文献类型：期刊文献

中文题名：Gravity Wave Activity and Stratosphere-Troposphere Exchange During Typhoon Molave(2020)

英文题名：Gravity Wave Activity and Stratosphere-Troposphere Exchange During Typhoon Molave (2020)

作者：Huang, Dong[1];Wan, Ling-feng[2];Wan, Yi-shun[1];Chang, Shu-jie[1,3];Ma, Xin[4];Zhao, Kai-jing[1]

机构：[1]Guangdong Ocean Univ, Coll Ocean & Meteorol, South China Sea Inst Marine Meteorol, Key Lab Climate Resources & Environm Continental S, Zhanjiang 524088, Guangdong, Peoples R China;[2]Ocean Univ China, Inst Adv Ocean Study IAOS, Frontier Sci Ctr Deep Ocean Multispheres & Earth S, Qingdao 266100, Shandong, Peoples R China;[3]Univ Leeds, Sch Earth & Environm, Leeds LS2 9JT, England;[4]Chinese Acad Sci, Shanghai Astron Observ, Shanghai 200030, Peoples R China

年份：2024

卷号：30

期号：3

起止页码：306

中文期刊名：Journal of Tropical Meteorology

外文期刊名：JOURNAL OF TROPICAL METEOROLOGY

收录：SCI-EXPANDED(收录号：WOS:001314305500007)、、WOS

基金：Guangdong Basic and Applied Basic Research Foundation (2023A1515011323) ; National Natural Science Foundation of China (42130604, 42130605, 72293604) ; Guangdong Provincial Observation and Research Station for Tropical Ocean Environment in Western Coastal Waters (GSTOEW) ; First-Class Discipline Plan of Guangdong Province (080503032101, 231420003) ; Fundamental Research Funds for the Central Universities (202362001, 202072010) ; China Scholarship Council (202208440223) ; Natural Science Foundation of Shanghai (23ZR1473800)

语种：英文

中文关键词：gravity wave;typhoon;stratosphere-troposphere exchange;STE;upper troposphere and lower stratosphere;UTLS

外文关键词：generated; gravity wave; typhoon; stratosphere-troposphere exchange; STE; upper troposphere and lower stratosphere; UTLS

中文摘要：To investigate the stratosphere-troposphere exchange(STE)process induced by the gravity waves(GWs)caused by Typhoon Molave(2020)in the upper troposphere and lower stratosphere,we analyzed the ERA5 reanalysis data provided by the European Centre for Medium-Range Weather Forecasts and the CMA Tropical Cyclone Best Track Dataset.We also adopted the mesoscale forecast model Weather Research and Forecasting model V4.3 for numerical simulation.Most of the previous studies were about typhoon-induced STE and typhoon-induced GWs,while our research focused on the STE caused by typhoon-induced gravity waves.Our analysis shows that most of the time,the gravity wave signal of Typhoon Molave appeared below the tropopause.It was stronger on the east side of the typhoon center(10°-20°N,110°-120°E)than on the west side,suggesting an eastward tilted structure with height increase.When the GWs in the upper troposphere and lower stratosphere region on the west side of the typhoon center broke up,it produced strong turbulence,resulting in stratosphere-troposphere exchange.At this time,the average potential vorticity vertical flux increased with the average ozone mass mixing ratio.The gravity wave events and STE process simulated by the WRF model were basically consistent with the results of ERA5 reanalysis data,but the time of gravity wave breaking was different.This study indicates that after the breaking of the GWs induced by typhoons,turbulent mixing will also be generated,and thus the STE.

外文摘要：To investigate the stratosphere-troposphere exchange (STE) process induced by the gravity waves (GWs) caused by Typhoon Molave (2020) in the upper troposphere and lower stratosphere, we analyzed the ERA5 reanalysis data provided by the European Centre for Medium-Range Weather Forecasts and the CMA Tropical Cyclone Best Track Dataset. We also adopted the mesoscale forecast model Weather Research and Forecasting model V4.3 for numerical simulation. Most of the previous studies were about typhoon-induced STE and typhoon-induced GWs, while our research focused on the STE caused by typhoon-induced gravity waves. Our analysis shows that most of the time, the gravity wave signal of Typhoon Molave appeared below the tropopause. It was stronger on the east side of the typhoon center (10 degrees- 20 degrees N, 110 degrees-120 degrees E) than on the west side, suggesting an eastward tilted structure with height increase. When the GWs in the upper troposphere and lower stratosphere region on the west side of the typhoon center broke up, it produced strong turbulence, resulting in stratosphere-troposphere exchange. At this time, the average potential vorticity vertical flux increased with the average ozone mass mixing ratio. The gravity wave events and STE process simulated by the WRF model were basically consistent with the results of ERA5 reanalysis data, but the time of gravity wave breaking was different. This study indicates that after the breaking of the GWs induced by typhoons, turbulent mixing will also be generated, and thus the STE.