Editorial Type:
Article
Article Type:
Research Article

Tracer Study of Vertical Exchange by Cumulus Clouds

J. K. S. Ching Atmospheric Science Research Laboratory, U.S. Environmental Protection Agency, Research Triangle Park, NC 27711

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A. J. Alkezweeny Pacific Northwest Laboratory, Richland, WA 99352

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Print Publication:
01 Nov 1986
DOI:
https://doi.org/10.1175/1520-0450(1986)025<1702:TSOVEB>2.0.CO;2
Page(s):
1702–1711
Restricted access

Abstract

This paper examines the exchange of material by convective cloud processes between the mixed layer and the overlying free troposphere. It describes results of a field experiment that was conducted in Lexington, Kentucky, during the period from 20 July to 24 August 1983 to study the processes associated with the vertical transport of acidic pollutants by nonprecipitating cumulus convection. An aircraft released SF6 tracer either within or above the mixed layer, and it was sampled by another aircraft at various levels within or above the mixed layer in the active cumulus convective cloud zone, as well as on the ground. The results show that mixed layer pollutants are vented above the entrainment zone of its boundary layer into the overlying cloud layer by fields of active cumulus and that such active clouds may force cloud layer air downward into the mixed layer.

Abstract

This paper examines the exchange of material by convective cloud processes between the mixed layer and the overlying free troposphere. It describes results of a field experiment that was conducted in Lexington, Kentucky, during the period from 20 July to 24 August 1983 to study the processes associated with the vertical transport of acidic pollutants by nonprecipitating cumulus convection. An aircraft released SF6 tracer either within or above the mixed layer, and it was sampled by another aircraft at various levels within or above the mixed layer in the active cumulus convective cloud zone, as well as on the ground. The results show that mixed layer pollutants are vented above the entrainment zone of its boundary layer into the overlying cloud layer by fields of active cumulus and that such active clouds may force cloud layer air downward into the mixed layer.

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Cover Journal of Applied Meteorology and Climatology
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