ECHAM5-Simulated Impacts of Two Types of El Nio on the Winter Precipitation Anomalies in South China 被引量：8

ECHAM5-Simulated Impacts of Two Types of El Nio on the Winter Precipitation Anomalies in South China

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摘要 The authors used an atmospheric general circulation model （AGCM） of European Centre Hamburg Model （ECHAM5.4） and investigated the possible impacts of eastern Pacific （EP） and central Pacific （CP） El Ni（n）o on the winter precipitation anomalies in South China.A composite analysis suggested much more rainfall during the mature phase of EP El Ni（n）o than in the case of CP El Ni（n）o,and their corresponding observed wet centers to be located in the southeast coast and the region to the south of the Yangtze River,respectively.Results obtained on the basis of model-sensitive run imply that the modelsimulated rainfall anomalies agree well with the observation,and the magnitude of simulated rainfall anomalies were found to be reduced when the amplitude of sea surface temperature anomaly （SSTA） forcing of EP and CP El Ni（n）o was cut down.These results imply that the rainfall anomaly in South China is very sensitive not only to the type of El Ni（n）o but also to its intensity. The authors used an atmospheric general circulation model(AGCM) of European Centre Hamburg Model(ECHAM5.4) and investigated the possible impacts of eastern Pacific(EP) and central Pacific(CP) El Nio on the winter precipitation anomalies in South China.A composite analysis suggested much more rainfall during the mature phase of EP El Nio than in the case of CP El Nio,and their corresponding observed wet centers to be located in the southeast coast and the region to the south of the Yangtze River,respectively.Results obtained on the basis of model-sensitive run imply that the modelsimulated rainfall anomalies agree well with the observation,and the magnitude of simulated rainfall anomalies were found to be reduced when the amplitude of sea surface temperature anomaly(SSTA) forcing of EP and CP El Nio was cut down.These results imply that the rainfall anomaly in South China is very sensitive not only to the type of El Nio but also to its intensity.

作者 SU Jing-Zhi ZHANG Ren-He ZHU Cong-Wen

机构地区 Chinese Academy of Meteorological Sciences

出处《Atmospheric and Oceanic Science Letters》 CSCD 2013年第5期360-364,共5页 大气和海洋科学快报（英文版）

基金 supported by the National Basic Research Program of China(2009CB421404) the National Natural Science Foundation of China(41175071,41221064) the Basic Research Fund of the Chinese Academy of Meteorological Sciences(2012Z001,2013Z002,2010Z001,and 2010Z003)

关键词 eastern/central Pacific El Ni（n）o precipitation ECHAM5 South China 厄尔尼诺降水异常中国南方模拟冬季大气环流模式海表温度距平欧洲中心

分类号 P426.615 [天文地球—大气科学及气象学]

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参考文献1

1XU Kang,ZHU CongWen,HE JinHai.Linkage between the dominant modes in Pacific subsurface ocean temperature and the two type ENSO events[J].Chinese Science Bulletin,2012,57(26):3491-3496. 被引量：24

二级参考文献26

1Rasmusson E M, Carpenter T H. Variation in tropical sea surface temperature and surface wind fields associated with Southern Oscil- lation/El Nifio. Mon Weather Rev, 1982.110:354-384.
2Nicholls N. Predictability of interannual variations of Australian seasonal tropical cyclone activity. Mort Weather Rev, 1985, 113:1144-1149.
3Torrence C, Webster P J. Decadal changes in the ENSO-monsoon system. J Clim, 1998, 12:2679-2690.
4Power S, Casey T, Folland C, et al. Interdecadal modulation of the impact of ENSO on Australia. Clim Dyn, 1999, 15:319-324.
5Chang C, Zhang Y, Li T. Interannual and interdecadal variations of the East Asian summer monsoon and tropical Pacific SSTs. Part h Roles of the subtropical ridge. J Clim, 2000, 13:4310-4325.
6Larkin N K, Harrison D E. On the definition of El Nifio and associ- ated seasonal average U.S. weather anomalies. Geophys Res Lett, 2005, 32:L13705.
7Ashok K, Behera S K, Rao S A, et al. El Nifio Modoki and its possi- ble teleconnection. J Geophys Res, 2007, 112:C11007.
8Kug J S, Jin F F, An S I. Two types of E1 Nifio events: Cold tongue El Nifio and warrn pool El Nifio. J Clim, 2009, 22:1499-1515.
9Kao H Y, Yu J Y. Contrasting Eastern-Pacific and Central-Pacific types of E1 Nifio. J Clim, 2009, 22:615-632.
10Ren H L, Jin F F. Nifio indices for two types of ENSO. Geophys Res Lett, 2011, 38:L04704.

共引文献23

1Hong-Li REN,Fei ZHENG,Jing-Jia LUO,Run WANG,Minghong LIU,Wenjun ZHANG,Tianjun ZHOU,Guangqing ZHOU.A Review of Research on Tropical Air–Sea Interaction, ENSO Dynamics, and ENSO Prediction in China[J].Journal of Meteorological Research,2020,34(1):43-62. 被引量：6
2ZHOU Tianjun.Preface[J].Advances in Atmospheric Sciences,2013,30(3):542-542. 被引量：3
3徐康,祝从文,何金海.Two Types of El Nio-related Southern Oscillation and Their Diferent Impacts on Global Land Precipitation[J].Advances in Atmospheric Sciences,2013,30(6):1743-1757. 被引量：8
4Haisheng Zhang,Jun Zhao,Zhengbing Han,Bing Lu,Hans-Ulrich Peter.Population dynamics of Pygoscelis penguins(1980–2012) and penguin dropping records(1916–2001) on Ardley Island of West Antarctica, in response to ENSO[J].Chinese Science Bulletin,2014,59(4):437-446. 被引量：2
5XU Kang,SU Jingzhi,ZHU Congwen.The Natural Oscillation of Two Types of ENSO Events Based on Analyses of CMIP5 Model Control Runs[J].Advances in Atmospheric Sciences,2014,31(4):801-813. 被引量：4
6Xin Li,Chongyin Li.Occurrence of two types of El Nin?o events and the subsurface ocean temperature anomalies in the equatorial Pacific[J].Chinese Science Bulletin,2014,59(27):3471-3483. 被引量：2
7曾婷,杨东,郭佩佩,宋苗,马露,薛双奕.1960―2012年安徽省降水和气温变化特征及其与ENSO的相关性分析[J].热带地理,2014,34(6):783-793. 被引量：9
8董宇佳,孟祥凤.两类ENSO事件分类的研究进展[J].海洋环境科学,2015,34(3):473-480. 被引量：5
9李智玉,张文君,徐海明.两类ENSO事件非对称性特征分析[J].气象学报,2015,73(6):1019-1038. 被引量：11
10李智玉,徐海明,张文君.Asymmetric Features for Two Types of ENSO[J].Journal of Meteorological Research,2015,29(6):896-916.

同被引文献114

1李崇银.大气季节内振荡研究的新进展[J].自然科学进展,2004,14(7):734-741. 被引量：61
2Huang Ping,Huang Rong-Hui.Relationship between the Modes of Winter Tropical Pacific SST Anomalies and the Intraseasonal Variations of the Following Summer Rainfall Anomalies in China[J].Atmospheric and Oceanic Science Letters,2009,2(5):295-300. 被引量：8
3胡学平,许平平,宁贵财,王式功,尚可政.2012—2013年中国西南地区秋、冬、春季持续干旱的成因[J].中国沙漠,2015,35(3):763-773. 被引量：12
4黄荣辉,陈文,严邦良,张人禾.Recent Advances in Studies of the Interaction between the East Asian Winter and Summer Monsoons and ENSO Cycle[J].Advances in Atmospheric Sciences,2004,21(3):407-424. 被引量：60
5林学椿,于淑秋.厄尔尼诺与我国汛期降水[J].气象学报,1993,51(4):434-441. 被引量：84
6张人禾,李强.热带海洋变异对东亚季风的影响[J].气象,2004,30(12):22-26. 被引量：19
7李崇银.El Nino事件与中国东部气温异常[J].热带气象,1989,5(3):210-219. 被引量：48
8谭言科,张人禾,何金海,邹力.热带印度洋海温的年际变化与ENSO[J].气象学报,2004,62(6):831-840. 被引量：65
9黄荣辉,孙凤英.热带西太平洋暖池上空对流活动对东亚夏季风季节内变化的影响[J].大气科学,1994,18(4):456-465. 被引量：85
10李崇银,周亚萍.热带大气季节内振荡和ENSO的相互关系[J].地球物理学报,1994,37(1):17-26. 被引量：80

引证文献8

1袁媛,李崇银,凌健.不同分布型El Ni?o期间MJO活动的差异[J].中国科学：地球科学,2015,45(3):318-334. 被引量：5
2张人禾,闵庆烨,苏京志.厄尔尼诺对东亚大气环流和中国降水年际变异的影响:西北太平洋异常反气旋的作用[J].中国科学：地球科学,2017,47(5):544-553. 被引量：55
3ZHANG RenHe,MIN QingYe,SU JingZhi.Impact of El Nio on atmospheric circulations over East Asia and rainfall in China： Role of the anomalous western North Pacific anticyclone[J].Science China Earth Sciences,2017,60(6):1124-1132. 被引量：32
4陈文,丁硕毅,冯娟,陈尚锋,薛旭,周群.不同类型ENSO对东亚季风的影响和机理研究进展[J].大气科学,2018,42(3):640-655. 被引量：50
5LI Jingyi,LI Fei,WANG Huijun.Subseasonal prediction of winter precipitation in southern China using the early November snowpack over the Urals[J].Atmospheric and Oceanic Science Letters,2020,13(6):534-541.
6马思源,金燕,张思,王楚钦,马志敏.厄尔尼诺/南方涛动事件对云南秋季气象干旱的不同影响分析[J].干旱气象,2023,41(6):860-872.
7Jingrui YAN,Wenjun ZHANG,Suqiong HU,Feng JIANG.Different ENSO Impacts on Eastern China Precipitation Patterns in Early and Late Winter Associated with Seasonally-Varying Kuroshio Anticyclonic Anomalies[J].Advances in Atmospheric Sciences,2024,41(9):1691-1703.
8Ruhua Zhang,Wen Zhou,Wenshou Tian,Yue Zhang,Yuntao Jian,Yana Li.Tropical Stratospheric Forcings Weaken the Response of the East Asian Winter Temperature to ENSO[J].Ocean-Land-Atmosphere Research,2023,2(1):1-11. 被引量：1

二级引证文献135

1龚海楠,温之平,张人禾,周连童,王林,陈文.热带海气相互作用及其对东亚夏季风气候影响的研究进展[J].中国基础科学,2023,25(1):37-45.
2龚兰兰,王长燕,郁耀闯,韩景卫,王雄.1951-2018年河北围场地区降水的多尺度变化特征[J].水资源与水工程学报,2020(5):87-92. 被引量：1
3谷梓鹏,彭俊,俞珊妮.洞庭湖流域径流变化过程及其对ENSO和东亚季风的响应[J].哈尔滨师范大学自然科学学报,2022,38(1):63-72.
4朱叶,马志强,王雅婧,郭小琴.山西省夏季降水与前冬ENSO的关系初探[J].湖北农业科学,2022,61(S01):108-112.
5刘芳.谈加强自我修养提高育人的人格力量[J].锦州医学院学报,2000,21(1):101-102. 被引量：1
6孙忠保,程先富,张强,宋长青,宋伟东,黄晓梅.1960--2014年皖江地区极端降水事件时空特征研究[J].北京师范大学学报（自然科学版）,2018,54(6):772-780. 被引量：4
7李崇银,凌健,袁媛,潘静,贾小龙,陈雄.大气MJO研究的几个前沿问题[J].热带气象学报,2016,32(6):797-816. 被引量：7
8Tim LI,Bin WANG,Bo WU,Tianjun ZHOU,Chih-Pei CHANG,Renhe ZHANG.Theories on Formation of an Anomalous Anticyclone in Western North Pacific during El Nino:A Review[J].Journal of Meteorological Research,2017,31(6):987-1006. 被引量：37
9陈文,丁硕毅,冯娟,陈尚锋,薛旭,周群.不同类型ENSO对东亚季风的影响和机理研究进展[J].大气科学,2018,42(3):640-655. 被引量：50
10梁萍,陈丽娟,丁一汇,何金海,周兵.长江梅雨的长期变率与海洋的关系及其可预报性研究[J].气象学报,2018,76(3):379-393. 被引量：19

1左洪超,吕世华,胡隐樵.中国近50年气温及降水量的变化趋势分析[J].高原气象,2004,23(2):238-244. 被引量：606
2Juan AO,Jianqi SUN.The Impact of Boreal Autumn SST Anomalies over the South Pacific on Boreal Winter Precipitation over East Asia[J].Advances in Atmospheric Sciences,2016,33(5):644-655. 被引量：3
3MA JieHua,WANG HuiJun,ZHANG Yin.Will boreal winter precipitation over China increase in the future? An AGCM simulation under summer “ice-free Arctic” conditions[J].Chinese Science Bulletin,2012,57(8):921-926. 被引量：15
4王彰贵,蔡怡,张丽.1997/98年厄尔尼诺特征及97年气候异常[J].海洋预报,1998,15(3):124-131. 被引量：9
5李永平,秦曾灏,孙照渤.冬季热带太平洋和印度洋SSTA对大气协同作用的数值试验[J].气象学报,1996,54(5):612-619. 被引量：3
6李东辉,谭言科,张瑰,叶志敏.东亚冬夏季风对热带印度洋秋季海温异常的响应[J].热带海洋学报,2006,25(4):6-13. 被引量：11
7LIU Ying,FAN Ke,YAN Yu-Ping.A New Statistical Downscaling Scheme for Predicting Winter Precipitation in China[J].Atmospheric and Oceanic Science Letters,2013,6(5):332-336. 被引量：2
8杨永胜,施能.我国东部近百年夏季雨型的前期冬季大气环流及海温场特征[J].南京气象学院学报,2002,25(1):55-61. 被引量：1
9李琰,王亚非,董敏.Simulation of the Effects of the Preceding SST Anomalies over the Tropical Eastern Pacific on Precipitation to the South of the Yangtze River in June[J].Acta meteorologica Sinica,2009,23(6):691-700. 被引量：2
10薛双奕,杨东,马露.辽宁省气候变化与厄尔尼诺相关性分析[J].测绘科学,2016,41(9):54-59. 被引量：3

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