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contributor authorDonner, Leo J.
contributor authorSeman, Charles J.
contributor authorHemler, Richard S.
date accessioned2017-06-09T14:35:30Z
date available2017-06-09T14:35:30Z
date copyright1999/06/01
date issued1999
identifier issn0022-4928
identifier otherams-22362.pdf
identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4158804
description abstractDeep convection and its associated mesoscale circulations are modeled using a three-dimensional elastic model with bulk microphysics and interactive radiation for a composite easterly wave from the Global Atmospheric Research Program Atlantic Tropical Experiment. The energy and moisture budgets, large-scale heat sources and moisture sinks, microphysics, and radiation are examined. The modeled cloud system undergoes a life cycle dominated by deep convection in its early stages, followed by an upper-tropospheric mesoscale circulation. The large-scale heat sources and moisture sinks associated with the convective system agree broadly with diagnoses from field observations. The modeled upper-tropospheric moisture exceeds observed values. Strong radiative cooling at the top of the mesoscale circulation can produce overturning there. Qualitative features of observed changes in large-scale convective available potential energy and convective inhibition are found in the model integrations, although quantitative magnitudes can differ, especially for convective inhibition. Radiation exerts a strong influence on the microphysical properties of the cloud system. The three-dimensional integrations exhibit considerably less sporadic temporal behavior than corresponding two-dimensional integrations. While the third dimension is less important over timescales longer than the duration of a phase of an easterly wave in the lower and middle troposphere, it enables stronger interactions between radiation and dynamics in the upper-tropospheric mesoscale circulation over a substantial fraction of the life cycle of the convective system.
publisherAmerican Meteorological Society
titleThree-Dimensional Cloud-System Modeling of GATE Convection
typeJournal Paper
journal volume56
journal issue12
journal titleJournal of the Atmospheric Sciences
identifier doi10.1175/1520-0469(1999)056<1885:TDCSMO>2.0.CO;2
journal fristpage1885
journal lastpage1912
treeJournal of the Atmospheric Sciences:;1999:;Volume( 056 ):;issue: 012
contenttypeFulltext


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