夏季东亚西风急流扰动异常与副热带高压关系研究

利用1979—2003年NCEP/NCAR月平均再分析资料, 探讨夏季 (6—8月) 200 hPa东亚西风急流扰动异常与南亚高压和西太平洋副热带高压的关系。研究指出:夏季200 hPa东亚西风急流扰动动能加强 (减弱), 东亚西风急流位置偏南 (偏北)、强度偏强 (偏弱); 东亚西风急流扰动动能强弱不仅与北半球西风急流强弱和沿急流的定常扰动有关, 而且还与东亚地区高、中、低纬南北向的扰动波列有关, 亚洲地区是北半球中纬度环球带状波列异常最大的区域。夏季200 hPa东亚西风急流扰动动能加强 (减弱), 南亚高压的特征为位置偏东 (偏西)、强度加强 (减弱); 西太平洋副热带高压的特征为位置偏南 (偏北)。东亚环流特别是500 hPa西太平洋副热带高压对东亚西风带扰动异常的响应由高空东亚西风急流南侧的散度场及其对流层中下层热带和副热带地区的垂直速度距平场变化完成。     

2005年江淮流域入梅偏晚的成因分析

2005年是江淮流域入梅偏晚年。利用NCEP／NCAR再分析资料、OLR资料和江苏省气象台提供的2005年逐日降水资料，对2005年江淮流域入梅前的异常环流形势进行分析，探讨了西太平洋副热带高压和低层中高纬冷空气的活动异常与东亚大槽、中西太平洋ITCZ以及东亚副热带高空西风急流等活动异常的关系。结果表明，入梅前，东亚大槽发展强盛，ITCZ偏弱以及东亚副热带高空西风急流强劲少动导致西太平洋副热带高压北抬偏晚。同时，东亚副热带高空西风急流的强劲少动也使南下冷空气势力强劲，中低层副热带锋区偏南，抑制了暖湿的东亚夏季风向江淮流域推进。东亚副热带高空西风急流和西太平洋副热带高压向北突跳偏晚是江淮流域2005年入梅偏晚的主要原因。     

东亚高空急流协同变化对冬季欧亚遥相关型气候效应的影响

利用NCEP/NCAR再分析资料和我国地面735站气温和降水资料,首先分析了欧亚遥相关型的时间演变和结构特征,在此基础上探讨了欧亚遥相关型不同位相时东亚大气环流的差异,并进一步研究了欧亚遥相关型影响我国冬季气温和降水过程中东亚高空急流的重要作用。从结构上看,欧亚遥相关型位势高度异常中心位于250 hPa高度,表现出准正压的结构。欧亚遥相关型位于正位相时,东亚温带急流强度偏弱且位置向北移动;副热带急流强度偏强,两支急流在45°N附近有明显分界;西伯利亚高压和阿留申低压强度增强;东亚大槽加深,槽线倾斜不明显。负位相时则相反。欧亚遥相关型与东亚高空急流的联系是其影响我国气温降水的重要原因。正欧亚遥相关型时,偏弱的温带急流区较强的北风分量有利于北方冷空气南下,从而造成我国气温偏低;偏强的副热带急流区增强的南风将副热带地区暖湿空气向北输送,两支急流协同变化,影响我国冬季降水异常的分布。去掉温带急流或副热带急流偏强的年份,欧亚遥相关型与我国温度、降水的相关性显著减弱,说明欧亚遥相关型是通过东亚高空急流协同变化的桥梁,对我国温度和降水异常产生影响。进一步研究发现,欧亚遥相关型与副热带急流的关系不如其与温带急流稳定,导致在欧亚遥相关型同一位相时东亚高空急流存在两种不同的配置,这种高空急流配置的不唯一性使得东亚高空急流能对欧亚遥相关型的气候效应起到调控作用。     

中高纬度Rossby波活动对华南前汛期EAP事件中期演变过程的影响

文中从中期过程的角度探讨了Rossby波活动在华南前汛期东亚-太平洋遥相关型事件的形成、成熟和衰减过程中的作用,并得出如下结果:(1)正负东亚-太平洋遥相关型事件的形成过程有相似之处:在对流层中上层,源自东北大西洋或欧洲的Rossby波在欧亚大陆中高纬弱波导区中不断地向下游频散,最终在东亚地区形成东亚-太平洋遥相关型事件的3个异常中心。在东亚-太平洋遥相关型事件的3个异常中心之间,Rossby波能量从高纬度向中纬度和副热带地区频散。东亚-太平洋遥相关型事件副热带异常中心的形成归因于东亚副热带急流波导的存在以及上游中高纬度地区Rossby波能量的注入。在对流层低层,Rossby波则从亚洲副热带地区向东亚中纬度地区频散。(2)东亚-太平洋遥相关型事件的3个异常中心在对流层中上层中,西太平洋副热带地区异常中心最后形成。(3)正负东亚-太平洋遥相关型事件也并不是简单的反位相演变过程:在对流层中上层,在正事件成熟阶段,斯堪的纳维亚半岛上的正异常环流基本维持了其中心强度和位置,它不断地向下游东亚地区频散能量,使正事件的持续时间较长;在负事件中,由于中高纬度盛行纬向型环流,波能量的频散较快,因而负事件成熟阶段的持续时间比正事件短。(4)在这一时期,东亚-太平洋遥相关型事件对中国长江以南地区的降水形势具有显著的影响。正(负)东亚-太平洋遥相关型事件易引起长江以南降水异常偏多(少)。     

夏季东亚高空西风急流气候特征分析

利用NCEP/NCAR全球再分析风场资料定义了西风急流强度指数和位置指数,然后利用EOF方法对西风急流进行了进一步的分析,分析了高空西风急流的空间分布特征,从强度和位置两方面分析了西风急流与东亚环流及其与海温的关系。分析表明： EOF第一模态反映了东亚高空急流的位置指数,第二模态反映了高空急流的强度指数。东亚高空急流与对流层大气环流包括南亚高压,西太平洋副热带高压,东亚夏季风存在着密切关系,其气候变化与热带副热带东太平洋、印度洋海温密切相关。     

2007年鹤岗夏季干旱成因分析

通过对西太平洋副热带高压活动、中纬度高空环流形势特征场、天气系统演变及地形特点分析得出:西太平洋副热带高压偏南、偏西,抑制了西南暖湿气流北上;中高纬环流平直,冷空气南下受到遏制;东亚大槽偏深,额海高压和日本海高压始终没建立起来,对进入黑龙江省的冷空气形成不了阻塞作用,大多数系统直接减弱入海;鹤岗位于小兴安岭余脉东坡,较弱的西来系统没有西南气流补充水汽和能量,降水明显减弱或根本不产生降水等不利因素均与2007年鹤岗夏季严重干旱少雨天气密切相关.     

夏季亚洲—太平洋涛动与大气环流和季风降水

利用ERA-40再分析资料和数值模拟,分析了在亚洲-太平洋区域的大气遥相关以及与亚洲季风降水和西北太平洋热带气旋活动气候特征的关系,探讨了青藏高原加热和太平洋海表温度(SST)对遥相关的影响,结果表明:亚洲-太平洋涛动(Asian-Pacific Oscillation,APO)是夏季对流层扰动温度在亚洲与太平洋中纬度之间的一种"跷跷板"现象,当亚洲大陆中纬度对流层偏冷时,中、东太平洋中纬度对流层偏暖,反之亦然;这种遥相关也出现在平流层中,只是其位相与对流层的相反.APO为研究亚洲与太平洋大气环流相互作用提供了一个途径.APO指数也是亚洲-太平洋对流层热力差异指数,它具有年际和年代际的多时间尺度变化特征,在1958-2001年亚洲与太平洋之间的对流层热力差异呈现出减弱趋势,同时也有显著的5.5 a周期.APO形成可能与太阳辐射在亚洲陆地和太平洋的加热差异所造成的纬向垂直环流有关,数值模拟进一步表明:夏季青藏高原加热可以造成高原附近对流层温度升高、上升运动加强,太平洋下沉运动加强、温度下降,从而形成APO现象;而太平洋年代际涛动和赤道东太平洋的厄尔尼若现象对APO的影响可能较小.当夏季APO异常时,南亚高压、欧亚中纬度西风急流、南亚热带东风急流以及太平洋上空的副热带高压都出现显著变化,并伴随着亚洲季风降水及西北太平洋热带气旋活动异常.过去40多年来的长江中上游地区夏季变冷与APO有关,可能是全球大气环流年代际变化在该区域的一种反映.APO异常信号可以传播到南、北两极.此外,亚洲-太平洋之间的这种遥相关型也出现在其他季节.     

夏季南亚高压与西太平洋副热带高压的相关性分析

利用1951—2010年NCEP/NCAR再分析月平均资料研究夏季南亚高压与西太平洋副热带高压(简称西太副高)的相关性。结果发现,夏季南亚高压与西太副高的联系密切,年际尺度上强度指数之间的显著正相关关系相对稳定,两者同时偏强(简称同强)与同时偏弱(简称同弱)的模态超过70%。当南亚高压与西太副高同强(同弱)时,西风急流偏强(偏弱),高纬度地区大气环流呈经向(纬向)型,太平洋EAP遥相关为正(负)位相。贯穿对流层中上层的中纬度纬向西风与高压强度异常有密切的联系,西风急流可作为中纬度地区连接两者作用的纽带。青藏高原与太平洋地区对流层的温度差异分布对当地的环流系统造成很大影响,高原热力异常和海温异常联系着高压系统的演变。南亚高压、西太副高的异常影响了整体东亚大气环流的配置,是了解不同纬度系统相互作用的又一着眼点。     

热带西太平洋暖池的热状态及其上空的对流活动对东亚夏季气候异常的影响

本文利用１９７８－１９８９年热带西太平洋暖池的表层与次表?层海温、高云量与降水等观测资料分析了热带西太平洋暖池的热状态及其上空的对流活动对东亚夏季气候异常的影响。分析结果表明：热带西太平洋暖池的热状态及其上空的对流活动对东亚夏季气候异常起着十分重要的作用。当热带西太平洋暖池增暖时，从菲律宾周围经南海到中印半岛上空的对流活动将增强，西太平洋副热带高压的位置偏北，我国江淮流域夏季降水偏少；反之，则菲律宾周围的对流活动减弱，副热带高压偏南，江淮流域的降水偏多，黄河流域的降水偏少，易发生干旱。观测事实还表明，当热带西太平洋暖池上空的对流增强后，从东南亚、经东亚到北美西海岸上空大气环流的异常呈现出一个遥相关型—东亚太平洋型。     

对流层上层副热带西风急流与东亚冬季风的关系

利用NCEP/NCAR月平均再分析资料,研究冬季对流层上层西风急流的时空变化特征,提出表征急流强度和位置变化的指数,进而探讨西风急流与东亚冬季风的关系。结果表明:冬季西风急流强度指数体现了西太平洋与高纬大陆的热力对比,较好地反映了西伯利亚高压与阿留申低压的强度变化,可作为表征冬季风强弱变化的一个定量指标,急流增强(减弱)对应西伯利亚冷高压和阿留申低压加强(减弱),东亚冬季风偏强(弱)。急流强度指数与不同高度冬季风子系统的显著相关表明,东亚冬季风活动异常不只是对流层中低层的现象,而在整个对流层都有明显反映,低层的西伯利亚高压和阿留申低压、中层的欧亚脊、东亚大槽及西太平洋副热带高压与高层的西风急流是同相变化的。在此基础上还比较了急流强度指数和北极涛动指数(AO)与东亚冬季风的关系,急流强度变化体现了欧亚大陆与西太平洋的热力差异,而AO则主要反映极地与中纬度环状模的反相变化,所以急流强度变化与东亚冬季风的关系更为密切。     

东亚夏季PJ遥相关型的年际及年代际变化机理

利用夏季东亚地区500 h Pa高度场和菲律宾附近的降水场进行SVD分析,将东亚500 h Pa高度场对应的时间序列定义为PJ指数,该指数不仅清楚地反映PJ型的年际变化,而且反应出PJ型的年代际变化,即500 h Pa高度场型态在20世纪70年代末由"气旋、反气旋、气旋"型突变为"反气旋、气旋、反气旋"型。本文研究表明PJ指数的年际变化与ENSO事件有密切的联系:El Ni1o事件通过电容器充电效应使印度洋海温增暖,而增暖的印度洋海温在菲律宾海附近强迫出异常反气旋,并沿东亚沿岸激发出PJ遥相关型。而PJ型态的年代际变化与热带印度洋SST的持续增暖有关。虽然许多学者认为是菲律宾附近海温异常引起对流异常,并沿东亚沿岸激发出PJ遥相关型,但我们认为该区域的海温变化并不是造成PJ型年际和年代际变化的原因,而是由于该区域有反气旋(或者气旋)异常,从而辐射增加(减少),蒸发减弱(增加),温跃层下降(上升),SST变暖(变冷),该区域的海温变暖意味着对流是减弱的。本文进一步利用大气环流模式ECHAM5.4进行数值试验,结果表明:当热带印度洋增暖时,在菲律宾海附近强迫出反气旋,并沿东亚激发出"反气旋、气旋、反气旋"PJ遥相关型。     

South-coast cyclone in Japan during El Niño-caused warm winters

La Niña conditions during boreal winter sometimes brings excessive snowfall in Japan, especially on the East Sea/Sea of Japan coastal and mountain areas through intensified northwesterly cold winds caused by La-Niña related atmospheric teleconnection. Meanwhile, snowfall events also increase in the Pacific coast area of Japan during the El Niño state due to extratropical cyclones passing along the south coast of Japan (hereafter referred to as South-coast cyclone). In the present study, we investigated year-to-year snowfall/rainfall variations based on meteorological station data and cyclone tracks identified by using the Japanese 55-year Reanalysis. The result clearly indicates increase of the South-coast cyclone during El Niño-developing winters, which is consistent with excessive snow-fall in the northern part of the Pacific coast. Strong subtropical jet hampers cyclogenesis due to less vertical interaction through the trapping of upper-level eddies. During El Niño-developing winters, the subtropical jet is weakened over East Asia, indicating dynamic linkage to increased cyclone frequency. In addition to this, both the deepening of the upper-tropospheric trough over East Asia and anomalous low-tropospheric northwest anticyclones extending from the Philippines toward Japan are also consistent with the enhancement of cyclogenesis over the East China Sea as well as warm winter in Japan.     

Diagnostic Comparison of Wintertime East Asian Subtropical Jet and Polar-Front Jet: Large-Scale Characteristics and Transient Eddy Activities

Diagnostic comparison of the East Asian subtropical jet (EASJ) and polar-front jet (EAPJ) in winter season is carried out by using the ERA-40 dataset. The large-scale circulation characteristics and synopticscale transient eddy activities (STEAs) associated with the EASJ and EAPJ are examined. The results show that the EASJ and EAPJ in the upper-level monthly mean data have no clear geographical border, while the distribution of the numbers of jet cores from the daily data exhibits a distinct boundary at the latitudes of the northern Tibetan Plateau. The two areas with large numbers of jet cores correspond to the EASJ and EAPJ regions. The analysis of STEAs over the East Asian region shows a spatial match of STEAs with the EASJ and EAPJ in winter: the strong EASJ is located within the weak southern branch of the STEA while the relatively weak EAPJ appears within the active northern branch of the STEA, indicating that the EAPJ is the jet coexisting with the STEA. Further analysis shows two anomalous modes of the winter EAPJ: the anomalous anticyclonic/cyclonic circulation and the weakened/strengthened local westerly wind. The large-scale circulation anomalies in the Northern Hemisphere related to the first mode are concentrated in the Eurasian mid to high latitudes, and are also influenced by the anomalous circulation in the upstream area. When the local westerly wind over the EAPJ region is weakened/strengthened, the westerly jet in the eastern part of the EASJ and that in the western Pacific region show opposite variations. The corresponding anomalous atmospheric circulation demonstrates the Eurasian (EU) pattern. The EAPJ anomalies are also closely linked with the STEA anomalies over East Asia. The anomalies in the northern branch of the STEA propagate as a wave train along its axis into the East Asian coastal waters, and then migrate eastward to the oceanic region. However, the ones near the southern branch are trapped over the eastern part of East Asia and its coastal waters at 200 hPa.     

Numerical simulation of the relationship between the anomaly of subtropical high over East Asia and the convective activities in the western tropical Pacific

In this paper, a close relationship between the intraseasonal variation of subtropical high over East Asia and the convective activities around the South China Sea and the Philippines is analysed from OLR data.This relationship is studied by using the theory of wave propagating in a slowly varying medium and by using a quasi-geostrophic linear, spherical model and the IAP-GCM, respectively. The results show that when the SST is warming around the western tropical Pacific or the Philippines, the convective activities are intensified around the Philippines. As a consequence, the subtropical high will be intensified over East Asia. The computed results also show that when the anomaly of connective activities are caused around the Philippines, a teleconnection pattern of circulation anomalies will be caused over South Asia, East Asia and North America.     

Mechanism Study of Tropical Cyclone Impact on East Asian Subtropical Upper-Level Jet: a Numerical Case Investigation

In the case study of this paper, sensitivity experiments are carried out using the mesoscale non-hydrostatic Weather Research and Forecasting (WRF) model to investigate the impact of tropical cyclone (TC) Soudelor (2003) on the East Asian subtropical upper-level jet (EASJ) before TC Soudelor transformed into an extratropical cyclone. The physical mechanism for changes in the EASJ intensity and position caused by TC Soudelor is explored. Results indicate that TC Soudelor would warm the air in the middle and upper troposphere over the Japan Sea and the adjacent areas through stimulating northward propagating teleconnection pattern as well as releasing large amounts of latent heat, which led to increase (decrease) the meridional air temperature gradient to the south (north) below the EASJ axis. As a result, the geopotential height abnormally increased in the upper troposphere, resulting in an anomalous anticyclonic circulation belt along the EASJ axis. Correspondingly, the westerly winds to the north (south) of the EASJ axis intensified (weakened) and the EASJ axis shifted northward by one degree. The case study also suggests that before the extratropical cyclone transition of TC Soudelor, the TC activities had exerted significant impacts on the EASJ through thermodynamic processes.     

2016年秋季中国南方降水异常的环流特征及海温影响

本文利用中国气象台站观测降水、英国Hadley中心海温和NCEP/NCAR再分析数据集等资料,研究了2016年秋季中国南方降水异常偏多的环流特征及其海温影响。结果表明,2016年秋季东亚副热带西风急流偏强,我国南方地区位于急流入口区的右侧,有利于产生上升运动;同时西太平洋副热带高压强度偏强、面积偏大、位置偏北偏西,对应副高西南侧的东南风将热带太平洋的暖湿气流向我国南方输送,有利于降水偏多。另外,2016年秋季登陆我国的台风异常偏多,频繁活动的台风给我国南方带来了大量降水,也是导致我国南方降水异常偏多的原因之一。进一步研究表明,2016年秋季南方降水异常偏多主要与同期赤道西太平洋和东南太平洋海温异常偏高有关,上述海区的海温异常通过激发向下游传播的遥相关波列或通过Gill响应对东亚环流产生影响,进而有利于中国南方降水增多。通过CAM5.3（Community Atmosphere Model Version 5.3）一系列的敏感性试验,验证了上述的结果。     

东亚-太平洋遥相关型形成过程与ENSO盛期海温关系的研究

利用1961～2000年NCEP/NCAR再分析资料、扩展重建的海表温度资料(ERSST)和中国730个站旬降水资料,采用SVD和扩展SVD（ESVD）分析、合成分析、相关分析等方法,在分析中国梅雨期降水与同期大气环流和前期冬季海温之间关系的基础上,研究了ENSO盛期海温异常导致与长江流域梅雨期降水密切相关的东亚/太平洋（EAP）遥相关型形成的过程,及与ENSO相关的海温和大气环流异常的持续性问题。结果表明,梅雨期EAP遥相关型的出现与ENSO遥强迫作用有密切关系。联系冬季ENSO和梅雨期EAP遥相关型的关键过程主要有三个:（1）西北太平洋低纬地区异常反气旋环流的形成和维持, 它在冬季形成后一直可维持到夏季,使得夏季西北太平洋副热带高压偏南偏强;（2）东亚大槽持续偏弱,冷空气活动路径偏北偏东,使西北太平洋海温呈亲潮区偏冷、黑潮区偏暖的海温分布; （3）PNA遥相关型的持续发展,使北冰洋地区高度增高。后二者通过局地海气相互作用和大气内部调整过程对初夏鄂霍次克海阻塞形势的形成起重要作用。另外,持续性分析表明,ENSO年大气环流和海温距平型的持续性要比非ENSO年大得多。在ENSO年大气环流和海温之间存在很强的相互作用耦合关系,ENSO引起的大气环流异常可导致太平洋海温异常,而海温异常一旦形成反过来又可导致大气环流异常的稳定和维持,对后期初夏东亚季风和我国天气气候产生明显滞后效应。     

Impacts of the leading modes of tropical Indian Ocean sea surface temperature anomaly on sub-seasonal evolution of the circulation and rainfall over East Asia during boreal spring and summer

The two leading modes of the interannual variability of the tropical Indian Ocean (TIO) sea surface temperature (SST) anomaly are the Indian Ocean basin mode (IOBM) and the Indian Ocean dipole mode (IODM) from March to August. In this paper, the relationship between the TIO SST anomaly and the sub-seasonal evolution of the circulation and rainfall over East Asia during boreal spring and summer is investigated by using correlation analysis and composite analysis based on multi-source observation data from 1979 to 2013, together with numerical simulations from an atmospheric general circulation model. The results indicate that the impacts of the IOBM on the circulation and rainfall over East Asia vary remarkably from spring to summer. The anomalous anticyclone over the tropical Northwest Pacific induced by the warm IOBM is closely linked with the Pacific–Japan or East Asia–Pacific teleconnection pattern, which persists from March to August. In the upper troposphere over East Asia, the warm phase of the IOBM generates a significant anticyclonic response from March to May. In June and July, however, the circulation response is characterized by enhanced subtropical westerly flow. A distinct anomalous cyclone is found in August. Overall, the IOBM can exert significant influence on the western North Pacific subtropical high, the South Asian high, and the East Asian jet, which collectively modulate the precipitation anomaly over East Asia. In contrast, the effects of the IODM on the climate anomaly over East Asia are relatively weak in boreal spring and summer. Therefore, studying the impacts of the TIO SST anomaly on the climate anomaly in East Asia should take full account of the different sub-seasonal response during boreal spring and summer.     

El Ni?o衰减年夏季西太平洋副热带高压的季节内变化

本文分析了El Ni?o衰减年夏季西太平洋副热带高压（副高）的季节内变化,发现其季节内变化存在两种模态,一种是6～8月的一致偏西,另一种是6～7月偏西,而8月逆转为偏东,其中偏西模态的异常要远大于偏东模态。对偏西模态而言,由于热带北大西洋海温正异常的强迫影响,激发出一个从北大西洋经过欧亚大陆高纬度到东亚的遥相关,抑制了暖池地区的对流,东亚地区位势高度增加,从而导致副高加强西伸。在偏东模态下,热带印度洋海温异常演变与偏西模态类似,但强度偏低,同时热带北大西洋海温正异常在4月达到峰值后衰减,导致两大洋对8月暖池地区对流的抑制作用减弱。此外,由于6～7月暖池海温持续升高,在局地海气相互作用下,8月暖池对流发展,位势高度场降低,从而造成副高减弱东退。因此,副高8月异常主要取决于热带北大西洋海温异常。在预测El Ni?o 衰减年副高异常变化时,要综合考虑两大洋海温异常的影响。     

The Record-breaking Mei-yu in 2020 and Associated Atmospheric Circulation and Tropical SST Anomalies※

The record-breaking mei-yu in the Yangtze-Huaihe River valley (YHRV) in 2020 was characterized by an early onset, a delayed retreat, a long duration, a wide meridional rainbelt, abundant precipitation, and frequent heavy rainstorm processes. It is noted that the East Asian monsoon circulation system presented a significant quasi-biweekly oscillation (QBWO) during the mei-yu season of 2020 that was associated with the onset and retreat of mei-yu, a northward shift and stagnation of the rainbelt, and the occurrence and persistence of heavy rainstorm processes. Correspondingly, during the mei-yu season, the monsoon circulation subsystems, including the western Pacific subtropical high (WPSH), the upper-level East Asian westerly jet, and the low-level southwesterly jet, experienced periodic oscillations linked with the QBWO. Most notably, the repeated establishment of a large southerly center, with relatively stable latitude, led to moisture convergence and ascent which was observed to develop repeatedly. This was accompanied by a long-term duration of the mei-yu rainfall in the YHRV and frequent occurrences of rainstorm processes. Moreover, two blocking highs were present in the middle to high latitudes over Eurasia, and a trough along the East Asian coast was also active, which allowed cold air intrusions to move southward through the northwestern and/or northeastern paths. The cold air frequently merged with the warm and moist air from the low latitudes resulting in low-level convergence over the YHRV. The persistent warming in the tropical Indian Ocean is found to be an important external contributor to an EAP/PJ-like teleconnection pattern over East Asia along with an intensified and southerly displaced WPSH, which was observed to be favorable for excessive rainfall over YHRV.