两类E1 Nino事件太平洋海温异常时空结构的分析   总被引：9，自引：0，他引：9  

唐佑民  刘书华 《热带气象学报》1994,10(2):130-139

用聚类法对１９５１－１９８６年发生的１０次厄尔尼诺事件进行分析，归纳出两类厄尔尼诺事件。第Ｉ类在赤道中太平洋偏西先开始增温，第Ⅱ类在赤道东太平洋先开始增温；用距平合成和复自然正交经验展开研究了两类事件从产生到消亡各阶段所对应的太平洋海温异常的时空结构和特征。爆发和发展阶段，第Ｉ类海温场扰动由西向东传，第Ⅱ类相反。距平分布也呈明显相反的特征。成熟阶段，赤道地区第Ｉ类逆转为由东向西传播；第Ⅱ类则出现经  相似文献   

赤道东太平洋海温异常增暖对低频振荡影响的数值试验     

吴池胜 《热带气象学报》1997,13(1):12-25

为研究海温的异常增暖对３０－６０天低频振荡的影响，利用ＯＳＵ两层大气环流模式作了两组试验：一组使用气候平均海温，另一组包括两个试验，它们分别设正的海温距平（ΔＳＳＴ）中心位于赤道东太平洋的东部（１００°Ｗ）和中部（１４５°Ｗ）。结果表明：赤道东太平洋冬半年的海温异常增暖可改变低频振荡方差贡献的地理分布，其中当正的ΔＳＳＴ中心位于赤道东太平洋的东部时，热带印度洋和西太平洋地区的低频振荡的方差贡献较为显著，而热带东太平洋的低频振荡较为不活跃；当正的ΔＳＳＴ中心位于赤道东太平洋的中部时，情形则相反，即热带东太平洋的低频振荡的方差贡献较显著，而西太平洋地区的则不活跃。在赤道东太平洋海温异常增暖过程中，低频振荡的传播特性对ΔＳＳＴ中心位置的响应是敏感的，即当正的ΔＳＳＴ中心位置偏于该海区的东部或中部时，低频振荡的传播方向和传播速度有明显的差异  相似文献   

两类E1　Nino事件太平洋海温异常时空结构的分析   总被引：2，自引：0，他引：2  

唐佑民  刘书华 《热带气象学报》1994,(2)

用聚类法对１９５１─１９８６年发生的１０次厄尔尼诺事件进行分析，归纳出两类厄尔尼诺事件。第Ⅰ类在赤道中太平洋偏西先开始增温，第Ⅱ类在赤道东太平洋先开始增温；用距平合成和复自然正交经验展开研究了两类事件从产生到消亡各阶段所对应的太平洋海温异常的时空结构和特征。爆发和发展阶段，第Ⅰ类海温场扰动由西向东传，第Ⅱ类相反。距平分布也呈明显相反的特征。成熟阶段，赤道地区第Ⅰ类逆转为由东向西传播；第Ⅱ类则出现经向北传、纬向准静止；中高纬地区两类仍相反，而距平分布的相反特征则已经消失。消亡阶段，海温场的扰动传播第Ⅱ类与成熟阶段变化不大，而第Ⅰ类就变成与第Ⅱ类一致；距平分布也差别不大。  相似文献   

热带太平洋西风异常对ENSO事件发生的作用   总被引：6，自引：5，他引：6  

傅云飞  黄荣辉 《大气科学》1996,20(6):641-654

本文从观测资料对80年代两次ENSO事件产生过程中，热带太平洋西风异常及其对赤道中、东太平洋表层海温增暖的作用进行了分析和比较。分析结果表明:在这两次ENSO事件的产生过程中，赤道西太平洋上空均有较大的西风异常，并且它由赤道西太平洋向赤道中、东太平洋传播，随着西风异常从西向东传播，赤道中、东太平洋的表层相继增温。分析还表明，1982／1983年ENSO事件发生过程中，热带太平洋西风异常的强度要比1986／1987年热带太平洋西风异常强得多，这使得1982／1983 ENSO事件的强度比1986／1987_ENSO事件强得多。为了说明热带西太平洋西风异常对赤道中、东太平洋ENSO事件发生的作用，本文还利用IAP太平洋环流模式对西风异常在ENSO事件产生过程中的作用进行了数值模拟。模拟的结果说明了热带太平洋的西风异常对赤道太平洋暖水的向东传播和赤道中、东太平洋的增温起了很重要作用，这与观测事实分析一致。  相似文献   

1986—1987厄尔尼诺事件的数值模拟   总被引：1，自引：0，他引：1  

张荣华 《大气科学》1994,18(Z1):847-855

用高分辨率自由表面热带太平洋环流模式，在观测到的风应力和热量、水汽通量驱动下，对１９８６—１９８７厄尔尼诺（Ｅ１Ｎｉｎｏ）事件进行了数值模拟。各种变量场的时空结构及其演变表明，模式成功地模拟出１９８６—１９８７厄尔尼诺现象。始于１９８６年年中，赤道西太平洋的西风异常所推动的向东表层洋流不断向中、东太平洋输送暖水，至１１月份，大量暖水在日界线附近堆积，造成海面上升（达３２ｃｍ）和斜温层（用２０℃等温线深度表示）加深。１９８６年年底的强西风异常激发出赤道Ｋｅｌｖｉｎ波，并向赤道东太平洋和南美沿岸传播，使那里的斜温层加深和海面上升，且具有双峰结构；Ｋｅｌｖｉｎ波所伴随的垂直冷平流的减弱造成赤道中、东太平洋海表温度上升；１９８７年春季在中、东太平洋和南美沿岸地区存在强的正海表温度异常，并伴随着整个赤道太平洋斜温层东西方向变平、赤道潜流弱而中心位置变浅。厄尔尼诺相伴随的热带太平洋环流异常首先于１９８７年年中从东太平洋开始消失，而中、西太平洋则一直维持到１９８８年初。  相似文献   

近赤道海温对西太平洋副高强度的影响机理——模糊映射诊断   总被引：2，自引：1，他引：1       下载免费PDF全文

张韧  彭鹏  洪梅  黎鑫  余丹丹 《大气科学学报》2013,36(3):267-276

针对近赤道海温对西太平洋副高影响的复杂性和不确定性问题,引入自适应模糊推理系统方法,系统地分析了西太平洋副高强度对赤道东太平洋、赤道西太平洋和赤道印度洋等海区海温状况和冷暖变化的响应态势和响应程度。研究表明:副高对赤道东太平洋海温的变冷(增暖)过程将出现正距平的增强(减弱)响应,响应幅度随时间减弱(增强);副高对赤道印度洋海温增暖(变冷)的响应态势与对赤道东太平洋海温的响应态势相反,响应幅度远小于赤道东太平洋海温变化的响应幅度;副高对赤道西太平洋海温的增暖急缓表现出不同的响应态势,迅速增暖利于副高衰减,缓慢增暖则利于副高增强,而对于海温的变冷过程则有滞后的增强响应趋势。此外,上述海区的海温冷暖变化幅度和速度是导致副高变异的主要因素,较之海温基本热力状况对副高强度的影响更为显著。  相似文献   

对厄尔尼诺事件和海洋环流的数值模拟研究     

赵其庚  宋永加  彭淑英 《应用气象学报》1997,(Z1)

用太平洋海洋环流模式，模拟研究热带太平洋海温和环流的年际变化特征和机制．用观测的逐月风应力强迫模式，模拟１９７１～１９９５年发生的主要厄尔尼诺事件．说明风应力异常对厄尔尼诺生成起主要作用．对海温异常峰值附近３个月海温和洋流的综合分析表明：在厄尔尼诺事件时，１６０°Ｗ以西温跃层上升，以东温跃层下降，温跃层的东西倾斜显著变小．同时沿赤道的垂直环流圈减弱，中东赤道太平洋涌升流、海表层向西的赤道洋流和次表层向东的赤道潜流都减弱且厚度减小；在反厄尔尼诺时，情况则相反．  相似文献   

El Ni?o事件大气-洋流异常与暖海温传播机理研究     

张庆云  常蕊 《大气科学》2007,31(6):1160-1170

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?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?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?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?o事件强度偏强。（2）中部型El Ni?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?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?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。  相似文献   

利用自然振子方程研究赤道东太平洋海温演化的准非线性特征     

曹杰  琚建华  陶云云  谢应齐 《热带气象学报》2000,16(2):106-114

在前人利用时滞自然振子方程研究赤道东太平洋海温演变特征的基础上,根据实际观测资料,反演获得了描述赤道东太平洋海温演变的时滞自然振子方程,并根据反演获得的非线性时滞自然振子方程、摄动理论和微分方程稳定性理论研究了赤道东太平洋海温演变的准非线性特征,获得一些有意义的结论：①计算所得时滞τ＝１４,与理论分析所得的在研究区域中激发产生向西传播的Ｒｏｓｓｂｙ波到达太平洋西海岸后反射出向东传Ｋｅｌｖｉｎ波,此  相似文献   

超强厄尔尼诺事件海洋学特征分析与预测回顾   总被引：3，自引：1，他引：2  

任宏利  王润  翟盘茂  丁一汇  陆波 《气象学报》2017,75(1):1-18

2015/2016年厄尔尼诺事件被认为是一次与1982/1983和1997/1998年相当的超强事件。基于多套再分析数据,比较了此次事件的海洋上层变量主要特征与历史上两次超强事件的异同,并利用热带太平洋混合层热收支方程对主要物理过程进行了定量分析。研究认为,2015/2016年事件前期为异常高海温东传特征,且前期形成了一次弱的中太平洋型暖事件;但后期表现为弱西传特征,在成熟位相转换成东太平洋型强厄尔尼诺。此次事件中伴随着多次西风爆发事件和开尔文波东传,但赤道开尔文波在盛期基本维持在中东太平洋而不继续东传,赤道外罗斯贝波西传特征亦不明显。相比之下,此次事件在发展-成熟期前后的赤道“热容量放电”过程更加明显些。此次事件异常暖中心位置偏西,其主要原因很可能与赤道东太平洋的强东风异常和冷海水上翻,以及纬向洋流异常和次表层温度异常分布偏西有关;东边界冷水入侵,削弱赤道东太平洋海温异常程度,可能是此次事件位置偏西的直接原因。在海洋上层热量收支中,此次事件中温跃层反馈是促进海温升高和位相转换的最关键过程,纬向平流反馈项亦发挥了重要作用,两种过程共同形成了超强的升温幅度和偏西的异常暖海温分布型。中国国家气候中心新一代ENSO预测系统（SEMAP2.0）每年两次的实际会商预测中给出了较为合理的预测,特别是考虑前期海洋变化预报因子信息的统计模型更好地预测出了海温异常的波动演变状况,成为多方法集合（MME）的重要成员。   相似文献   

EL NINO AND THE ANOMALOUS CLIMATE IN CHINA     

Zhao Hanguang  Zhang Xiangong  Ding Yihui 《Acta Meteorologica Sinica》1989,3(4):471-481

The similar features of two El Nino(1982/83 and 1986/88)events in the formation and developmentprocess are revealed based on the analysis of the oceanic and atmospheric data in the present paper Forinstance,the timing of the warming onset and ending was late,the warming region first took place in theequatorial central Pacific,and the propagation of warming event is from west to east.Moreover,it is shownthat the two El Nino events both exerted a significant impact to the strength and the westward extension ofthe subtropical high over the Northwest Pacific.The atmospheric response to this SST anomaly was alsovery marked with the persistent PNA pattern observed in Pacific-North American region.Both events hadthe striking impact on the winter weather process and climate in China,but with considerable differences.On the basis of the analysis of all El Nino events in the recent 40 years,it has been found that the rainfallduring Meiyu period in Changjiang River Basin is associated with the season of El Nino onset.  相似文献   

How well do current climate models simulate two types of El Nino?     

Yoo-Geun Ham  Jong-Seong Kug 《Climate Dynamics》2012,39(1-2):383-398

In this study, we evaluate the fidelity of current climate models in simulating the two types of El Nino events using the pre-industrial output in CMIP3 archives. It is shown that a few climate models simulate the two types of El Nino events to some extent, while most of the models have serious systematic problems in simulating distinctive patterns of sea-surface temperature (SST) and precipitation anomaly associated with the two types of El Nino; that is, they tend to simulate a single type of El Nino. It is shown that the ability of climate models in simulating the two types of El Nino is related to the sensitivity of the atmospheric responses to the SST anomaly patterns. Models whose convective location is shifted to the east (west) as the SST anomaly center moves to the east (west) tends to simulate the two types of El Nino events successfully. On the other hand, models whose location of convective anomaly is confined over the western or central Pacific tends to simulate only the single type of El Nino event. It is also shown that the confinement of the convective anomaly over the western or central Pacific is closely linked to the dry bias and the associated cold bias over the eastern Pacific. That is, because positive El Nino SST anomalies over the eastern Pacific cannot increase local convection effectively when the total SSTs are still too cold due to a cold bias. This implies that the realistic simulation of climatology, especially over the equatorial eastern Pacific, is essential to the successful simulation of the two types of El Nino.  相似文献   

1997／1998年El Nino事件发生、发展可能机制的进一步研究     

岳彩军  陆维松 《南京气象学院学报》2009,32(4):513-521

基于美国哥伦比亚大学Lamont—Doherty地球观象台LDEO（Lamont—DohertyEarth Observatory）海表温度资料和NCEP／NCAR再分析风场资料,分析了1997／1998年El Nino3期间西太平洋暖池海表温度和西风距平的时间演变特征,同时也分析了东太平洋暖池海表温度和北风距平的时间演变特征。结果表明,1997／1998年El Nino3事件期间,西太平洋暖池海表温度变化及异常西风和东太平洋暖池海表温度变化及异常北风都与Nino3指数变化密切相关。将东、西太平洋暖池及异常北风、西风一并结合起来考虑,进一步研究了1997／1998年El Nino3事件发生、发展的可能机制：异常西风驱动西太平洋暖池东端暖水向东伸展直接有利于赤道东太平洋海表温度增加;异常西风激发东传的暖Kelvin波对东太平洋的冷上升流有抑制作用,从而有利于赤道东太平洋海表温度增加;东传的异常西风可以通过埃克曼漂流效应将赤道两侧的海表暖水向赤道辐合从而加强了赤道附近的下沉流,也有利于赤道东太平洋赤道附近海表温度增加。几乎与此同时,北风距平通过产生北风吹流将东太平洋暖池暖水由北向南输送至赤道附近直接导致Nino3区海表温度增加。上述增温因素的叠加作用共同导致了1997／1998年El Nino事件迅速发生、异常强大。  相似文献   

热带太平洋SSWA特征及其在ENSO循环中的演变   总被引：1，自引：0，他引：1  

张丰启  何金海 《气象科学》1998,18(3):222-230

应用1970年1月至1989年12月热带太平洋SSTA（海面温度距乎）和SSWA（海面风距平）资料,分析发现：热带太平洋SSWA的主要空间特征和海气耦合主要空间型均表现为ElNino（LaNina）盛期的SSWA分布。热带太平洋SS－WA的主要传播特征与ENSO循环过程中SSWA的演变是一致的,表现为赤道中东太平洋海面阻平东、西风的转换和赤道东太平洋SSWA辐散、辐合的转换。赤道中东太平洋距平东风（西风）向赤道距平西风（东风）的转换伴随着中西太平洋副热带SSWA偶极子气旋（反气旋）的生消,偶极子气旋（及气旋）表现为明显的北半球强于南半球。  相似文献   

VARIATIONS OF 30—60 DAY OSCILLATION IN ATMOSPHERE BEFORE AND DURING 1982 EL NINO^*     

Chen Longxun  Shao Yongning 《Acta Meteorologica Sinica》1991,5(4):397-410

By using the upper-wind data from July 1980 to June 1983,the variations of the low-frequency oscillation(LFO) in the atmosphere before and during 1982 El Nino have been investigated.Before the El Nino,the LFO propagates from west to east over the equator of the Eastern Hemisphere and from east to west over 20°N.The eastward propagating LFO over the equator consists of zonal wavenumber 1 propagating eastward and zonal wavenumber 2 with a character of stationary wave.The oscillation of zonal wavenumber 2 can modulate the oscillation strength.After the onset of the El Nino,the propagating directions of the LFO over the equator and 20°N of the Eastern Hemisphere change to be westward and eastward,respectively.The LFO over the western Pacific weakens rapidly and one coming from middle and high latitudes propagates to the equator.From the phase compositions of streamline fields for the zonal wavenumber 1 of equatorial westward propagatirg LFO,it is found that the atmospheric heat source in the equator of the eastern Pacific(EEP)excites a series of the equatorial cyclones and anticyclones which move northward and westward and form the westward propagating LFO over the equator.With the wavelength of 20000km,this kind of equatorial wave is similar to the mixing Rossby-gravity wave.In its westward and northward movement,the circulation in East Asia is modified.This may be the mechanism of the influence of El Nino on the climate of China.  相似文献   

AIR-SEA COUPLING FEATURES FROM THE WARM PHASE TO THE COLD PHASE OF ENSO CYCLES IN THE SEVENTIES TO THE EIGHTIES^*          下载免费PDF全文

Zhang Fengqi  He dinhai  Zhang Aihu  Cheng Yanjie 《Acta Meteorologica Sinica》1999,13(2):164-174

Using the sea surface temperature and wind anomalies(SSTA and SSWA for short) of the tropical Pacific from January 1970 to December 1989,main spatial patterns of tropical Pacific SSTA and SSWA coupling features in the transform course from the warm phase to the cold phase of El Nino-southern Oscillation(ENSO) cycles are discussed.The main conclusions are as follows:(1)air-sea coupling patterns at the mature stage of El Nino(La Nina) are main spatial ones of tropical Pacific SSWA and SSTA coupling:(2)at the mature stage of El Nino,the interaction of the anticyclonic anomaly wind,generated by the forcing of distinct meridional SSTA gradient in the Northern Hemisphere tropical central Pacific.with the California cold current and SSTA is mainly responsible for weakening of El Nino;(3)the second sea temperature increase along the South American coast in the decaying course of El Nino results from the eastward movement of the weakened positive SSTA in the tropical central-eastern Pacific forced by anomalous west wind stress:(4)La Nina results from the joint effect of Walker circulation,Ekman drift and negative SSTA in the tropical central-eastern Pacific.  相似文献   

三类厄尔尼诺事件对东亚大气环流及中国东部次年夏季降水的影响          下载免费PDF全文

李丽平  宋哲  吴楠 《大气科学学报》2015,38(6):753-765

利用全球海表温度(SST)资料、ONI(Oceanic Nino Index)序列以及中国160站逐月降水资料,研究了不同类型El Nino事件的主要特征及其对东亚大气环流及中国东部次年夏季逐月及季节降水的影响。结果表明:1)据El Nino事件期间SST最大正异常所在区域,将El Nino事件分为Nino3、Nino4和Nino3.4型。2)El Nino事件次年6月,Nino3型时降水显著正异常区主要位于鄱阳湖和洞庭湖流域,Nino4型时位于鄱阳湖流域、桂粤湘三省交界及广西西部,Nino3.4型时位于洞庭湖流域。7月Nino3型降水显著正异常区北移至长江流域,8月则呈西多东少反相分布。从次年6月至8月,Nino4型降水显著正异常区逐渐北移,Nino3.4型降水显著正异常区则从南到北再移向东北。3)在整个次年夏季,Nino3、Nino4和Nino3.4型降水显著正异常区在中国东部呈自南向北分布。无论逐月或季节降水,均是Nino4型降水正异常最强、Nino3.4型最弱。4)不同类型事件次年夏季和各月环流特征存在一定差异,总体而言,对于南亚高压,Nino3型、Nino4型事件后呈偏强、东伸和北抬的特点,且后者较前者时更强;Nino3.4型事件后主要呈减弱、西退特征。对于西太平洋副热带高压,Nino3型、Nino4型事件后主要呈偏强、西伸、北抬特征,后者较前者更强,西伸、北抬也更明显;Nino3.4型后,副高以东撤、北抬特征为主。  相似文献   

Distinguished Effects of Interannual Salinity Variability on the Development of the Central-Pacific El Nino Events          下载免费PDF全文

ZHENG Fei  WAN Li-Ying  WANG Hui 《大气和海洋科学快报》2012,5(2):123-127

El Nio events in the central equatorial Pacific (CP) are gaining increased attention,due to their increasing intensity within the global warming context.Various physical processes have been identified in the climate system that can be responsible for the modulation of El Nio,especially the effects of interannual salinity variability.In this work,a comprehensive data analysis is performed to illustrate the effects of interannual salinity variability using surface and subsurface salinity fields from the Met Office ENSEMBLES (EN3) quality controlled ocean dataset.It is demonstrated that during the developing phase of an El Nio event,a negative sea surface salinity (SSS) anomaly in the western-central basin acts to freshen the mixed layer (ML),decrease oceanic density in the upper ocean,and stabilize the upper layers.These related oceanic processes tend to reduce the vertical mixing and entrainment of subsurface water at the base of the ML,which further enhances the warm sea surface temperature (SST) anomalies associated with the El Nio event.However,the effects of interannually variable salinity are much more significant during the CP-El Nio than during the eastern Pacific (EP) El Nio,indicating that the salinity effect might be an important contributor to the development of CP-El Nio events.  相似文献   

The propagation characteristics of interannual low-frequency oscillations in the tropical air-sea system     

Yan Jinghu  Chen Longxun  Wang Gu 《大气科学进展》1988,5(4):405-420

The time series of sea surface temperature (SST), sea level pressure (SLP), zonal wind (U) and total cloudiness (CA), for the period of 1950-1979, over a 8o×8o grid-point latitudinal belt between 32oS and 32oN are made from COADS (Comprehensive Ocean-Atmosphere Data Set). The time harmonic analysis and power spectra analysis show that there exist quasi-biennial oscillation (QBO), three and half years oscillation (SO), five and half years oscillation (FYO) and eleven years oscillation (EYO) in these time series. The main propagation characteristics of these interannual low-frequency oscillations are as follows:(1) The variance analysis of SST shows that there is an active region of QBO and SO (with maximum variance), coming from the southwestern part of the subtropical Pacific, stretching eastward up to the west coast of South America, and then northward to the eastern equatorial Pacific. The QBO and SO disturbances of SST follow the same route and cause the anomaly of SST (El Nino and period of cold water) in the eastern equatorial Pacific.(2) Either the QBO or SO of SST can cause El Nino events, although it is easier when they are situated in the same phase of warm water at the eastern equatorial Pacific. The FYO of SST seems to be a standing oscillation. It plays an important role on the formation of strong El Nino events or strong cold water events.(3) The QBO and SO of U propagate eastward along the equator. The origin of QBO and SO may at least be traced as far as the western Indian Ocean. While they propagate along the equator, it strengthens two times at 90oE and the western Pacific, respectively. Like SST, the FYO of U is somehow a standing oscillation.(4) The Oscillations of U have a good coupling relationship with those of SST, while they propagate. When the QBO and SO of SST move to the east side of the eastern equatorial Pacific, it is the time for the QBO and SO of U to enter into the east part of the western Pacific.It is clear that, when we do research work on the formation of El Nino events, our consideration would not be confined to the tropics, it should cover the subtropical region in the southern Pacific. The features of the circulation and other oceanic states in this area are very important to the El Nino events.  相似文献   

Warming in the Northwestern Indian Ocean Associated with the El Nio Event     

YUAN Yuan ZHOU Wen  YANG Hui  and LI Chongyin State Key Laboratory of Numerical Modeling for Atmospheric Sciences  Geophysical Fluid Dynamics 《大气科学进展》2008,(2)

This paper investigates possible warming effects of an El Nino event on the sea surface temperature anomaly (SSTA) in the northwestern Indian Ocean. Most pure positive Indian Ocean dipole (IOD) events (without an El Nino event co-occurring) have a maximum positive SSTA mainly in the central Indian Ocean south of the equator, while most co-occurrences with an El Nino event exhibit a northwest-southeast typical dipole mode. It is therefore inferred that warming in the northwestern Indian Ocean is closely related to the El Nino event. Based on the atmospheric bridge theory, warming in the northwestern Indian Ocean during co-occurring cases may be primarily caused by relatively less latent heat loss from the ocean due to reduced wind speed. The deepened thermocline also contributes to the warming along the east coast of Africa through the suppressed upwelling of the cold water. Therefore, the El Nino event is suggested to have a modulating effect on the structure of the dipole mode in the tropical Indian Ocean.  相似文献