| Responses of Vertical Structures in Convective and Stratiform Regions to Large-Scale Forcing during the Landfall of Severe Tropical Storm Bilis (2006) |
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| 作者姓名: | WANG Donghai Xiaofan LI Wei-Kuo TAO |
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| 作者单位: | State;Laboratory;Severe;Weather;Chinese;Academy;Meteorological;Sciences;Science;System;Applications;Inc.; |
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| 基金项目: | supported by the State Key Basic Research Development Program (2004CB418300 and 2009CB421504);;the National Natural Science Foundation of China under Grant Nos.40633016 and 40830958 |
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| 摘 要: | The responses of vertical structures,in convective and stratiform regions,to the large-scale forcing during the landfall of tropical storm Bilis(2006) are investigated using the data from a two-dimensional cloud-resolving model simulation.An imposed large-scale forcing with upward motion in the mid and upper troposphere and downward motion in the lower troposphere on 15 July suppresses convective clouds,which leads to ~100% coverage of raining stratiform clouds over the entire model domain.The imposed forci...
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| 关 键 词: | 垂直结构 热带风暴 对流层 层状云 上升运动 水汽通量 大气干燥 模式模拟 |
| 收稿时间: | 19 April 2010 |
Responses of Vertical Structures in Convective and Stratiform Regions to Large-Scale Forcing during the Landfall of Severe Tropical Storm Bilis (2006) |
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| WANG Donghai,Xiaofan LI,Wei-Kuo TAO.Responses of Vertical Structures in Convective and Stratiform Regions to Large-Scale Forcing during the Landfall of Severe Tropical Storm Bilis (2006)[J].Advances in Atmospheric Sciences,2010,27(1):33-46. |
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| Authors: | WANG Donghai Xiaofan LI and Wei-Kuo TAO |
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| Affiliation: | State Key Laboratory of Severe Weather, Chinese Academy of Meteorological Sciences, Beijing 100081, Science System and Applications, Inc., Lanham, MD, USA,NOAA/NESDIS/Center for Satellite Applications and Research, Camp Springs, MD, USA,NASA/Goddard Space Flight Center, Greenbelt, MD, USA |
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| Abstract: | The responses of vertical structures, in convective and stratiform regions, to the large-scale forcing during the landfall
of tropical storm Bilis (2006) are investigated using the data from a two-dimensional cloud-resolving model simulation. An
imposed large-scale forcing with upward motion in the mid and upper troposphere and downward motion in the lower troposphere
on 15 July suppresses convective clouds, which leads to ~100% coverage of raining stratiform clouds over the entire model
domain. The imposed forcing extends upward motion to the lower troposphere during 16–17 July, which leads to an enhancement
of convective clouds and suppression of raining stratiform clouds. The switch of large-scale lower-tropospheric vertical velocity
from weak downward motion on 15 July to moderate upward motion during 16–17 July produces a much broader distribution of the
vertical velocity, water vapor and hydrometeor fluxes, perturbation specific humidity, and total hydrometeor mixing ratio
during 16–17 July than those on 15 July in the analysis of contoured frequency-altitude diagrams. Further analysis of the
water vapor budget reveals that local atmospheric moistening is mainly caused by the enhancement of evaporation of rain associated
with downward motion on 15 July, whereas local atmospheric drying is mainly determined by the advective drying associated
with downward motion over raining stratiform regions and by the net condensation associated with upward motion over convective
regions during 16–17 July. |
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| Keywords: | cloud-resolving simulation large-scale vertical velocity water vapor and hydrometeor mass fluxes heat budgets |
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