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1.
我国西南地区秋季干湿分类及主要类型
异常年环流特征分析 总被引:3,自引:1,他引:2
本文使用我国西南地区97站1960~2009年逐日资料,计算了考虑降水和气温的干湿指数,分析了西南地区秋季及9、10、11月干湿指数的时空变化特征。采用相似方法,构造了综合相似指数,对历年干湿分布进行分类,并给出了秋季各月各类干湿出现的概率。此外还使用再分析资料分月探讨了干湿分布主要类型异常年的大气环流特征。分析结果表明:西南地区秋季存在显著的干旱化趋势,且该地区干湿变化存在全区一致、东西相反和南北相反的特征。根据干湿变化主要模态的空间型,利用综合相似指数可以将历年秋季干湿分为全区一致偏干型、全区一致偏湿型、东湿西干型、东干西湿型、南湿北干型、南干北湿型和非典型型,共7类。全区干湿一致型出现的次数最多(不低于50%),东西相反型次之(约25%),南北相反型较少(约15%),而出现非典型型次数极少(不足10%)。从季节内尺度来看,全区偏干(湿)的持续性较差,但10月份的东部偏湿区域则有较大几率(不低于50%)在下个月扩展到整个区域。全区偏干型异常年,东亚大槽偏弱或偏东,冷空气南侵困难;南海上空低层维持一个异常的气旋环流,西南地区暖湿气流输送偏弱;西太平洋副高偏强、西伸,南亚高压面积偏大,与西太副高重叠,西南地区长期受高压控制。这种异常环流形势的维持,使得该地区天气晴朗少雨,气温偏高,持续干旱。偏湿型异常年则基本呈相反的环流特征。而西南地区东、西部上空异常的垂直运动和东部低层的南、北风异常是造成东湿(干)西干(湿)型异常的重要原因。 相似文献
2.
ENSO及其组合模态对中国东部各季节降水的影响 总被引:7,自引:1,他引:6
近期的研究发现,热带太平洋低层大气存在两种主要模态,即经向对称ENSO模态和ENSO与海表温度(SST)年循环相互作用产生的经向反对称组合模态。主要探讨了这两种不同ENSO模态对中国东部各季节降水的影响。结果表明,厄尔尼诺年秋季,中国西南、长江及华南大部分区域呈现显著正降水异常;冬季,正降水异常范围扩大,覆盖华南、华东及华北东南部地区。这两个季节的异常降水都主要受ENSO模态的影响。与ENSO模态相关的正异常海温局地强迫导致120°E以西出现反气旋性环流,其西北侧增强的西南暖湿气流使得中国东部地区降水增多。次年春季,从中国华南延伸到东北出现正的异常降水,主要是ENSO组合模态的贡献。因为次年春季热带太平洋地区ENSO模态信号只局限于赤道地区,并没有对中国东部降水有显著的影响,而ENSO与海温年循环相互作用的组合模态使得与ENSO相关的赤道大气异常可以扩展到赤道以外地区。ENSO组合模态对中国降水异常有重要影响,在今后的研究和短期预测中需引起重视。 相似文献
3.
采用国家气候中心整理的全国160站月平均气温资料、NCEP/NCAR再分析资料及NOAA全球海温资料,在探讨1986年以来中国冬季气温异常机理基础上,对2011/2012年冬季气温异常特征及其前兆信号进行分析。结果表明:地面西伯利亚高压、东亚冬季风及500 hPa乌拉尔山与贝加尔湖南侧的异常环流等系统是影响中国冬季气温的主要中高纬环流系统,而中低纬环流系统主要包括西太平洋副高环流和印缅槽。前期热带印度洋和中东太平洋关键区海温异常与后期冬季气温关联的环流系统有密切的关系:前期夏季7、8月西印度洋海温偏高时,冬季西伯利亚高压将偏强,有利于冬季风偏强和中国冬季气温偏低;而当8—10月中东太平洋海温偏高时,西太平洋副高将偏强偏大偏西,北界位置偏北,印缅槽偏强,中国气温容易偏高,反之亦然。两者对后期环流的影响存在一定的独立性,中国冬季地面气温异常是它们共同作用的结果。 相似文献
4.
Using OLR and 850 hPa and 200 hPa wind fields data (1979 – 2006), this paper diagnoses the
characteristics of convection over the tropical area in preceding autumns and winters in association with
April precipitation anomalies in Shandong province. It is found that preceding convection anomalies over
the Western Pacific Warm Pool in December have close relationships with the April precipitation in
Shandong. Further analysis of the relationship with the general circulation over the East Asia shows that
the convection anomaly over the Western Pacific Warm Pool has close relationships with the Main East
Asian Trough, the Hadley cell over East Asia and the Walker cell. The characteristics of East Asian
atmospheric circulation anomalies accompanied with stronger (weaker) convection are consistent with
those of less (more) April precipitation anomalies in Shandong. Therefore, the convection anomaly over the
tropics in December may be an important indicator for April precipitation in Shandong. 相似文献
5.
采用1961—2014年逐月全球标准化降水蒸散指数(Standardized Precipitation Evapotranspiration Index,SPEI)数据集、ORA-S4海温资料及NCEP/NCAR再分析资料,对华南地区秋季干旱的年代际转折及其与热带印度洋热含量的关系进行了研究。结果表明:华南秋季SPEI主要表现为全区一致变化型,且具有明显的年代际变化特征,在1988年发生了年代际转折,转折后(前)为偏旱(涝)期。进一步分析表明,华南秋季SPEI与同期热带西印度洋海洋热含量变化呈显著的正相关关系,即当秋季热带西印度洋热含量偏低时,华南地区SPEI偏小,易发生干旱。热带西印度洋热含量异常影响华南秋季干旱的可能机制为:秋季热带印度洋热含量变化表现为""型的东西向偶极子分布,即当热带西印度洋热含量偏低时,热带东印度洋热含量将会偏高;而热带东印度洋热含量偏高将会使热带东印度洋—西太平洋海表温度偏高、外逸长波辐射偏小、降水增多,凝结潜热释放增强,产生偏强的东亚Hadley环流,使华南地区存在异常下沉运动,不利于产生降水;热带东印度洋—西太平洋海表温度偏高,还会使西北太平洋副热带高压位置偏西、面积偏大,西北太平洋存在气旋性环流异常,使华南地区受偏北气流异常控制,从而削弱了向华南地区的水汽输送。热带东印度洋—西太平洋海表温度年代际变化是热带西印度洋热含量异常影响华南秋旱年代际变化的重要环节,因此用NCAR CAM5.1全球大气环流模式进行了热带东印度洋—西太平洋海表温度年代际变化的敏感性试验,证实该区海表温度年代际升高对华南秋季年代际干旱具有重要作用。 相似文献
6.
利用1961—2017年中国地面观测站日降水资料、全球大气多要素和海表温度月资料,分析华南区域持续性强降水过程的气候特征,诊断并比较与华南前汛期、后汛期区域持续性强降水年际变化相关的大气环流和海表温度异常特征。结果表明,3—12月华南都可能出现持续性强降水过程,其中汛期4—9月的占了94.4%。伴随着区域持续性强降水的年际变化,华南本地垂直上升运动显著异常是前汛期和后汛期的共同点,但前汛期、后汛期在华南及周边环流异常、水汽输送来源以及海温异常分布等方面都存在一定差异。在前汛期华南区域持续性强降水偏重年,赤道西太平洋区域海温偏低,由于大气罗斯贝波响应使西太平洋副热带高压偏强,热带西太平洋向华南区域水汽输送加强,从而有利于区域持续性强降水偏重。后汛期华南区域持续性强降水偏重年的海温异常分布是赤道中东太平洋区域正异常、东印度洋至西太平洋暖池区负异常,海温异常通过西北太平洋副热带高压、南海热带季风强度、水汽输送和垂直环流等多方面,导致后汛期区域持续性强降水偏重。 相似文献
7.
华北夏季降水地域特征的旋转主分量研究及其相关分析 总被引:10,自引:0,他引:10
用旋转主分量(RPC)方法,研究华北降水的空间分布特征.给出了华北降水空间分布的RPC的前10个模态.它们概括了华北地区降水的基本特征及历史上的大旱和大涝年的地域分布.每一种降水模态的时间系数都表现出了长周期的年代际变化的规律.华北发生大旱与大涝的最可能的分布是模态3、4与模态10.如1965、1968和1983年的大旱;1963和1973年的大涝年等.分析了各个模态与太平洋副热带高压强度、东亚环流指数、前冬赤道东太平洋海温、以及江淮流域降水的相关表明:它们之间的相关都有各自的最佳模态.如对赤道东太平洋海温与太平洋副热带高压强度而言,最佳模态的特征是:当海温呈El Nino型和西太副高偏强时,华北降水的最可能分布是东部沿海为强的干旱区,其余地区降水皆偏多.与江淮流域降水和EAP流型的相关则主要以1954、1980及1991年为代表的第1和第9模态为主要形态.它们与华北降水有极好的反相关. 相似文献
8.
山东夏季降水的气候特征及其成因 总被引:2,自引:0,他引:2
用GMS TBB和ECMWF的格点风资料,采用带通滤波、EOF分解和合成分析方法,对湖北省洪涝年出现“二度梅”年(1980、1998年)和无“二度梅”年(1991、1999年)的南海和青藏高原TBB的低频振荡特征进行了分析研究。结果表明:有(无)“二度梅”年,南海低频TBB在6~7月的振荡位相是相反的;在7月下旬~8月上旬,南海低频TBB为高(低)值位相,青藏高原低频TBB为低(高)值位相。南亚地区低频TBB场EOF1的空间分布形式呈“南负北正”(南正北负)。 相似文献
9.
利用53年的NCEP/NCAR再分析资料和英国气象局Hadley气候预测和研究中心的海表面温度资料,使用SVD方法研究了东亚-北太平洋地区表层海温(SST)异常与大气环流异常间的主要耦合模态.分析结果表明,中纬度北太平洋地区存在两种主要的海-气耦合模态,第一模态是海温异常分布的纬向型,第二模态主要表现为经向海温差异分布.两种空间耦合模态共同反映出中纬度北太平洋地区大气和海洋的异常中心有很强的局地耦合性.在第一模态的正(负)异常年,东亚-北太平洋地区主要为负(正)的降水异常,在第二模态的正(负)异常年,东亚和北太平洋的大部分地区出现降水正(负)异常,北美西岸及以西的部分区域出现降水的负(正)异常.两个模态所对应的降水差异显示,海气耦合模态的循环变化有利于形成我国降水分布南北差异的改变. 相似文献
10.
Using the regional climate model RegCM4.4.5, coupled with the land model CLM4.5, we investigated the effects of springtime soil moisture in the Indochina Peninsula on summer precipitation over the South China Sea and its surrounding areas in 1999. Results have indicated that there exists positive correlation between soil moisture and summer precipitation over the western Pacific Ocean and negative correlation between soil moisture and summer precipitation over the eastern Indian Ocean. Summer precipitation in the South China Sea and its surrounding areas responds to springtime soil moisture in the Indochina Peninsula (the northwest region is critical) because general atmospheric circulation is sensitive to the near-surface thermodynamic state. Increased (decreased) soil moisture would result in decreased (increased) local surface temperatures. Latitudinal, small-scale land–sea thermal differences would then result in northeasterly wind (southwesterly wind) anomalies in the upper layer and southwesterly wind (northeasterly wind) anomalies in the lower layer, which strengthen (weaken) monsoon development. As a result, precipitation would enter the Western Pacific region earlier (later), and water vapor over the eastern Indian Ocean would enter the South China Sea earlier (later), causing a precipitation reduction (increase) in the eastern Indian Ocean and increase (reduction) in the Western Pacific. 相似文献
11.
用近55 a资料研究了冬季西太平洋遥相关型(WP)异常环流特征及其与我国冬季天气气候的关系。结果表明:冬季西太平洋遥相关型与我国冬季天气气候关系密切。高指数年500 hPa高度场亚洲大陆上空中高纬为负高度异常,中纬度西风偏强,环流呈纬向型,对应海平面气压场上西伯利亚高压偏弱,东亚冬季风偏弱;低指数年情况相反。冬季西太平洋遥相关指数与我国冬季气温和降水存在显著的大范围正相关,与气温的高相关区为我国东部、南部沿海及西南地区所形成的U型区域,而与降水的高相关区则主要分布在我国东部地区。 相似文献
12.
用SVD方法分析了1、4、7月全球OLR与夏季(6—8月)中国华中区域降水场的关系,结果表明:若1月南非东部沿岸至西印度洋、北美北部OLR(Outgoing Longwave Radiation)偏低(偏高),或北非、美国西南沿岸及近海OLR偏高(偏低),则夏季长江中游降水将偏多(偏少)。若4月澳大利亚至东印度洋、日界线以东热带太平洋OLR偏低(偏高),或西北太平洋偏高(偏低),则夏季长江中游降水将偏多(偏少)。若7月东印度洋—澳大利亚大陆、东亚OLR偏低(偏高),则夏季华中区域长江及其以北降水将偏多(偏少),湖南和江西南部降水将偏少(偏多)。夏季长江中游旱、涝年前期OLR明显的区别在于热带太平洋:涝年1月东、西太平洋为明显负、正异常,4月这种异常进一步加剧;旱年1月正好相反,东、西太平洋为微弱的正、负异常,4月转为东、西太平洋为微弱的负、正异常。太平洋暖池OLR低值区(强对流区)4、7月持续偏南,是夏季长江中游降水偏多的另一重要信号。冬、春季OLR与夏季长江中游降水大尺度关联的可能机制为:若1月热带东、西太平洋OLR为明显负、正异常,4月这种异常进一步加剧,也即冬、春季热带太平洋Walker环流持续减弱,从而使夏季暖池对流活动减弱,热带辐合带偏南,Hadley环流偏弱,使夏季西太平洋副热带高压主体位置偏南,导致中国夏季主雨带不能北推至黄河流域,而长期滞留长江中下游,最后造成长江中游降水异常。 相似文献
13.
Climatological characteristics of the moisture budget and their anomalies over the joining area of Asia and the Indian-Pacific Ocean 总被引:1,自引:1,他引:0
The climatological characteristics of the moisture budget over the joining area of Asia
and the Indian-Pacific Ocean (AIPO) and its adjacent regions as well as their anomalies have been
estimated in this study. The main results are as follows.
In the winter, the northeasterly moisture transport covers the extensive areas at the lower latitudes
of the AIPO. The westerly and northerly moisture transport is the major source and the South Indian
Ocean (SIO) is the moisture sink. In the summer, influenced by the southwesterly monsoonal wind, the
cross-equatorial southwesterly moisture transport across Somali originating from the SIO is transported
through the Arabian Sea (AS), the Bay of Bengal (BOB), and the South China Sea (SCS) to eastern China.
The AIPO is controlled by the southwesterly moisture transport.
The net moisture influx over the AIPO has obvious interannual and interdecadal variations. From the
mid- or late 1970s, the influxes over the SIO, the AS, the northern part of the western North Pacific
(NWNP), and North China (NC) as well as South China (SC) begin to decrease abruptly, while those over
Northeast China (NEC) and the Yangtze River-Huaihe River basins (YHRB) have increased remarkably. As a
whole, the net moisture influxes over the BOB and the southern part of the western North Pacific (SWNP)
in the recent 50 years take on a linear increasing trend. However, the transition timing for these two
regions is different with the former being at the mid- or late 1980s and the latter occurring earlier,
approximately at the early stage of the 1970s.
The anomalous moisture source associated with the precipitation anomalies is different from the normal
conditions of the summer precipitation. For the drought or flood years or the years of El Ni\~no and its
following years, the anomalous moisture transport originating from the western North Pacific (WNP) is
the vital source of the anomalous precipitation over eastern China, which is greatly related with the
variation of the subtropical Pacific high. 相似文献
14.
An analysis of high-resolution precipitation data for 1978-2006 indicates that the precipitation over southern China in June experienced a low-value period in 1980-1989 and a high-value period in 1992-2001.It also reveals that exceptional heavy(light) precipitation occurred in June 2005(2004) since 1951.For these variations on both interdecadal and interannual timescales,fairly uniform anomalies of precipitation appeared over Vietnam,southern China,and southeastern China.Corresponding to positive(negative) precipitation anomalies,anomalous southeasterly(northwesterly) flow at 850 hPa reached Vietnam and anomalous southwesterly(northeasterly) flow expanded to the coastal regions of southern and southeastern China.Precedent to the positive(negative) precipitation anomalies during 1992-2001(1980-1989),positive(negative) anomalies of sea surface temperature appeared over the extratropical northwestern Pacific in the winter and spring seasons,associated with a strong(weak) extension of the warm Kuroshio Current that affects the coastal region of eastern China.The above-normal precipitation in June 2005 was associated with the pseudo-ENSO event in the previous winter,and the below-normal precipitation in June 2004 was associated with negative anomalies of sea surface temperature over the equatorial central Pacific and positive anomalies over the equatorial western and eastern Pacific. 相似文献
15.
The relationships of variations of sea surface temperature anomalies (SSTA) in the South Pacific with ENSO and Southern Hemisphere Annular Mode (SAM) are examined in the present article by employing the NCEP-NCAR reanalysis from 1951 to 2006. Two principal modes of South Pacific SSTA are obtained using the EOF (Empirical Orthogonal Function) analysis for austral winter (June, July and August). Our results suggest that EOF1 is closely related with ENSO and EOF2 links to SAM. The EOF1 varies largely on an interannual and EOF2 on a decadal scale. The time series of coefficients of EOF1 is highly correlated simultaneously with Nino3 index. However, the time series of coefficients of EOF2 is significantly correlated with the March-April-May mean SAM index. Both the EOF1 and EOF2 are found in significant correlation to summer precipitation over China. With higher-than-normal SSTs in the eastern South Pacific and simultaneously lower SSTs in the western South Pacific in June-July-August, the summertime rainfall is found to be less than normal in northern China. As displayed in EOF2 of SSTA, in years with lower-than-normal SSTs in mid-latitude southern and equatorial eastern Pacific and higher-than-normal SSTs in the equatorial middle Pacific in March-April-May, the summer precipitation in August tends to be more than normal in regions south of Yangtze River. 相似文献
16.
利用中国1961—2014年逐日降水观测等资料,分析了西南地区的干湿季变化特征。结果表明:西南地区东部和西北部最早进入湿季;干季由四川盆地、贵州南部开始。西南中东部以及南部等地的湿季长度较长,干季则与之相反。干湿季开始日期以及干湿季长度均具有明显的年代际变化特征,在1970年代中期到1980年代发生了气候突变,呈现湿季长度变短,干季变长的趋势。湿季降水呈现东南多、西北少的特征,并表现出中东部减少,西部增加的趋势;干季降水则表现为东多西少的特点,在东部呈增加,在四川等地呈减少趋势。进一步分析表明:湿季异常偏湿(干)年,开始日期易偏早(晚),结束易偏晚(早),长度偏长(短);干季开始异常偏早(晚)年,干季长度长(短),干季略偏湿(干);太平洋、印度洋海温异常影响东亚大气环流的异常是造成西南地区干湿季出现异常的主要原因。 相似文献
17.
Using the 1980-2010 winter GODAS oceanic assimilations, study is conducted of the winter heat content (HC) established in the subsurface layer (5 to 366 m in depth) over the western Pacific warm pool (WP), followed by investigating the HC spatiotemporal characteristics, persistence and the impacts on the climate anomalies of neighboring regions. Results are as follows: 1) the pattern of integral consistency is uncovered by the leading EOF1 (PC1) mode of HC interannual variability, the year-to-year fluctuation of the time coefficients being well indicative of the interannual anomaly of the WP winter subsurface-layer thermal regime. The HC variation is bound up with ENSO, keeping pronounced autocorrelation during the following two seasons and more, with the persistence being more stable in comparison to SSTA in the equatorial middle eastern Pacific; 2) the winter HC anomalies produce lasting effect on the WP thermal state in the following spring and summer and corresponding changes in the warm water volume lead to the meridional transport and vertical exchange of warm water, which exerts greater impacts upon the sea surface temperature/heat flux over the warm pool per se and neighboring regions, especially in the Philippine Sea during the posterior spring and summer; 3) the increase in the winter HC corresponds to the spring OLR decrease and richer precipitation over the waters east to the Philippine Sea and the resultant convective heating anomalies are responsible for the rise of geopotential isobaric surfaces over tropical and subtropical western North Pacific, thereby producing effect on the western Pacific subtropical high (anomaly). Subsequently, the sea-surface heat flux exchange is intensified in the warm pool, a robust anomalous cyclone shows up at lower levels, air-sea interactions are enhanced and abnormal convective heating occurs, together making the winter HC anomalies even more closely associated with the variation in the summer subtropical high. As a result, the WP winter HC can be used as an effective predictor of the variation in spring/summer western Pacific subtropical high and the strength of summer monsoon over the northwestern Pacific. 相似文献
18.
热带印度洋-西太平洋水汽输送异常对中国东部夏季降水的影响 总被引:1,自引:0,他引:1
利用1979~2015年NCEP/NCAR发布的月平均全球再分析资料,分析了热带印度洋-西太平洋水汽输送异常对中国东部夏季降水的影响及其形成机理。研究结果表明:热带印度洋-西太平洋地区(10°S~30°N,60°~140°E)夏季异常水汽输送主要包括两个模态,他们可以解释总的水汽输送异常34%的方差。其中,第一模态(EOF1)表现为异常水汽沿反气旋从热带西太平洋经过南海及孟加拉湾输送到中国东部上空,对应南海、孟加拉湾水汽路径输送均偏多,此时西太平洋副热带高压显著偏强,异常水汽在长江中下游地区辐合并伴随显著上升运动,有利于长江中下游降水偏多;第二模态(EOF2)表现为异常水汽从热带印度洋沿阿拉伯海、印度半岛、中南半岛等呈反气旋式输送,华南上空相应出现气旋式水汽输送异常,并对应异常水汽辐合和上升运动,有利于华南降水偏多。就可能的外部成因而言,EOF1与ENSO关系密切,表现为前冬热带中东太平洋显著偏暖,夏季同期热带北印度洋、南海上空显著偏暖,造成西太平洋副热带高压显著偏强,异常水汽主要来源于热带西太平洋和南海;EOF2与同期热带印度洋偶极子(TIOD)异常有关,TIOD为正位相时热带印度洋上空出现异常东风,华南上空出现异常气旋并伴随水汽异常辐合,异常水汽主要来源于热带南印度洋。 相似文献
19.
近50年河南初夏旱涝异常特征分析 总被引:3,自引:0,他引:3
对1958~2006年河南38站的6月降水量进行分析,发现EOF第一模态呈全省一致的分布型,因此用38站平均降水量代表全省初夏降水.选取旱、涝年,对异常合成场进行分析,在涝年,北太平洋和日本以南洋面为负的潜热通量异常;500 hPa贝加尔湖以北有正的高度异常,我国东部和近海为正的高度异常,北太平洋为正的高度异常;850 hPa河南省西部是异常的东北风,东部是异常的西南风.通过定义高度指数,得到与河南省初夏降水关系密切的500 hPa高度场分布型,即贝加尔湖高压脊偏强,东亚大槽偏弱和西太副高偏北同时存在.对海洋要素场的相关分析表明,前期太平洋黑潮区的SST较高,海洋持续向大气输送潜热通量偏多,后期其东北侧太平洋从大气吸收热量,导致上空的位势高度偏高,有利于河南省降水. 相似文献
20.
By employing the singular value decomposition(SVD) analysis, we have investigated in the present paper the covariations between circulation changes in the Northern(NH) and Southern Hemispheres(SH) and their associations with ENSO by using the NCEP/NCAR reanalysis, the reconstructed monthly NOAA SST, and CMAP precipitation along with NOAA Climate Prediction Center(CPC) ENSO indices. A bi-hemispheric covariation mode(hereafter BHCM) is explored, which is well represented by the first mode of the SVD analysis of sea surface pressure anomaly(SLPA-SVD1). This SVD mode can explain 57.36% of the total covariance of SLPA. BHCM varies in time with a long-term trend and periodicities of 3—5 years. The long term trend revealed by SVD1 shows that the SLP increases in the equatorial central and eastern Pacific but decreases in the western Pacific and tropical Indian Ocean, which facilitates easterlies in the lower troposphere to be intensified and El Ni觡o events to occur with lower frequency. The spatial pattern of the BHCM looks roughly symmetric about the equator in the tropics, whereas it is characterized by zonal disturbances in the mid-latitude of NH and is highly associated with AAO in the mid-latitude of SH. On inter-annual time scales, the BHCM is highly correlated with ENSO. The atmosphere in both the NH and SH responds to sea surface temperature anomalies in the equatorial region, while the contemporaneous circulation changes in the NH and SH in turn affect the occurrence of El Ni觡o/La Ni觡a. In boreal winter, significant temperature and precipitation anomalies associated with the BHCM are found worldwide. Specifically, in the positive phase of the BHCM,temperature and precipitation are anomalously low in eastern China and some other regions of East Asia. These results are helpful for us to better understand interactions between circulations in the NH and SH and the dynamical mechanisms behind these interactions. 相似文献