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Impacts of wind profile shear and curvature on the parameterized orographic gravity wave stress in the Weather Research and Forecasting model
Title
Impacts of wind profile shear and curvature on the parameterized orographic gravity wave stress in the Weather Research and Forecasting model
Type
Article in International Scientific Journal
Year
2020
Authors
Xu, X
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Teixeira, MAC
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Xue, M
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Lu, Y
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Tang, J
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Title:
QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETYImported from Authenticus
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Vol. 146
Pages: 3086-3100
ISSN:
0035-9009
Other information
Authenticus ID:
P-010-GAY
DOI:
10.1002/qj.3828
Abstract (EN):
<jats:title>Abstract</jats:title><jats:p>The parameterization of orographic gravity wave drag (OGWD) in the Weather Research and Forecasting model is extended by including the second¿order Wentzel¿Kramers¿Brillouin (WKB) corrections to the surface wave momentum flux (SWMF) caused by wind profile shear (WSHR) and curvature (WCUR) effects. Simulations of the atmospheric circulation are performed to study the behaviour and impact of the WKB corrections. In January, the SWMF is weakened in the Northern Hemisphere (NH) midlatitudes by the WSHR term, while the WCUR acts to enhance the SWMF over Antarctica. In July, the WSHR corrections are similar to those in January, whereas the WCUR term produces corrections of opposite sign in the high latitudes of each hemisphere. The latter is attributed to the increase of near¿surface winds in the cold season which reverses the low¿level wind profile curvature. The seasonal reversal of the WCUR term contradicts previous findings obtained from offline evaluation using reanalysis datasets. This may be due to the different OGWD parameterization schemes used, or it may suggest a sensitivity to the height at which the wind profile effects are evaluated. Changes in the SWMF can affect the vertical distribution of parameterized OGWD. In January, the OGWD in the NH midlatitudes is decreased in the lower troposphere but increased in the upper troposphere. This is because a reduced SWMF inhibits wave breaking in the lower troposphere. Therefore, more wave momentum flux (WMF) is transported to the upper troposphere which enhances wave breaking there. The increased upper¿tropospheric wave breaking in turn decreases the WMF propagating into the stratosphere where the OGWD is reduced. In July, the reduction of SWMF over Antarctica is more notable than in the NH midlatitudes in January. Consequently, the OGWD is weakened in the upper troposphere over Antarctica.</jats:p>
Language:
English
Type (Professor's evaluation):
Scientific
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