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1.
利用逐月台站观测降水、HadISST1.1海温和ERA5大气再分析资料,研究了前冬印度洋海盆一致模(Indian Ocean Basin,IOB)对华南春季降水(SCSR)与ENSO关系的影响,并分析了IOB通过调控ENSO环流异常进而影响SCSR的可能机制。结果表明:当前冬El Ni?o(La Ni?a)与IOB暖(冷)位相同时发生时,SCSR显著增多(减少);而当El Ni?o或La Ni?a单独发生而IOB处于中性时,SCSR并无明显多寡倾向。其原因在于,当El Ni?o与IOB暖相位并存时,前冬热带印度洋和赤道中东太平洋均为正海温异常(Sea-Surface Temperature Anomaly,SSTA),且印度洋SSTA强度可一直维持至春季。在对流层低层,春季赤道中东太平洋的正SSTA激发出异常西北太平洋反气旋(Western North Pacific Anticyclone,WNPAC)。而热带印度洋的正SSTA在副热带印度洋激发出赤道南北反对称环流,赤道以北的东风异常有利于异常WNPAC西伸;赤道以南的西风异常与来自赤道西太平洋的东风异常在东印度洋辐合上升,气流至西北太平洋下沉,形成经向垂直环流,有利于春季WNPAC维持。在对流层高层,印度洋的正SSTA在热带印度洋上空激发出位势高度正异常,随之形成的气压经向梯度加强了东亚高空副热带西风急流,进而在华南上空形成异常辐散环流。WNPAC的西伸和加强可为华南提供充足的水汽,同时高空辐散在华南引发水汽上升运动,共同导致SCSR正异常。而若El Ni?o发生时IOB处于中性状态,El Ni?o相关的SSTA衰减较快,春季WNPAC不显著,SCSR无明显多寡趋势。 相似文献
2.
The interannual variations of rainfall over southwest China (SWC) during spring and
its relationship with sea surface temperature anomalies (SSTAs) in the Pacific are analyzed,
based on monthly mean precipitation data from 26 stations in SWC between 1961 and 2010,
NCEP/NCAR re-analysis data, and Hadley global SST data. Sensitivity tests are conducted to
assess the response of precipitation in SWC to SSTAs over two key oceanic domains, using the
global atmospheric circulation model ECHAM5. The interannual variation of rainfall over SWC in
spring is very significant. There are strong negative (positive) correlation coefficients
between the anomalous precipitation over SWC and SSTAs over the equatorial central Pacific
(the mid-latitude Pacific) during spring. Numerical simulations show that local rainfall in
the northwest of the equatorial central Pacific is suppressed, and a subtropical anticyclone
circulation anomaly is produced, while a cyclonic circulation anomaly in the mid-latitude
western Pacific occurs, when the equatorial Pacific SSTAs are in a cold phase in spring.
Anomalous northerly winds appear in the northeastern part of SWC in the lower troposphere.
Precipitation increases over the Maritime Continent of the western equatorial Pacific, while a
cyclonic circulation anomaly appears in the northwest of the western equatorial Pacific. A
trough over the Bay of Bengal enhances the southerly flow in the south of SWC. The trough also
enhances the transport of moisture to SWC. The warm moisture intersects with anomalous cold
air over the northeast of SWC, and so precipitation increases during spring. On the
interannual time scale, the impacts of the mid-latitude Pacific SSTAs on rainfall in SWC
during spring are not significant, because the mid-latitude Pacific SSTAs are affected by the
equatorial central Pacific SSTAs; that is, the mid-latitude Pacific SSTAs are a feedback to
the circulation anomaly caused by the equatorial central Pacific SSTAs. 相似文献
3.
探讨了夏季(6—8月)西北太平洋(Western North Pacific,WNP)热带气旋生成频次(Tropical Cyclone Genesis Frequency,TCGF)与热带海温关系的年代际变化,发现影响WNP TCGF的热带海温型在1991/1992年发生了年代际变化。在1990年代初之前,TCGF正异常对应的热带海温异常(Sea Surface Temperature Anomaly,SSTA)呈现东部型La Ni?a衰减位相,前冬至春季WNP局地暖SSTA在其西北侧激发气旋异常,夏季时由热带印度洋冷SSTA继续维持。在1990年代初之后,TCGF正异常对应的热带SSTA呈现东部型La Ni?a向中部型El Ni?o快速转换的位相,夏季中太平洋暖SSTA在其西北侧激发气旋异常,同时热带东印度洋至海洋性大陆以及热带大西洋的冷SSTA通过垂直环流圈加强中太平洋的辐合上升运动,进一步维持其西北侧气旋异常。由于激发气旋异常的暖SSTA在第二个年代相较第一个年代明显偏南偏东,气旋异常和TCGF正异常在第二个年代也整体偏南且向东扩展至更远的区域。WNP TCGF与热带海温关系的年代际变化与1990年代初之后厄尔尼诺-南方涛动演变速率加快有关。 相似文献
4.
利用1961—2013年NCEP/NCAR再分析资料和Had ISST月平均海表面温度资料,分析了夏半年热带太平洋中部型海温异常与热带印度洋海盆模(Indian Ocean Basin M ode,IOBM)的特征,并研究了不同位相配置时二者对同期中国东部气候的共同影响。结果表明:1)太平洋中部型海温异常指数与印度洋海盆模指数几乎相互独立。太平洋中部型海温异常与IOBM同位相变化(记为PPNN事件)和反位相变化(记为PNNP事件)时,热带印太地区海温异常分别呈三级型和偶极型分布。2)不同位相配置对中国东部地区降水异常的影响及其影响机制存在显著差异:当发生PPNN事件时,水汽从海洋性大陆(Maritime Continent,MC)地区向江淮流域输送;热带海温异常引起大气产生Gill型响应,维持了中国东部的环流异常;M C地区通过经向三圈异常垂直环流引起江淮流域降水异常增多。发生PNNP事件时,Gill型环流响应中心西移,长江流域降水偏少,水汽辐散;同时MC地区对流层低层准定常Rossby波能传播也有利于长江流域扰动的维持。这些结果对深刻认识中国东部地区夏半年降水异常成因和印度洋/太平洋海温异常不同分布的作用具有重要意义。 相似文献
5.
Guangzhou spring rainfall mainly exhibits interannual variation of Quasi-biannual and
interdecadal variation of 30 yrs, and is in the period of weak rainfall at interdecadal time scale.
SST anomalies (SSTA) of Nino3 are the strongest precursor of Guangzhou spring rainfall. They
have significant positive correlation from previous November and persist stably to April. Nino3
SSTA in the previous winter affects Guangzhou spring rainfall through North Pacific subtropical
high and low wind in spring. When Nino3 SSTA is positive in the previous winter, spring
subtropical high is intense and westward, South China is located in the area of ascending airflow at
the edge of the subtropical high, and water vapor transporting to South China is intensified by
anticyclone circulation to the east of the Philippines. So Guangzhou spring rainfall is heavy. When
Nino3 SSTA is negative, the subtropical high is weak and eastward, South China is far away from
the subtropical high and is located in the area of descending airflow, and water vapor transporting
to South China is weak because low-level cyclonic circulation controls areas to the east of the
Philippines and north wind prevails in South China. So Guangzhou spring rainfall is weak and
spring drought is resulted. 相似文献
6.
冬季和春季印度洋海温异常年际变率模态对中国东部夏季降水的可能影响过程 总被引:11,自引:4,他引:7
印度洋热力状况是影响全球气候变化和亚洲季风变异的一个重要的因素,但以往研究更多关注热带印度洋海温的变化,对南印度洋中高纬地区海温变化关注不够,由此限制了我们对印度洋的全面认识.本文研究了年际尺度上整个印度洋海温异常主导模态的特征及其对我国东部地区夏季降水的可能影响过程,以期望为气候变异研究及预测提供理论依据.研究结果表明:全印度洋海温异常年际变率的主导模态特征是在南印度洋副热带地区海温异常呈现西南—东北反向变化的偶极子模态,西极子位于马达加斯加以东南洋面,东极子位于澳大利亚以西洋面;同时,热带印度洋海温异常与东极子一致.当西极子为正的海温异常,东极子、热带印度洋为负异常时定义为正的印度洋海温异常年际变率模态;反之,则为负的印度洋海温异常年际变率模态.从冬至春,印度洋海温异常年际变率模态具有较好的季节持续性;与我国长江中游地区夏季降水显著负相关,而与我国华南地区夏季降水显著正相关.其可能的影响过程为:对于正的冬、春季印度洋海温异常年际变率模态事件,印度洋地区异常纬向风的经向大气遥相关使得热带印度洋盛行西风异常,导致春、夏季海洋性大陆对流减弱,使夏季西太平洋副热带高压强度偏弱、位置偏东偏北,造成华南地区夏季降水增多,长江中游地区降水减少;反之亦然.同时,印度洋海温异常年际变率模态可通过改变印度洋和孟加拉湾向长江中游地区的水汽输送而影响其夏季降水. 相似文献
7.
海洋性大陆核心区域非绝热加热年代际变化及其与东亚夏季风变异的可能联系 总被引:2,自引:4,他引:2
海洋性大陆区域是太平洋和印度洋通过“大气桥”发生相互作用的区域,也是亚洲季风和澳洲季风相互作用的重要地区。利用1979—2012年的NCEP/NCAR、CMAP月平均资料和合成分析等方法,研究了海洋性大陆核心区域非绝热加热年代际变化规律及其与东亚夏季风的可能联系。海洋性大陆地区气候变动在95~145 °E,10 °S~10 °N区域尤为显著,记此区域为海洋性大陆核心区域(即KMC区域)。不考虑大气中潜热释放时,KMC区域的非绝热加热率在1979—2012年之间存在显著的年代际变化,加热作用由弱增强,在1980年代末期达到峰值后,即转为减弱阶段。对非绝热加热异常各分量的分析发现,在KMC区域,表面潜热和净大气长波辐射起主要作用。当非绝热加热负异常时,KMC区域的陆地降水偏多,海洋上降水偏少,赤道上存在气流辐合。在115~120 °E区间平均的经圈剖面上,气流在赤道地区上升、南海下沉、30 °N处上升,构成了异常的垂直环流圈。水汽从孟加拉湾、南海地区向中国东部输送,利于产生降水正异常。东亚剖面上的经圈环流在联系KMC区域非绝热加热和东亚夏季风异常的年代际变化中起重要作用。 相似文献
8.
The Maritime Continent(MC) is an important region where the Tropical Pacific and the Indian Ocean interact with each other via "the atmospheric bridge" and a key region for the interaction between the Asian and Australian monsoons. Using the NCEP/NCAR and CMAP monthly mean reanalysis over the period of 1979-2012, the interdecadal variations of diabatic forcing over the key region of the Maritime Continent and its possible relations with the East Asian summer monsoon have been investigated in the present paper. Our results show that climate variations in the Maritime Continent is particularly significant in the area of 95-145°E, 10°S-10°N, which is thus defined as the key area of the MC(i.e., KMC area). Without the input of latent heat release in the atmosphere, distinct interdecadal change of diabatic heating is found to exist from 1979 to 2012; it intensified before 1980 s and peaked in the late 1980 s and weakened after this period. By analyzing each individual component that contributes to the diabatic heating in the KMC area, surface latent heat flux and net long-wave radiation in the atmosphere are found to be the two dominant components. With negative diabatic heating anomalies over KMC, there will be more precipitation on islands and less precipitation over sea, and more rainfall around the equator, which is in correspondence with the convergence center around the equator in the KMC area. Along the meridional-vertical section averaged between 115-120 ° E, the well-defined vertical circulation anomalies are observed with the ascending branches over KMC and the area around 30°N respectively, and the descending branch over the South China Sea. Water vapor transports from the Bay of Bengal and South China Sea to eastern China to benefit the positive precipitation anomalies. The meridional-vertical circulation in East Asia plays a critical role in linking the interdecadal variability of diabatic heating over the KMC and East Asian summer monsoon anomalies. 相似文献
9.
Analysis of Precipitation Anomaly and a Failed Prediction During the Dragon-boat Rain Period in 2023
This study investigates the possible causes for the precipitation of Guangdong during dragon-boat rain period(DBRP) in 2022 that is remarkably more than the climate state and reviews the successes and failures of the prediction in2022. Features of atmospheric circulation and sea surface temperature(SST) are analyzed based on several observational datasets for nearly 60 years from meteorological stations and the NCEP/NCAR Global Reanalysis Data. Results show that fluctuation of the 200-h Pa weste... 相似文献
10.
影响南海夏季风爆发年际变化的关键海区及机制初探 总被引:1,自引:7,他引:1
利用1958—2011年NCEP/ NCAR再分析资料和ERSST资料,采用Lanczos时间滤波器、相关分析、回归分析、合成分析和交叉检验等方法,研究了影响南海夏季风爆发年际变化的关键海区海温异常的来源与可能机制。结果表明,前冬(12—2月)热带西南印度洋和热带西北太平洋是影响南海夏季风爆发年际变化的关键海区。冬季热带西南印度洋(热带西北太平洋)的异常增暖是由前一年夏季El Ni?o早爆发(强印度季风异常驱动的行星尺度东-西向环流)触发、热带印度洋(西北太平洋)局地海气正反馈过程引起并维持到春季。冬季热带西北太平洋反气旋性环流(气旋性环流)及印度洋(热带西北太平洋)的暖海区局地海气相互作用使得印度洋(热带西北太平洋)海温异常维持到春末。春季,逐渐加强北移到10 °N附近的低层大气对北印度洋(热带西北太平洋)暖海温异常响应的东风急流(异常西风)及南海-热带西北太平洋维持的反气旋性环流(气旋性环流)异常,使得南海夏季风晚(早)爆发。 相似文献
11.
El Ni?o(厄尔尼诺)事件对东亚和南亚次年夏季降水影响及其机理已经得到充分研究,但其对夏季青藏高原降水是否有显著影响还不清楚。本研究根据1950年后El Ni?o事件次年衰减期演变速度,对比分析衰减早型与晚型El Ni?o事件对南亚季风区与青藏高原夏季(6~9月)季节平均和月平均气候影响差异。结果显示在衰减早型次年夏季热带太平洋海温转为La Ni?a(拉尼娜)型且持续发展,引起Walker环流上升支西移,印度洋和南亚季风区上升运动加强,同时激发异常西北太平洋反气旋(NWPAC),阿拉伯海异常气旋和伊朗高原异常反气旋性环流响应,增加7~9月对流层偏南气流和印度洋水汽输送,导致南亚和高原西南侧降水偏多。衰减晚型次年6~8月热带太平洋El Ni?o型海温仍维持,印度洋暖异常海温显著,对应的印度洋和南亚季风区上升运动较弱,NWPAC西伸控制南亚季风区,阿拉伯海和中西亚分别呈现异常反气旋和气旋性环流,导致青藏高原西风加强,水汽输送减少,南亚北部和高原降水一致偏少。结果表明:(1)El Ni?o显著影响次年青藏高原西南部夏季季节和月平均降水与温度,是印度和高原西南部夏季降水显著相关的重要原因;(2)El Ni?o衰减快慢速度对南亚和青藏高原西南部夏季季节内降水的影响有着重要差异。 相似文献
12.
中国南方夏季降水的年代际变率主模态特征及机理研究 总被引:1,自引:0,他引:1
在气候变暖背景下,中国南方夏季降水存在明显的年代际变化特征。本文利用1920~2014年的逐月降水,以分析南方夏季降水年代际变率主模态为切入点,以研究南方夏季降水年代际变率空间分布型的年代际变化特征为重点,进一步研究了印度洋、北太平洋及北大西洋海温的年代际变率对南方夏季降水主模态年代际变率的可能影响机制。得到的主要结论包括:(1)指出中国南方夏季降水年代际变率的两个主模态为全区一致型和东西反相型降水模态。两个主导模态在1971/1972年发生了显著的年代际转变,在1925~1971年的第一主模态为东西反相型降水;在1972~2009年的第一主模态为一致型降水。不同主模态对应的海温异常关键区也在1971/1972年发生了相应的年代际变化。(2)揭示了全区一致型和东西反相型降水模态对应的环流场异常特征。一致多(少)型降水对应着中国南海及西北太平洋低空的反气旋(气旋)性异常,有(不)利于水汽自南海向南方地区输送。而贝加尔湖东侧低空的反气旋(气旋)性异常,有(不)利于冷空气向南方输送,并与来自南海地区的水汽在南方地区辐合,有利于南方地区降水一致偏多(少)。东多西少(西多东少)型降水对应着中国东南地区高空的正(负)异常中心,有利于高空辐散(辐合)及异常的上升(下沉)运动,其与南方地区东部低空的气旋(反气旋)性异常共同作用,有利于东部降水偏多(偏少)。与此同时,低空中南半岛反气旋(气旋)性异常及菲律宾地区反气旋(气旋)性异常,不(有)利于水汽自孟加拉湾及南海地区输送向南方地区西部,有利于形成东多西少(西多东少)的降水型。(3)揭示了印度洋海温、北太平洋海温和北大西洋海温协同影响南方地区东西反相型降水和一致型降水的机制。 相似文献
13.
Joint Impacts of SSTA in Tropical Pacific and Indian Oceans on Variations of the WPSH 总被引:2,自引:1,他引:1
Using the NCEP/NCAR reanalysis and HadISST sea surface temperature (SST) data, the joint effects of the tropical Indian Ocean and Pacific on variations of area of the summertime western Pacific subtropical high (WPSH) for period 1980–2016 are investigated. It is demonstrated that the central tropical Indian Ocean (CTI) and central equatorial Pacific (CEP) are two key oceanic regions that affect the summertime WPSH. During autumn and winter, warm SST anomalies (SSTAs) in CEP force the Walker circulation to change anomalously, resulting in divergence anomalies over the western Pacific and Maritime Continent (MC). Due to the Gill-type response, the abnormal anticyclonic circulation is generated over the western Pacific and South China Sea (SCS). In the subsequent spring, the warm SSTAs in CEP weaken, while the SST over CTI demonstrates a lagged response to Pacific SSTA. The warm CTISSTA and CEP-SSTA cooperate with the eastward propagation of cold Kelvin waves in the western Pacific, leading to the eastward shift of the abnormal divergence center that originally locates at the western Pacific and MC. The anticyclone forced by this divergence subsequently moves eastward, leading to the intensification of the negative vorticity there. Meanwhile, warm SSTA in CTI triggers eastward propagating Kelvin waves, which lead to easterly anomalies over the equatorial Indian Ocean and Indonesia, being favorable for maintenance and intensification of the anticyclone over the SCS and western Pacific. The monsoonal meridional–vertical circulation strengthens, which is favorable for the intensification of the WPSH. Using SSTA over the two key oceanic regions as predictors, a multiple regression model is successfully constructed for prediction of WPSH area. These results are useful for our better understanding the variation mechanisms of WPSH and better predicting summer climate in East Asia. 相似文献
14.
利用美国NOAA卫星观测的SOI(Southern Oscillation Index,南方涛动指数)资料以及NCEP/NCAR、CMAP月平均资料,采用相关分析等方法,研究了南方涛动年际变化与夏季亚澳季风环流及海洋性大陆区域气候异常的联系。结果表明:南方涛动具有显著的年际变化特征,这种年际变化对夏季亚澳季风区及海洋性大陆区域的环流、降水及温度异常有重要影响。当SOI正位相时,赤道以南的澳大利亚东部地区以及西北太平洋海域高层为气旋,低层为反气旋,赤道地区的东部太平洋低层为辐散中心,高层为辐合中心,有利于下沉运动维持;加里曼丹岛附近低层辐合,高层辐散,有利于上升运动维持;海洋性大陆地区降水为显著的正异常,东亚地区降水存在较弱的正异常;海洋性大陆地区以及我国青藏高原到东海一带温度为正异常,孟加拉湾及印度半岛区域温度为负异常。 相似文献
15.
This study reveals that the interannual variability of the western edge of the western North Pacific (WNP) subtropical high (WNPSH) in early summer experienced an interdecadal decrease around 1990. Correspondingly, the zonal movement of the WNPSH and the zonal extension of the high-pressure anomaly over the WNP (WNPHA) in abnormal years possess smaller ranges after 1990. The different influences of the tropical SSTAs are important for this interdecadal change, which exhibit slow El Ni?o decaying pattern before 1990 while rapid transformation from El Ni?o to La Ni?a after 1990. The early summer tropical SSTAs and the relevant atmospheric circulation anomalies present obvious interdecadal differences. Before 1990, the warm SSTAs over the northern Indian Ocean and southern South China Sea favor the WNPHA through eastward-propagating Kelvin wave and meridional-vertical circulation, respectively. Meanwhile, the warm SSTA over the tropical central Pacific induces anomalous ascent to its northwest through the Gill response, which could strengthen the anomalous descent over the WNP through meridional-vertical circulation and further favor the eastward extension of the WNPHA to central Pacific. After 1990, the warm SSTAs over the Maritime Continent and northern Indian Ocean cause the WNPHA through meridional-vertical and zonal-vertical circulation, respectively. Overall, the anomalous warm SSTs and ascent and the resultant anomalous descent over the WNP are located more westward and southward after 1990 than before 1990. Consequently, the WNPHA features narrower zonal range and less eastward extension after 1990, corresponding to the interdecadal decease in the interannual variability of the western edge of the WNPSH. On the other hand, the dominant oscillation period of ENSO experienced an interdecadal reduction around 1990, contributing to the change of the El Ni?o SSTA associated with the anomalous WNPSH from slow decaying type to rapid transformation type. 相似文献
16.
印度季风的年际变化与高原夏季旱涝 总被引:11,自引:6,他引:5
根据NCEP/NCAR再分析资料和海表面温度距平资料,分析了西藏高原夏季降水5个多、少雨年春、夏季印度洋850hPa、200hPa合成风场和合成海温场,发现多、少雨年前期与同期印度洋高、低空风场和海温场均存在明显差异,主要表现为高原夏季降水偏多(少)年印度夏季风偏强(弱),在850hPa合成风场上印度半岛维持西(东)风距平,西印度洋—东非沿岸为南(北)风距平,夏季阿拉伯海区和孟加拉湾出现反气旋(气旋)距平环流;200hPa合成风场上印度半岛维持东(西)风距平,南亚高压偏强(弱),索马里沿岸为南(北)风距平。印度夏季风异常与夏季印度洋海温距平的纬向分布型有密切联系。当夏季海温场出现西冷(暖)东暖(冷)的分布型时,季风偏强(弱),高原降水普遍偏多(少)。相关分析指出,索马里赤道海区的风场异常与高原夏季降水的关系最为密切,在此基础上我们定义了一个索马里急流越赤道气流指数,用它识别高原夏季旱涝的能力较之目前普遍使用的印度季风指数有了明显的提高。 相似文献
17.
滤除ENSO信号前后夏季热带印度洋海盆尺度海温距平对西太平洋副热带高压的不同影响 总被引:1,自引:0,他引:1
使用NCEP/NCAR再分析资料、哈得来海表温度和中国国家气候中心的西太平洋副热带高压(西太副高)特征指数,对比分析了ENSO背景下的夏季印度洋海盆尺度模(Indian Ocean basin mode,IOBM)与独立于ENSO的纯IOBM(pure Indian Ocean basin mode,IOBM_P)对西太副高的影响机理。结果表明,滤除前期ENSO信号后,西北太平洋上为海温负距平,并在其西北侧强迫出Gill型反气旋。另外,印度洋与海洋性大陆间存在西高东低的海温距平梯度,印度洋正、负海温距平激发出的赤道开尔文波影响至海洋性大陆西部地区,强迫出的异常大气环流关于赤道基本对称。加之此时中国南海至西北太平洋地区降水偏弱,潜热释放偏少,从而非绝热冷却,导致西太副高异常偏强、偏南。而在前期厄尔尼诺的影响下,次年夏季印度洋与海洋性大陆地区均有利于出现海温正距平,开尔文波的影响偏强、偏东,强迫出的异常环流偏向北半球,通过“埃克曼抽吸”和非绝热冷却在对流层低层制造出异常负涡度进而影响西太副高,使其明显偏强、偏西、偏南。由于IOBM_P在2和8年周期上对西太副高的影响最明显,而ENSO信号中主要是3—7 a的短周期振荡,因此,ENSO背景下的印度洋变暖对西太副高的遥强迫实际包含了来自热带中太平洋的3—7 a周期信号的滞后影响和印度洋地区局地变化特别是2和8年周期变化的作用。这些结果为人们深入理解西太副高变化规律和做出有效预报提供了线索。 相似文献
18.
The Antarctic oscillation-East Asian summer monsoon connections in NCEP-1 and ERA-40 总被引:2,自引:0,他引:2
Connections between the spring Antarctic Oscillation(AAO)and the East Asian summer monsoon (EASM)in two reanalysis datasets—NCEP-1(NCEP/NCAR Reanalysis 1)and ERA-40(ECMWF 40- year Reanalysis)—are investigated in this study.Both show significant correlation between AAO and EASM rainfall over the Yangtze River valley,especially after about 1985.Though ERA-40 shows weaker anomalous signals connecting AAO and EASM over southern high latitudes than NCEP-1,both datasets reveal similar connecting patterns between ... 相似文献
19.
Based on the data of SST and NCEP/NCAR reanalysis data, the relationship is analyzed of spring SSTA in the Kuroshio region with summer precipitation in China, summer 500 hPa field and water vapor transport, using the methods of Morlet wave, correlation and composite analysis. The results show that annual and interdecadal change of spring SST in the Kuroshio region is distinct. Spring SST displays a significantly increasing trend and there exist different periodic oscillations in the Kuroshio region, with the 23-year periodic oscillation being the most obvious. Troughs and ridges in the mid- and higher- latitudes turn deeper in high Kuroshio SSTA years. At the same time, the western Pacific subtropical high strengthens and stretches westwards. As a result, the warm / wet air from the west of the subtropical high locates in the mid- and lower- reaches of the Yangtze River and south China and summer rainfall in the above regions increases accordingly. Composite anomalous water vapor flux fields indicate that the vapor transport from the South China Sea and western Pacific and the vapor from the north converge over the mid- and lower- reaches of the Yangtze River and south China, which results in the increase of the summer rainfall in the mid- and lower- reaches of the Yangtze River and south China. On the contrary, the summer rainfall in the mid- and lower- reaches of the Yangtze River and south China decreases correspondingly in low Kuroshio SSTA years. 相似文献
20.
使用区域气候模式RegCM4.4.5.7,通过改变春季欧亚大陆中高纬地区的陆面感热通量,对欧亚中高纬感热异常影响中国夏季气候进行模拟分析,并探讨其影响机制。试验结果表明:当春季欧亚中高纬陆面感热通量加强时,我国长江流域和东北东部夏季气温降低,降水偏多;华北地区气温升高,降水偏少。春季陆面感热增强引起近地面和对流层低层大气热力状况异常,进而导致高度场和环流场的异常,长江流域和东北地区有气旋环流,对流运动旺盛,结合充足的水汽条件,对应降水偏多,而华北地区则相反,有反气旋环流和微弱的气流辐合,对应降水偏少。研究表明欧亚中高纬陆面感热异常是影响我国夏季气候的一个不可忽视的因子。 相似文献