated thunderstorms in high-aerosol regions of the tropics.
ISSN:2331-8422
DOI:10.48550/arxiv.2002.06056