高原气象

高原气象 >

2016 , Vol. 35 >Issue 1: 188 - 197

DOI: https://doi.org/10.7522/j.issn.1000-0534.2014.00085

论文

与澳高相关的海洋性大陆区域海温异常对中国夏季气候的可能影响

  • 张蓬勃 ,
  • 管兆勇 ,
  • 刘蕾 ,
  • 姜玥宏 ,
  • 何婧
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  • 南京市气象局, 南京 210009;2. 南京信息工程大学气象灾害教育部重点实验室, 南京 210004;3. 芜湖市气象局, 芜湖 241000

收稿日期: 2013-09-30

  网络出版日期: 2016-02-28

基金资助

国家自然科学基金项目(41330425);公益性行业(气象)科研专项(GYHY201406024)

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Possible Influence of SST Anomaly in Maritime Continent on Summer Climate of China in Association with Variations of Australian High

  • ZHANG Pengbo ,
  • GUAN Zhaoyong ,
  • LIU Lei ,
  • JIANG Yuehong ,
  • HE Jing
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  • Nanjing Meteorological Bureau, Nanjing 210009, China;2. Key Laboratory of Ministry of Education for Meteorological Disaster, Nanjing University of Information Science and Technology, Nanjing 210044, China;3. Wuhu Meteorological Bureau, Wuhu 241000, China

Received date: 2013-09-30

  Online published: 2016-02-28

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摘要

利用NCEP/NCAR全球再分析资料和中国夏季站点资料,采用相关分析、合成分析以及线性回归方法,找到了与澳大利亚高压(下称澳高)显著相关的海温关键区,并分析了此关键区海温异常的年际变化与中国夏季气候异常的联系。结果表明:海洋性大陆区域附近海区是与澳高变化相关的海温异常关键区,其与澳高指数的时间序列相关系数高达-0.64。在不考虑ENSO的影响时,关键区海温的年际变化与中国东部地区夏季气候存在密切联系,即当澳高指数偏强(偏弱)时,海洋性大陆区域附近的海温偏低(偏高),辽宁、吉林大部分以及江淮东部地区夏季降水较常年偏少(偏多),江南地区降水偏多(偏少)。关键区海温对中国夏季气候的可能影响途径是:印度尼西亚附近海温负异常时,低层风场异常辐散,辐散场作为涡度源在南海西太平洋地区激发类似EAP或P-J型波列,在30°N以南形成异常气旋环流,30°-N50°N形成异常反气旋环流,50°N以北形成异常气旋环流,这样的异常分布有利于"南涝北旱"降水格局的形成。另外,降水异常时气温亦存在显著异常,我国东部气温为异常的"南低北高"分布。当海洋性大陆区域附近的海温为正异常时,情况相反。

关键词: 海洋性大陆区域; 海温异常; 澳大利亚高压; 年际变化; 中国夏季气候

本文引用格式

张蓬勃 , 管兆勇 , 刘蕾 , 姜玥宏 , 何婧 . 与澳高相关的海洋性大陆区域海温异常对中国夏季气候的可能影响[J]. 高原气象, 2016 , 35(1) : 188 -197 . DOI: 10.7522/j.issn.1000-0534.2014.00085

Abstract

By using the NCEP/NCAR reanalysis and in situ station data of precipitation and surface air temperature in China,we have investigated influences of the sea surface temperature anomalies(SSTA) in Maritime Continent(MC) region on the summer climate of China in association with variations of Australian High(AH).It is found that large SSTA occur in Maritime Continent region when Australian High changes on inter-annual timescales.The Indonesia region is hence fixed as the key area for SST anomalies with which the composite analyses are performed of circulation anomalies along with the summer climate variations in China.The SSTA in key area is highly correlated with the AH index;the correlation coefficient is found to be-0.64.By regressing ENSO signal out,the SSTA variations in key area is found to have close relations with summer climate anomalies in the eastern part of China.When AH is stronger(weaker) than normal,the SST around Indonesia is lower(higher) than normal.Correspondingly,the summer precipitation is simultaneously less(more) than normal in Jianghuai region and most areas of Liaoning and Jilin provinces whereas more(less) precipitation in Yangtze River regions.Meanwhile,summer temperature is higher(lower) in most areas of Liaoning and Jilin province,while it is lower(higher) than normal in Yangtze River regions.The SSTA in key area influence summer climate in eastern China in following ways.When SSTA in area Indonesia is negative,winds in lower troposphere anomalously diverge.This divergence works as the anomalous vorticity source,exciting an EAP/P-J wave-train pattern from South China Sea northeastward into the west Pacific.There is an anomalous cyclonic circulation in region south of 30°N and an anti-cyclonic circulation in region between 30°N and 50°N.Another anomalous cyclonic circulation exists in region north of 50°N.This circulation pattern featured by anomalous cyclone-anticyclone-cyclone from south to north facilitates the western Pacific subtropical high to be more northern than normal,inducing a precipitation pattern as'southern flood-northern drought'in the eastern China.Correspondingly,more than normal precipitation in southern part of East China means more cloud cover and more evaporation in this region,significantly influencing the surface air temperature anomalies in East China.

Key words: Maritime continent; SSTA; Australian high; Interannual variatio; Summer climate of Ch

参考文献

[1]Ashok K,Guan Z Y,Yamagata T.2001.Impact of the Indian Ocean dipole on the relationship between the Indian monsoon rainfall and ENSO[J].Geophys Res Lett,28:4499-4502.
[2]Guan Z Y,Ashok K,Yamagata T.2003a.Summertime response of the tropical atmosphere to the Indian Ocean dipole sea surface temperature anomalies[J].J Meteor Soc Japan,81:533-561.
[3]Guan Z Y,Yamagata T.2003b.The unusual summer of 1994 in East Asia:IOD teleconnections[J].Geophys Res Lett,30(10).DOI:10.1029/2002GL016831.
[4]Hendon,Harry H.2003.Indonesian rainfall variability:Impacts of ENSO and local air-sea interaction[J].J Climate,16:1775-1790.
[5]He Jinhai,Li Jun.1990.Numerical experiment with processes for effect of Australian cold air activity on EASE-Asian summer monsoon[J].Acta Meteor Sini,4(1):51-59.
[6]Huang Z,Wu Y,Robertson J,et al.2008.Fast and accurate search for non-coding RNA pseudoknot structures in genomes[J].Bioinforamtics,24(20):2281-2287.
[7]Huang R H.1992.The East Asia/Pacific teleconnection pattern of summer circulation and climate anomaly in East Asia[J].Acta Meteor Sinica,6(1):25-37.
[8]Jin Z,Tao S Y.1999.A Study on the Relationships between ENSO cycle and rainfalls during summer and winter in Eastern China[J].Scientia Atmospherica Sinica,23:663-672.
[9]Kawamura R T,Matsuura,Satoshi I.2001.Interannual atmosphere-ocean variations in the tropical western North Pacific relevant to the Asian summer monsoon-ENSO coupling[J].J Meteor Soc Japan,79:883-898.
[10]Kalnay E,Kanamitsu M,Kistler R,et al.1996.The NCEP/NCAR40-year reanalysis project[J].Bull Amer Meteorol Soc,77:437-472.
[11]Keeana T D,May P,Holland G,et al.2000.The maritime continent thunderstorm experiment(MCTEX):Overview and some results[J].Bull Amer Meteor Soc,81(10):2433-2455.
[12]Kiladis G N,Diaz H F.1989.Global climatic anomalies associated with extremes in the Southern Oscillation[J].J Climate,2(9):1069-1090.
[13]Kirono D G C,Tapper N J,Mcbride J L.1999.Documenting Indonesian rainfall in the 1997/1998 El Nino event[J].Phys Geograph,20(5):422-435.
[14]Lau K M,Chan P H.1983.Short-term climate variability and atmospheric telecomnections form satellite-observed outgoing longwave radiation[J].Sci,40(12):2735-2750.
[15]Lau K M,Wu H T.2001.Principal modes of rainfall-SST variability of the Asian summer monsoon:A reassessment of the monsoon-ENSO relationship[J].J Climate,14:2880-2895.
[16]Lau,Ngar-Cheung,Mary Jo Nath.2004.Coupled GCM simulation of atmosphere-ocean variability associated with zonally asymmetric SST changes in the tropical Indian ocean[J].J Climate,17:245-265.
[17]Li S,Shou S.2000.Equatorial eastern Pacific SST and analysis on causes of summer floods/droughts in the Changjiang and Huaihe river basin[J].Quart J Appl Meteor,11:331-338.
[18]Mcbride J L,Haylocl M R,Nicholls N.2003.Relationships between the maritime continent heat source and El Ni?o-Southern Oscillation Phenomenon[J].Meteor Soc,16(1):2905-2913.
[19]Nitta T.1987.Convective activities in the tropical Western Pacific and their impact on the Northern Hemisphere summer circulation[J].J Meteor Soc Japan,65:373-390.
[20]Ramage C S.1968.Role of a tropical "maritime continent" in the atmospheric circulation[J].Mon Wea Rev,96(6):365-370.
[21]Ropelewski C F,Halpert M S.1987.Global and regional scale precipitation patterns associated with the El Nino/Southern Oscillation[J].Mon Wea Rev,115:1606-1626.
[22]Saji N H,Goswmi B N,Viayachandrom P N,et al.1999.A dipole mode in the tropical Indian Ocean[J].Nature,401:360-363.
[23]Wang B,Wu R,Fu X.2000.Pacific-East Asian teleconnection:how does ENSO affect East Asian climate[J].J Climate,13:1517-1536.
[24]Wang S W.1992.Reconstruction of El Ni?o events chronology for the last 600 year period[J].Acta Meteor Sinica,6:47-57.
[25]Wu B,Zhou T J,Li T,et al.2009.Seasonally evolving dominant interannual variability modes of East Asian climate[J].J Climate,22:2992-3005.
[26]Zhou T J,Wu B,Wang B.2009.How well do atmospheric general circulation models capture the leading modes of the interannual variability of the Asian-Australian monsoon[J].J Climate,22:1159-1173.
[27]Zhou T J,Yu R C.2005.Atmospheric water vapor transport associated with typical anomalous summer rainfall patterns in China[J].J Geophys Res,110,D08104.DOI:10.1029/2004JD005413.
[28]Zhou T,Yu R C,Zhang J.2009.Why the western Pacific subtropical high has extended westward since the late 1970s[J].J Climate,22:2199-2215.
[29]Zhu Q G,Zhi X F,Lei Z C.1990.Low-frequency summer monsoon in Indonesia-northern Australia and its relation to circulations in both hemispheres[J].Acta Meteor Sinica,4(5):51-59.
[30]陈烈庭,吴仁广.2000.ENSO循环与亚、澳季风和南、北方涛动的关系[J].气象学报,58(2):168-178.Chen Lieting,Wu Renguang.2000.Enso cycle associated with Asian/Australian monsoon and Southern/Northern Oscillation[J].Acta Meteor Sinica,58(2):168-178.
[31]雷小春,杨修群.2008.东半球越赤道气流的年际变化特征及其与我国同期气温、降水的相关性[J].热带气象学报,24(2):127-135.Lei Xiaochun,Yang Xiuqun.2008.Interannual variation characteristics of east hemispheric cross-equatorial flow and its contemporaneous relationships with temperature and rainfall in China[J].J Trop Meteor,24(2):127-135.
[32]刘秦玉,王韶霞.2000.印度尼西亚群岛邻近海域SST对越赤道气流的影响[J].大气科学,24(5):634-640.Liu Qinyu,Wang Shaoxia.2000.Influence of the sea surface temperature in the vicinity of the Indonesia Archipelago on the cross equator flow[J].Chinese J Atmos Sci,24(5):634-640.
[33]闵锦忠,李春,吴芃.2005.夏季热带西太平洋对流与长江中下游降水关系的研究[J].大气科学,29(6):947-954.Min Jinzhong,Li Chun,Wu Peng.2005.A study of the relationship between summer tropical convection over the Western Pacific and the rainfall in the middle-lower reaches of the Yangtze River[J].Chinese J Atmos Sci,29(6):947-954.
[34]牛若芸,苏爱芳,马杰.等.2011.典型南涝(旱)北旱(涝)梅雨大气环流特征差异及动力诊断分析[J].大气科学,35(1):95-104.Niu Ruoyun,Su Aifang,Ma Jie.2011.The difference of the atmospheric circulation features and dynamical diagnosis about the typical Meiyu patterns of southern flood(drought) and northern drought(flood)[J].Chinese J Atmos Sci,35(1):95-104.
[35]施能,朱乾根.1995.南半球澳大利亚、马斯克林高压气候特征及其对我国东部夏季降水的影响[J].气象科学,15(2):20-26.Si Neng,Zhu Qian'gen.1995.The climatic features of the Australian high and the Mascarene high in Southern hemisphere and their influence on Summer precipitation in Eastern China[J].J Meteor Sci,15(2):20-26.
[36]施宁,施丹平,严明良.2001.夏季越赤道气流对南海季风及华东旱涝的影响[J].热带气象学报,17(4):405-414.Shi Ning,Shi Danping,Yan Mingliang.2001.The effects of cross-equatorial current on south China sea monsoon onset and drought/flood in east China[J].J Trop Meteor,17(4):405-414.
[37]孙林海,陈兴芳.2003.南涝北旱的年代气候特点和形成条件[J].应用气象学报,14(6):461-467.Sun Linhai,Chen Xingfang.2003.Decade climate characters and formation condition of flooding in south and drought in north in China[J].J Appl Meteor Sci,14(6):641-647.
[38]宋大伟,管兆勇,唐卫亚.2011.夏季海洋性大陆区域OLR年际变动与中国长江中上游旱涝的关系[J].热带气象学报,27(4):560-568.Song Dawei,Guan Zhaoyong,Tang Weiya.2011.Variations of OLR in maritime continent regions in association with droughts and floods in the upper and middle reaches of Yangtze river of China in boreal summer[J].J Trop Meteor,27(4):560-568.
[39]陶诗言,朱福康.1964.夏季亚洲南部100毫巴流型的变化及其与西太平洋副热带高压进退的关系[J].气象学报,34(4):387-396.Dao Shiyan,Zhu Fukang.1964.The 100 mb flow patterns in Southern Asia in summer and its relation to the advance and retreat of the West-Pacific subtropical anticyclone over the far east[J].Acta Meteor Sinica,34(4):387-396.
[40]唐东昇.1986.加热场对低空越赤道气流影响的数值实验研究[J].热带气象学报,2(4):311-319.Tang Dongsheng.1986.Numerical experiments of the effects of the heating field on the low-level cross-equatorial flows[J].J Trop Meteor,2(4):311-319.
[41]王韶霞,刘秦玉,徐启春.2000.夏季影响105°E越赤道气流变化的环流系统[J].青岛海洋大学学报,30(1):22-28.Wang Shaoxia,Li Qinyu,Xu Qichun.2000.105°E variation and corresponding circulation systems in summer[J].Journal of Ocean University of Qingdao,30(1):22-28.
[42]薛峰,何卷雄.2007.外热带大气扰动对 ENSO 的影响[J].地球物理学报,50(5):1311-1318.Xue Feng,He Juanxiong.2007.The influence of the extratropical atmospheric disturbances on ENSO[J].Chinese J Geophys,50(5):1311-1318.
[43]晏红明,杨辉,王灵,等.2010.印度半岛热力变化对亚洲季风环流异常的影响[J].高原气象,29(6):1452-1463.Yan Hongming,Yang Hui,Wang Ling,et al.2010.The impact of surface thermal variation over Indian Peninsula on Asian monsoon circulation anomaly[J].Plateau Meteor,29(6):1452-1463.
[44]张蓬勃,管兆勇,蔡佳熙.2010a.SVD分析揭示的澳大利亚高压年际变化对中国夏季气温的可能影响[J].大气科学学报,33(1):58-66.Zhang Pengbo,Guan Zhaoyong,Cai Jiaxi.2010a.Impacts of interannual variations of Australian high on the summer temperature in China by SVD analysis[J].Transactions Atmos Sci,33(1):58-66.
[45]张蓬勃,管兆勇,孙密娜,等.2010b.SVD分析揭示的澳大利亚高压年际变化对中国夏季降水的可能影响[J].气象学报,68(6):908-917.Zhang Pengbo,Guan Zhaoyong,Sun Mina.2010b.Possible impacts of the interannual variability of the Australian high on summertime rainfall in China as revealed by the SVD analysis[J].Acta Meteor Sinica,68(6):908-917.
[46]张庆云,陶诗言.2003.夏季西太平洋副热带高压异常时的东亚大气环流特征[J].大气科学,27(3):369-380.Zhang Qingyun,Tao Shiyan.2003.The anomalous subtropical anticyclone in Western Pacific and their association with circulation over East Asia during summer[J].Chinese J Atmos Sci,27(3):369-380.
[47]张祖强,丁一汇,赵宗慈.2002.ENSO发生前与发展初期赤道西太平洋西风异常的爆发问题[J].气象学报,58(1):11-25.Zhang Zuqiang,Ding Yihui,Zhao Zongci.2002.On the westerly wind outbursts in equatorial Western Pacific during the onset and development phases of Enso and before[J].Acta Meteor Sinica,58(1):11-25.
[48]朱福康,陆龙骅.1984.南半球对北半球初夏季节转换的一种可能机理[J].气象学报,42(4):449-458.Zhu Fukang,Lu Longhua.1984.A possible mechanism for the effects of the southern hemisphere on the seasonal transition over the northern hemisphere in early summer[J].Acta Meteor Sinica,42(4):449-458.
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