YANGTZE_RIVER

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The 2022 Extreme Heatwave in Shanghai,Lower Reaches of the Yangtze River Valley:Combined Influences of Multiscale Variabilities被引量:2
《Advances in Atmospheric Sciences》2024年第4期593-607,共15页Ping LIANG Zhiqi ZHANG Yihui DING Zeng-Zhen HU Qi CHEN 
the Guangdong Major Project of Basic and Applied Basic Research(Grant No.2020B0301030004);the National Natural Science Foundation of China(Grant No.42175056);the Natural Science Foundation of Shanghai(Grant No.21ZR1457600);Review and Summary Project of China Meteorological Administration(Grant No.FPZJ2023-044);the China Meteorological Administration Innovation and Development Project(Grant No.CXFZ2022J009);the Key Innovation Team of Climate Prediction of the China Meteorological Administration(Grant No.CMA2023ZD03).
In the summer of 2022,China(especially the Yangtze River Valley,YRV)suffered its strongest heatwave(HW)event since 1961.In this study,we examined the influences of multiscale variabilities on the 2022 extreme HW in th...
关键词:extreme heatwave multiscale variability air-sea interaction warming trend Yangtze River Valley SHANGHAI 
A Precursory Signal of June-July Precipitation over the Yangtze River Basin: December-January Tropospheric Temperature over the Tibetan Plateau被引量:1
《Advances in Atmospheric Sciences》2023年第11期1986-1997,共12页Xiaying ZHU Mingzhu YANG Ge LIU Yanju LIU Weijing LI Sulan NAN Linhai SUN 
sponsored by the National Key Research and Development Program of China(Grant No.2018YFC1501706);the Second Tibetan Plateau Scientific Expedition and Research(STEP)program(Grant No.2019QZKK0105);National Natural Science Foundation of China(Grant No.41975088);the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDA20100300);the Basic Research Fund of CAMS(Grants No.2021Z007).
The prediction of summer precipitation over the Yangtze River basin(YRB)has long been challenging,especially during June-July(JJ),when the mei-yu generally occurs.This study explores the potential signal for the YRB p...
关键词:Tibetan Plateau thermal condition Yangtze River PRECIPITATION prediction 
Cause of Extreme Heavy and Persistent Rainfall over Yangtze River in Summer 2020被引量:11
《Advances in Atmospheric Sciences》2021年第12期1994-2009,共16页Xiao PAN Tim LI Ying SUN Zhiwei ZHU 
This work was jointly supported by China National Key R&D Program 2018YFA0605604,NSFC Grant No.42088101,NOAA NA18OAR4310298,and NSF AGS-2006553;This is SOEST contribution number 11354,IPRC contribution number 1524,and ESMC number 350.
Record-breaking heavy and persistent precipitation occurred over the Yangtze River Valley(YRV)in June-July(JJ)2020.An observational data analysis has indicated that the strong and persistent rainfall arose from the co...
关键词:Yangtze River floods anomalous anticyclone over the western North Pacific CP and EP El Niño Indian Ocean warming La Niña Rossby wave train 
Toward Understanding the Extreme Floods over Yangtze River Valley in June−July 2020:Role of Tropical Oceans被引量:10
《Advances in Atmospheric Sciences》2021年第12期2023-2039,I0009-I0012,共21页Shaolei TANG Jing-Jia LUO Jiaying HE Jiye WU Yu ZHOU Wushan YING 
This work is supported by National Natural Science Foundation of China(Grant No.42030605 and 42088101);National Key R&D Program of China(Grant No.2020YFA0608004).
The extreme floods in the Middle/Lower Yangtze River Valley(MLYRV)during June−July 2020 caused more than 170 billion Chinese Yuan direct economic losses.Here,we examine the key features related to this extreme event a...
关键词:summer extreme floods Middle/Lower Yangtze River El Niño Indian Ocean SST decadal warming trend 
The Seasonal Prediction of the Exceptional Yangtze River Rainfall in Summer 2020被引量:10
《Advances in Atmospheric Sciences》2021年第12期2055-2066,共12页Chaofan LI Riyu LU Nick DUNSTONE Adam ASCAIFE Philip EBETT Fei ZHENG 
This work was supported by the National Key Research and Development Program of China(Grant No.2018YFC1506005);the National Natural Science Foundation of China(Grant Nos.41721004 and 41775083);This work and its contributors were also supported by the UK-China Research and Innovation Partnership Fund through the Met Office Climate Science for Service Partnership(CSSP)China as part of the Newton Fund.
During June and July of 2020,the Yangtze River basin suffered from extreme mei-yu rainfall and catastrophic flooding.This study explores the seasonal predictability and associated dynamical causes for this extreme Yan...
关键词:seasonal forecast Yangtze River rainfall western North Pacific subtropical high westerly jet 
Subseasonal and Synoptic Variabilities of Precipitation over the Yangtze River Basin in the Summer of 2020被引量:6
《Advances in Atmospheric Sciences》2021年第12期2108-2124,共17页Liudan DING Tim LI Ying SUN 
This work was jointly supported by China National Key R&D Program 2018YFA0605604,NSFC grants(Grant No.42088101,41875069),NSF AGS-2006553;NOAA NA18OAR4310298.This is SOEST contribution number 11413,IPRC contribution number 1541,and ESMC number 357.
Summer precipitation over the Yangtze River basin(YRB)in 2020 experienced a strong subseasonal and synoptic fluctuation in addition to contributing to an exceptionally large seasonal mean precipitation.The cause of th...
关键词:Yangtze River precipitation synoptic and subseasonal variabilities meridional swings of a rainbelt large-scale modulation of high-frequency variability 
Moisture Origins and Transport Processes for the 2020 Yangtze River Valley Record-Breaking Mei-yu Rainfall被引量:9
《Advances in Atmospheric Sciences》2021年第12期2125-2136,共12页Lixia ZHANG Dan ZHAO Tianjun ZHOU Dongdong PENG Chan XIAO 
This paper was supported by the National Natural Science Foundation of China(Grant No.42075037);the Ministry of Science and Technology of China(Grant No.2018YFA0606501);the Program of International S&T Cooperation(Grant No.2018YFE0196000).
The summer of 2020 recorded a record-breaking flood due to excessive mei-yu rain falling over the Yangtze River Valley(YRV).Using the Lagrangian model FLEXPART,this paper investigates moisture sources and transport pr...
关键词:mei-yu flood FLEXPART moisture tracking extreme moisture transport 
Why Was the Strengthening of Rainfall in Summer over the Yangtze River Valley in 2016 Less Pronounced than that in 1998 under Similar Preceding El Nino Events?Role of Midlatitude Circulation in August被引量:13
《Advances in Atmospheric Sciences》2017年第11期1290-1300,共11页chaofan li wei chen xiaowei hong riyu lu 
supported by the National Natural Science Foundation of China (Grant Nos.41320104007,U1502233,41675078 and 41461164005)
It is widely recognized that rainfall over the Yangtze River valley (YRV) strengthens considerably during the decaying summer of E1 Nifio, as demonstrated by the catastrophic flooding suffered in the summer of 1998....
关键词:Yangtze River valley summer rainfall super El Nio sub-seasonal variation Silk Road Pattern 
On the Relationship between the Winter Eurasian Teleconnection Pattern and the Following Summer Precipitation over China被引量:2
《Advances in Atmospheric Sciences》2016年第6期743-752,共10页Junhu ZHAO Liu YANG Bohui GU Jie YANG Guolin FENG 
supported by the National Natural Science Foundation of China(Grant Nos.41505061,41530531 and 41405092);the National Basic Research Program of China(Grant Nos.2012CB955902 and 2013CB430204)
The Eurasian teleconnection pattern (EU) is an important low-frequency pattern with well-known impacts on climate anomalies in Eurasia. The difference of low-level v-winds in several regions in the Eurasian mid-high...
关键词:Eurasian teleconnection summer precipitation North China Yangtze River-Huaihe River basins 
Revisiting the Second EOF Mode of Interannual Variation in Summer Rainfall over East China被引量:3
《Advances in Atmospheric Sciences》2016年第1期121-134,共14页Zhongda LIN Qin SU Riyu LU 
supported by the National Natural Science Foundation of China (Grant Nos. 41375086 and 41320104007)
The second EOF(EOF2) mode of interannual variation in summer rainfall over East China is characterized by inverse rainfall changes between South China(SC) and the Yellow River-Huaihe River valleys(YH).However,un...
关键词:Yangtze River rainy belt East China summer rainfall seesaw pattern South China pattern western North Pacific subtropical high extratropical wave train 
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