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Further evidences of deep convective vertical transport of water vapor through the tropopause
Authors:Pao K Wang  Martin Setvk  Walter Lyons  Willi Schmid  Hsin-Mu Lin
Institution:aUniversity of Wisconsin-Madison, 1225 W. Dayton Street, Madison, WI 53706, USA;bCHMI, Satellite Dept., Na Šabatce 17, CZ-14306, Praha 4, Czech Republic;cFMA Research, 46050 WCR 13, Fort Collins, CO 80524, USA;dMeteoradar gmbh, Räbacher 4, CH-8143 Stallikon, Switzerland;eAtmospheric Sciences Modeling Division, U. S. Environmental Protection Agency, 109 T W Alexander Drive, Research Triangle Park, NC 27711, USA
Abstract:A few years ago, we identified a deep convective transport mechanism, of water vapor through the tropopause, namely, storm top gravity wave breaking, such that tropospheric water substance can be injected into the lower stratosphere via this pathway. The main evidence presented previously was taken from the lower resolution AVHRR images of the storm anvil top cirrus plumes obtained by polar orbiting satellites. Recent observations have provided further supporting evidence for this important cross-tropopause transport mechanism. There are now many higher resolution satellite images, mainly from MODIS instrument, that show more definitely the existence of these plumes, many of which would probably be unseen by lower resolution images.Furthermore, a thunderstorm movie taken in Denver (USA) area during STEPS2000 field campaign and another thunderstorm movie taken by a building top webcam in Zurich also demonstrate that the jumping cirrus phenomenon, first identified by T. Fujita in 1980s, may be quite common in active thunderstorm cells, quite contrary to previous belief that it is rare. We have used a cloud model to demonstrate that the jumping cirrus is exactly the gravity wave breaking phenomenon that transports water vapor through the tropopause.These additional evidences provide increasing support that deep convection contributes substantially to the troposphere-to-stratosphere transport of water substance. This corroborates well with recent studies of the stratospheric HDO/H2O ratio which is much highly than it would be if the transport is via slow ascent. The only explanation that can be used to interpret this observation at present is that water substance is transported through the tropopause via rapid vertical motion, i.e., deep convection.
Keywords:Stratospheric water vapor  Deep convective storms  Convective transport  Storm top plumes  Jumping cirrus
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