赤道西太平洋-印度洋海温异常对亚洲夏季风的影响

本文采用了p-σ五层原始方程模式模拟并研究了赤道西太平洋-印度洋海温距平场对亚洲夏季风的影响,计算了四种不同的海温距平试验方案。试验结果表明赤道西太平洋海温正距平使对流层下层的印度低压明显加强,副高北挺,季风槽加深,同时加强了对流层上层的反气旋环流。赤道西印度洋暖海温的模拟结果与赤道西太平洋暖海温对上述系统的影响相反,而赤道西印度洋冷海温对季风环流的影响与赤道西太平洋暧海温的影响一致。试验进一步表明赤道西太平洋-印度洋海温距平的纬向梯度方向对亚洲夏季风的影响是主要的,这一结论与实际观测结果一致。本文进一步讨论了赤道海温距平对越赤道气流、印度洋赤道东-西纬向环流和非绝热加热场的影响,结果都表明赤道西太平洋海温正距平和赤道西印度洋海温负距平的模拟特征与反El Nino年亚洲夏季环流特征类似,而赤道西印度洋海员正距平的模拟特征与El Nino年亚洲夏季坏流特征类似。     

夏季东亚热带和副热带季风与中国东部汛期降水

利用欧洲中心１９８０～１９８９年逐日２００ｈＰａ、８５０ｈＰａ风场及日本气象研究所提供的ＧＭＳ观测的ＴＢＢ逐日资料,探讨了夏季东亚热带、副热带季风的强弱对中国东部夏季降水的影响．指出东亚夏季风系统中的两条辐合带热带辐合带（热带季风槽）和副热带辐合带（副热带梅雨锋）的强度的变化呈相反趋势,即热带季风槽偏弱时（弱季风）,副热带梅雨锋偏强;反之热带季风槽偏强时（强季风）,副热带梅雨锋偏弱．江淮流域的降水与热带季风槽、副热带梅雨锋的强度密切相关,即热带季风槽偏弱（弱季风）,梅雨锋偏强时,江淮流域的降水偏多;热带季风槽偏强（强季风）,梅雨锋偏弱时,江淮流域的降水偏少．研究表明：热带季风槽和副热带梅雨锋的强度与偏西气流的加强密切相关．当赤道东太平洋海温偏高,赤道西太平洋海温偏低,黑潮地区的海温偏高时,赤道东西太平洋上空的Ｗａｌｋｅｒ环流和西太平洋中纬度Ｈａｄｌｅｙ环流的下沉支气流减弱,东亚季风槽较弱（弱季风）,梅雨锋较强;当赤道东太平洋海温偏低、西太平洋海温偏高,黑潮地区的海温偏低时,赤道东西太平洋上空的Ｗａｌｋｅｒ环流和西太平洋中纬度Ｈａｄｌｅｙ环流的下沉支气流加强,东亚季风槽较强（强季风）,梅雨锋较弱．     

南海夏季风强弱年环流形势与热带对流特点对比分析

利用NCEP/NCAR(美国国家环境预报中心/国家大气研究中心)再分析资料,对南海强夏季风年和弱夏季风年进行合成分析,结果表明,无论是在夏季风爆发前的1月份或是夏季风盛行的7月份,强弱夏季风年的平均经圈环流和平均纬圈环流都有明显差异。在强夏季风年,1月份的哈特莱环流、7月份的瓦克环流和季风经圈环流都比弱夏季风年同期的明显。强夏季风年的西太平洋副热带高压比弱夏季风年明显偏弱。利用OLR资料分析强夏季风年(1981年)和弱夏季风年(1983)4～9月份赤道东印度洋和南海对流活动的季节内振荡,发现在南海强夏季风年,季节内振荡的次数偏少而强度偏强,在弱夏季风年,季节内振荡的次数偏多而强度偏弱。相比之下,在南海强夏季风年,赤道东印度洋的季节内振荡比南海的更具典型性。     

中国东部季风降水与赤道东太平洋海温的关系

本文对中国异常季风降水与太平洋海表温度距平之间的关系进行了研究,特别注意到1951—1975年夏季北半球月平均年际变化. 赤道东太平洋海温距平经验正交函数(EOF)第一特征向量的时间序列与长江流域季风降水及太平洋副高指数之间的相互关系存在着相当明确的遥相关,发现长江流域旱(涝)与赤道东太平洋暖(冷)、西太平洋冷(暖)以及太平洋海温距平的二种行星型相符合.存在两种异常季风环流型,其一种型式相似于Horel和Wallace1982年提出的赤道增暖事件冬季的波列,另一种型式在相同位置其距平中心符号相反,只是强度较前一种情况弱. 东太平洋海温异常改变着西太平洋副高的强度及位置,从而影响印度尼西亚地区的跨赤道气流和中国东部低层的东南季风及长江流域的降水. 在赤道中太平洋和西太平洋(或东亚)之间表面温度对比的基础上,提出了三维行星对流环流,并以此来解释异常的季风环流.     

南海夏季风强弱年环流形势与热带对流特点对比分析

利用NCEP／NCAR(美国国家环境预报中心／国家大气研究中心)再分析资料，对南海强夏季风年和弱夏季风年进行合成分析，结果表明，无论是在夏季风爆发前的1月份或是夏季风盛行的7月份，强弱夏季风年的平均经圈环流和平均纬圈环流都有明显差异。在强夏季风年，1月份的哈特莱环流、7月份的瓦克环流和季风经圈环流都比弱夏季风年同期的明显，强夏季风年的西太平洋副热带高压比弱夏季风年明显偏弱，利用OLR资料分析强夏季风年(1981年)和弱夏季风年(1983)4～9月份赤道东印度洋和南海对流活动的季节内振荡，发现在南海强夏季风年，季节内振荡的次数偏少而强度偏强，在弱夏季风年，季节内振荡的次数偏多而强度偏弱，相比之下，在南海强夏季风年，赤道东印度洋的季节内振荡比南海的更具典型性。     

热带大气50—40天振荡对亚洲夏季风影响的数值研究

本文利用p—σ混合坐标系的五层原始方程模式,研究了印度洋—西太平洋热带偶极子型振荡对流加热源对亚洲夏季环流的影响。试验结果表明印度洋—西太平洋热带振荡源可以引起赤道东—西纬向环流、越赤道气流、季风经向环流以及亚洲夏季高、低层环流的位相振荡,其振荡周期与振荡热源的振荡周期一致。本文还进一步研究了热带振荡源影响亚洲夏季风环流的机制,研究表明振荡热源西侧激发的Rossby波的西传和扰动的北传、引起赤道东—西纬向环流和季风经向环流的振荡,从而最终导致整个亚洲夏季风环流振荡的机制。     

El Ni(n)o事件大气-洋流异常与暖海温传播机理研究

利用1971～2000年逐月SODA (Simple Ocean Data Assimilation) 同化资料 (Carton等, 2004)、 1980～2000年逐月NCEP/NCAR再分析资料 (Kalnay等, 1996) 探讨中部型 (暖海水首先出现在120°W以西) 和东部型 (暖海水首先出现在120°W以东) El Ni(n)o事件赤道纬向风应力及洋流的异常变化与暖海水信号的传播特征.研究指出: (1) 中部型和东部型El Ni(n)o事件发生时, 太平洋上赤道海表最大西风应力距平在西太平洋地区都有显著的东传现象, 但中部型El Ni(n)o事件西风应力距平强度强, 造成西太平洋赤道表层的东向流可达东太平洋地区, 这类El Ni(n)o事件强度偏强.(2) 中部型El Ni(n)o事件, 赤道表层洋流辐合区及其下沉运动由西太平洋向东太平洋传播, 辐合下沉运动抑制了深层冷海水上翻, 西太平洋暖水能够传到东太平洋与西太平洋赤道表层洋流辐合区及其下沉运动的东移有关.(3) 东部型El Ni(n)o事件西太平洋赤道表层洋流辐合区及其下沉运动没能直接传到东太平洋地区, 东太平洋暖水形成与局地 (120°W以东) 辐合下沉运动抑制深层冷海水上翻有关; 东部型El Ni(n)o事件暖池次表层的暖水, 不是沿着西太平洋赤道次表层向东传播到东太平洋地区, 而是由南太平洋西边界流将暖池海水带到40°S左右的西风漂流区, 再由西风漂流平流到东太平洋.     

春季赤道东太平洋海温异常与东亚夏季风的关系

定义了新的东亚季风指数,分析表明该季风指数能够更好地反映西太平洋副高的季节变化和年际变化。以此为基础讨论了春季赤道东太平洋海温异常、夏季西太平洋副高及东亚夏季风三者之是的关系,指出春季赤道东太平洋海温偏暖年,夏季西太平洋副高偏南、偏强、偏西,东亚夏季风偏弱,长江流域夏季多雨,华南、河套及其以东地区少雨;春季赤道东太平洋海温偏冷年则反之。     

1979年季风试验期间东亚地区夏季风爆发时期的观测研究

本文分析1979年季风试验期间5—7月从春到夏的季节转变过程。在亚洲南部和西北太平洋地区大范围夏季风爆发前1—2候,南半球40°—160°E之间中纬度地区高空西风急流有一次增强过程。南半球对流层中部的经向环流发展,对流层低层的越赤道偏南气流加强,这时亚洲南部和西北太平洋热带地区低空西南风风速增大,并且范围向北扩展,南亚地区对流层上部热带东风加大,季风环流圈加强,我国东部雨带出现季节性北移。看来南半球大气环流的变化对东亚地区夏季风的建立及其向北推进起着触发作用。     

冬季赤道西太平洋环流状况与后期亚洲季风

基于月平均NCEP再分析资料(1958～1997年)以及中国336个台站月降水总量(195l～1994年),通过合成、相关以及统计显著性检验方法,研究了赤道西太平洋区域冬季环流状况与后期春夏季亚洲(东亚和南亚)季风环流变化的关系.研究结果表明,冬季赤道西太平洋环流状况对后期南亚季风和东亚季风以及我国夏季降水均有显著的滞后影响.冬季赤道西太平洋海域海平面气压偏高(低),对应反气旋(气旋)性环流异常,致使后期东亚和南亚夏季风均偏弱(强)以及我国长江流域夏季降水偏多(少),揭示了实施这种滞后影响的一般特征.     

NUMERICAL SIMULATION OF LAG INFLUENCE OF ENSO ON EAST-ASIAN MONSOON

By prescribing sea surface temperature anomalies(SSTAs)over eastern equatorial Pacific inJanuary—March,the lag influence of ENSO(El Nino and La Nina)on monsoon over East Asiahas been studied.The results suggest that,due to the excitation of atmospheric low-frequencyoscillation by the SSTA,ENSO has significant lag influence on the monsoon over East Asia.During the summer after E1 Nino,the subtropical high over western Pacific is intensified andshows the northward and westward displacement,meanwhile,the rainfall over East China isbelow normal,especially in North China:during the winter after E1 Nino,both the Asian troughand the winter monsoon over East Asia are strengthened.During the summer after La Nina,theanomalous subtropical high prevails over the lower reaches of Yangtze(Changjiang)River,therainfall between Yangtze and Huaihe Rivers is below normal:during the winter after La Nina,both the Asian trough and the winter monsoon over East Asia are weaker.Compared with LaNina,the effect of El Nino is stronger,but it is not always opposite to the one of La Nina.     

ENSO对亚洲夏季风环流和中国夏季降水影响的诊断研究

文中以ＳＶＤ分析技术为基础,发展了一种用以提取一个矢量场和一个标量场耦合信号的统计诊断方法——联合ＳＶＤ方法（简记为ＣＳＶＤ）,并运用ＣＳＶＤ分析了ＥＮＳＯ对亚洲季风环流系统及中国夏季降水的年际变化的影响。结果表明,在ＥｌＮｉｎｏ年,印度夏季风减弱,东亚夏季风增强;而在ＬａＮｉｎａ年,印度夏季风增强,东亚夏季风减弱。且ＥＮＳＯ对亚洲夏季风环流影响显著的区域主要在长江流域南北气流交汇区和索马里急流区,而对中国夏季降水影响最显著的区域则在江淮流域。     

A DIAGNOSTIC STUDY OF THE TELECONNECTION ASSOCIATED WITH THE WARM POOL OF THE WESTERN PACIFIC AND ASIAN MONSOON DURING EL NINO AND NON-EL NINO YEARS

Based on the monthly mean OLR, geopotential height and wind data from the NCEP/NCAR reanalyzed data sets for 1982-1996, the atmospheric teleconnection associated with the warm pool of the tropical western Pacific and Asian monsoon region during E1 Nino and non-El Niño years are studied diagnostically in this paper. It is found that, the teleconnection pattern caused by the activity of the Asian summer monsoon (ASM) emanates from the Asian monsoon region to the tropical eastern Pacific via the Aleutians in summer of the El Niño years. In the non-El Niño years, however, the ASM-related teleconnection pattern stretches northward and westward from the Asian monsoon region, exerting its influences mainly on the circulation over middle and high latitude rather than that over the tropical eastern Pacific. Evidences also show that the anomalous convection over the tropical western Pacific warm pool leads to the East Asia/Pacific(EAP) teleconnection pattern during the non-El Niño years. It is interesting to note that the teleconnection in the 500 height field associated with the warm pool convection disappears in the El Niño years. The differences of the teleconnection pattern between the El Niño years and the non-El Niño years suggest that the activities of the ASM and the convection over the warm pool of the tropical western Pacific, the most energetic weather events in boreal summer, are intertwined and interactive with other global-scale circulation in different ways under different climate backgrounds.     

The Role of the Asian/Australian Monsoons and the Southern/Northern Oscillation in the ENSO Cycle

Summary  In this paper, we first examine the relationship of El Nino and La Nina events with the westerly wind anomalies over the western Pacific warm pool. On this basis, the roles of the Asian and Australian winter monsoons in the formation and progress of the westerly wind anomalies are studied. Finally, we analyze the associations of the Asian and Australian winter monsoons, the westerly wind anomalies and the El Nino and La Nina alternations with the propagating anomalies of the Southern and Northern Oscillation. The results show that the westerly wind bursts are frequent over the Maritime Continent and western Pacific, only those which can further intensify and propagate eastward are accompanied by an El Nino event. It is identified that the establishment and eastward propagation of westerly wind bursts are related to enhanced East Asian and Australian winter monsoon, respectively. The activities of the East Asian and Australian winter monsoon, the variation of the Pacific westerly and trade winds and the alternate appearance of El Nino and La Nina events should be internally connected. The main agents of this relationship are the eastward propagation of alternate positive and negative height anomalies associated with the Southern and Northern Oscillation on a 3–5 year time scale over the south and north tropical Pacific. Received January 4, 1998/Revised January 19, 1999     

STUDY ON THE QUASI-FOUR YEAR OSCILLATION OF AIR-SEA INTERACTION

Complex Singular Value Decomposition(CSVD)analysis technique was applied to study theQuasi Four year Oscillation(QFO)of air sea interaction and its coupled pattern evolution duringdifferent phases.Results show that:(1)CSVD method can better reveal phase relation betweentwo physical fields:(2)Not only northerly anomalies from Northern Hemisphere but alsosoutherly anomalies from Southern Hemisphere contribute to EI Nino.They converge in westernequatorial Pacific,leading to outburst of strong equatorial westerly anomalies,and result in strongEl Nino event onset:(3)An abnormal subtropical anticyclone circulation appears overnorthwestern Pacific while El Nino developing.It favors transitions from the warm SST(EINino)to the cold SST(La Nina),just as the tropical westerly anomalies produced by abnormalcyclone during a decaying La Nina.which encourage the development of El Nino:(4)Thewesterly anomalies in equatorial Pacific are mainly induced by eastward abnormal subtropicalcyclone pairs,which are located in north and south Pacific respectively,and are not the eastwardwesterly anomalies from equatorial Indian Ocean.     

RELATION BETWEEN SUMMER TYPHOON FREQUENCY ANOMALIES IN WEST PACIFIC AND ENSO EVENTS AND THE ANOMALOUS ATMOSPHERIC CIRCULATION CHARACTERISTICS

By using data of serially numbered typhoons in northwestern Pacific and NOAA OLR data and NCEP/NCAR reanalysis data of wind field, based on the statistics and study of the relationship between the calendar years with more (or fewer) summer typhoons and ENSO events, we compared the composites of OLR eigenvectors and tropical summer wind fields during El Nino and La Nina events with more or fewer than normal summer typhoons, respectively. The results show that, in summer, without remarkable systematic anomalies of Mascarene High and Australia High in South Hemisphere, the anomaly of Walker circulation will dominate and follow the rule of ENSO impacts to atmospheric circulation and typhoon frequency. Otherwise, when systematic anomalies of Australia High appear during the El Nino events, circulation anomalies in the South Hemisphere will dominate, and many more typhoons will occur. In 1999, which is a special year of La Nina events, northward and eastward monsoon was induced by the stronger Mascarene High, and fewer typhoons arose. The typhoon source are regions where weak vertical wind shear, warm pool in western Pacific and the area with monsoon troughs are overlapping with each other. Finally, this paper analyzes and compares the source locations and ranges of more (fewer) typhoons in the events of El Nino and La Nina, respectively.     

冬夏季环流隔季相关的数值试验

利用海气耦合和大气气候模式研究东亚冬季风异常对夏季环流的影响, 结果表明, 东亚冬季风异常对于后期环流及海洋状态异常都起了很大的作用.一般情况下, 强的冬季风与后期弱的东亚夏季风和较强的南海季风相对应.与强(弱)冬季风异常相关的风应力的改变可以使热带太平洋海温从冬季至夏季呈现La Nina (El Nio)型异常分布.试验得到的由冬季风异常所产生的海洋及夏季环流的变化与实况是相当接近的.在异常的冬季风偏北风分量强迫下, 西太平洋上形成的偏差气旋环流在夏季已不存在, 这时东亚夏季风反而增强.而冬季赤道西风分量所产生的影响, 则在西太平洋上形成显著的偏差气旋环流, 使东亚副热带夏季风减弱, 南海夏季风加强.对于东亚大气环流而言, 与强弱冬季风对应的热带海洋海温异常强迫下, 不仅是冬季, 后期春季和夏季环流的特征都能得到很好的模拟.但是从分区看, 西太平洋暖池区的海温异常比东太平洋更为重要.单纯的热带中东太平洋的海温异常对东亚大气环流的影响主要表现在冬季, 对后期的影响并不十分清楚.整个热带海洋的异常型分布(不论是El Nio还是La Nia)型, 对冬夏季风的影响是重要的, 而单纯的某个地区的海温异常都比它的整体影响要小.从试验结果看, 海温在大尺度冬夏季环流的隔季相关中起了十分重要的作用.     

INTERANNUAL LOW-FREQUENCY OSCILLATIONS OF MERIDIONAL WINDS OVER THE EQUATORIAL INDIAN-PACIFIC OCEANS

Based on analysis of the meridional winds over oceanic areas and SST for 1950-1979 extracted from the data sets of COADS, the long-term variability of the meridional winds over the equatorial Indian-Pacific oceans and its relationship to the onset and development of El Nino events have been studied. The major results are as follows:(1) There is a great similarity between ITCZ over the Pacific and SST in the seasonal trend, with ITCZ and high SST found in the Southern Hemisphere in winter and in the Northern Hemisphere in summer.During El Nino years, unusual meridional winds were often observed, with significant convergence of meridional winds occurring over near-equatorial regions.(2) For the near-equatorial meridional winds, there are three types of interannual LFO:QBO, SO, FYO. QBO plays an important role in the unusual behavior of meridional winds for El Nino years, while SO is very important for both El Nino and cold water years. These two oscillations may fit well to the observed variation in the meridional wind. FYO may enhance the variation of meridional winds.(3) Interannual LFO of meridional winds originates in the Indian Ocean-Maritime Continent and coastal area of East Pacific. Unusual activities of winter monsoon in both hemispheres and trade winds off the coastal area of East Pacific are believed to be their major cause.(4) Monsoon-trade interaction shows up in the significant amplification of the disturbances of meridional winds while they propagate eastward from monsoon area to trade wind area.     

亚澳季风异常与ENSO准四年变化的联系分析

分析了赤道地区纬向风的年际变化特征，以及亚澳季风与ENSO在各个位相的联系。结果表明：赤道纬向风变化与中东太平洋海温变化在准四年周期上是强烈耦合的；在El Eino期间东亚冬季风弱，夏季风强，而南亚夏季风弱，反之，在La Nina期间东亚冬季风强，夏季风弱，而南亚夏季风强；东亚地区的异常北风有利于西太平洋西风异常爆发，使得东太平洋海温升高，但只有随后在中东太平洋出现持续性西风异常，El Nino才能发展，其中来自太平洋中部的异常北风（并不是来自东亚大陆地区）和南太平洋中部的异常南风的辐合对中东太平洋出现持续性西风异常起重要的作用，尤其是澳大利亚东北部的季风异常的影响更为显。     

中国东部夏季暴雨日数的分布特征及其与大气环流和海温的关系

采用1961—2010年NCEP/NCAR再分析资料,NOAA海表温度资料和中国国家气候中心整编的中国东部387站逐日降水资料,分析了中国夏季暴雨日数的分布特征及其与大气环流和海温的可能关系。结果表明:(1)近50年中国东部夏季暴雨日数经历了3次年代际变化,先后发生在20世纪70年代中后期、90年代初以及21世纪初。(2)根据经验正交函数(EOF)分析主模态的空间分布型,结合聚类分析的方法,将中国东部夏季暴雨日数主要分为6种类型:渤海型、北方型、淮河型、长江型、南方型、南方和北方两支型。该分型对实际暴雨日数分布具有较好的代表性。(3)分析中国东部夏季暴雨日数不同分布型的环流场特征,结果表明暴雨日数的分布类型与东亚夏季风密切相关,渤海型和北方型分布对应季风位置偏北,淮河型和长江型分布对应季风位置偏南,南方型分布时季风位置更加偏南,当暴雨日数呈现南方和北方两支型分布时,季风较强,影响中国东部大部分地区。(4)分析中国东部夏季暴雨日数不同分布型的水汽输送特征,结果表明,影响中国东部夏季不同暴雨日数分布型的水汽输送与西太平洋的异常反气旋式环流密切相关,形成暴雨的水汽更多来自于西太平洋。(5)分析中国东部夏季暴雨日数不同分布型的海温场特征,结果表明,渤海型和北方型暴雨日数多发生在拉尼娜发展或者维持时期;淮河型和长江型暴雨日数多发生在厄尔尼诺维持或者衰减时期;南方型暴雨日数多发生在厄尔尼诺发展时期;而当暴雨日数呈现出南方和北方两支型时,整个太平洋和北印度洋大部分地区均呈现出偏冷的状态,海、陆热力差异显著。