气候变化领域集成服务门户(CCPortal): Simulation of convective moistening of the extratropical lower stratosphere using a numerical weather prediction model

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DOI	10.5194/acp-20-2143-2020
	Simulation of convective moistening of the extratropical lower stratosphere using a numerical weather prediction model
	Qu Z.; Huang Y.; Vaillancourt P.A.; Cole J.N.S.; Milbrandt J.A.; Yau M.-K.; Walker K.; De Grandpré J.
发表日期	2020
ISSN	16807316
起始页码	2143
结束页码	2159
卷号	20 期号:4
英文摘要	Stratospheric water vapour (SWV) is a climatically important atmospheric constituent due to its impacts on the radiation budget and atmospheric chemical composition. Despite the important role of SWV in the climate system, the processes controlling the distribution and variation in water vapour in the upper troposphere and lower stratosphere (UTLS) are not well understood. In order to better understand the mechanism of transport of water vapour through the tropopause, this study uses the high-resolution Global Environmental Multiscale model of the Environment and Climate Change Canada to simulate a lower stratosphere moistening event over North America. Satellite remote sensing and aircraft in situ observations are used to evaluate the quality of model simulation. The main focus of this study is to evaluate the processes that influence the lower stratosphere water vapour budget, particularly the direct water vapour transport and the moistening due to the ice sublimation. In the high-resolution simulations with horizontal grid spacing of less than 2.5 km, it is found that the main contribution to lower stratospheric moistening is the upward transport caused by the breaking of gravity waves. In contrast, for the lower-resolution simulation with horizontal grid spacing of 10 km, the lower stratospheric moistening is dominated by the sublimation of ice. In comparison with the aircraft in situ observations, the high-resolution simulations predict the water vapour content in the UTLS well, while the lowerresolution simulation overestimates the water vapour content. This overestimation is associated with the overly abundant ice in the UTLS along with a sublimation rate that is too high in the lower stratosphere. The results of this study affirm the strong influence of overshooting convection on the lower stratospheric water vapour and highlight the importance of both dynamics and microphysics in simulating the water vapour distribution in the UTLS region. © 2020 Copernicus GmbH. All rights reserved.
关键词	atmospheric chemistry climate change climate modeling computer simulation convective system extratropical environment numerical model stratosphere water vapor weather forecasting Canada
语种	英语
来源机构	Atmospheric Chemistry and Physics
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/132211
推荐引用方式 GB/T 7714	Qu Z.,Huang Y.,Vaillancourt P.A.,et al. Simulation of convective moistening of the extratropical lower stratosphere using a numerical weather prediction model[J]. Atmospheric Chemistry and Physics,2020,20(4).
APA	Qu Z..,Huang Y..,Vaillancourt P.A..,Cole J.N.S..,Milbrandt J.A..,...&De Grandpré J..(2020).Simulation of convective moistening of the extratropical lower stratosphere using a numerical weather prediction model.,20(4).
MLA	Qu Z.,et al."Simulation of convective moistening of the extratropical lower stratosphere using a numerical weather prediction model".20.4(2020).