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1.
RELATIONSHIP BETWEEN THE 30 TO 60 DAY OSCILLATION OF ATMOSPHERIC HEAT SOURCE AND THE DROUGHT AND FLOOD EVENTS IN JUNE IN THE SOUTH OF CHINA 总被引:2,自引:1,他引:1
Based on the NCEP/NCAR reanalysis data and the observed precipitation data in the south of China from 1958 to 2000,the impact of 30 to 60 day oscillation of atmospheric heat sources on the drought and flood events in June in the south of China is discussed.During the flood(drought) events,there exists an anomalous low-frequency anticyclone(cyclone) at the low level of the troposphere over the South China Sea and the northwestern Pacific,accompanied with anomalous low-frequency heat sinks(heat sources),while there exists an anomalous low-frequency cyclone(anticyclone) with anomalous heat sources(sinks) over the area from the south of China to the south of Japan.On average,the phase evolution of the low-frequency in drought events is 7 to 11 days ahead of that in flood events in May to June in the south of China.In flood events,low-frequency heat sources and cyclones are propagated northward from the southern South China Sea,northwestward from the warm pool of the western Pacific and westward from the northwestern Pacific around 140°E,which have very important impact on the abundant rainfall in June in the south of China.However,in drought events,the northward propagations of the low-frequency heat sources and cyclones from the South China Sea and its vicinity are rather late compared with those in flood events,and there is no obvious westward propagation of the heat sources from the northwestern Pacific.The timing of the low-frequency heat source propagation has remarkable impact on the June rainfall in the south of China. 相似文献
2.
鲍名 《热带气象学报(英文版)》2008,14(1):28-32
The different effects of anomalous convective activities in the tropical western Pacific on two persistent heavy rain events in South China in 2005 and 2006 have been compared in this study. The dataused consist of NOAA Outgoing Longwave Radiation (OLR) data, the NCEP-NCAR reanalysis and precipitation from meteorological stations in South China. Results show that the persistent heavy rain in 2005 was related to the 10-25-day westward propagation of convective activities in the tropical western Pacific from about 150 °E. The physical mechanism is interpreted as a Gill-type response of subtropical anticyclone westward extension during weak convective activities period over the Philippine Sea. Our researches also show that the persistent heavy rain in 2006 has longer period than that in 2005, and the subtropical anticyclone persists westward in the earlier summer which is possibly related to the lasting anomalous strong convective motion in the southern branch of Intertropical Convergence Zone (ITCZ) in the tropic western Pacific. The anomalous convective activities affect the local Hadley circulation over the western Pacific with anomalous ascending motion south of the equator and anomalous descend motion north of it, in favor of the westward extension of the subtropical anticyclone for a long time. Comparison between the two persistent heavy rain events indicates different physical effects of convective activities in the tropical western Pacific, though both effects are helpful to the subtropical anticyclone westward extension as a common character of large-scale circulation backgrounds for persistent heavy rain events in South China. 相似文献
3.
2015年我国东部夏季降水呈现南北反位相的空间分布,河套地区降水异常偏少、长江中下游地区降水异常偏多,同期印度中部地区降水负异常,上述三个区域2015年夏季降水距平百分率绝对值极大值均超过55%。东亚和南亚地区2015年夏季降水异常的形成机理主要是由于该年夏季处于El Niňo事件的发展位相,菲律宾群岛及邻近区域反气旋环流异常,江淮地区至日本列岛气旋式环流异常,对流层低层位势高度异常场和整层水汽异常输送场亦存在相一致的空间分布,表现为负位相的EAP(East Asian-Pacific)/PJ(Pacific-Japan)型遥相关,有利于河套地区降水偏少和长江流域降水偏多。热带太平洋海温异常引起热带地区Walker环流负异常,热带西太平洋地区上空受异常下沉气流控制,热带印度洋区域对流层盛行东风异常,减弱了印度夏季风,并造成了印度中部地区夏季降水偏少。另一方面,印度上空对流层低层受异常反气旋控制,该异常反气旋北侧的西风异常沿着青藏高原南麓向东运动,增强了与EAP/PJ型遥相关相联系的异常水汽输送,有利于维持和增强河套地区降水负异常和长江中下游地区降水正异常。 相似文献
4.
NUMERICAL SIMULATION OF SSTA IMPACTS UPON THE INTERDECADAL VARIATION OF THE CROSS-EQUATORIAL FLOWS IN EASTERN HEMISPHERE 总被引:1,自引:0,他引:1
Impacts of regional sea surface temperature(SST)anomalies on the interdecadal variation of the cross-equatorial flows(CEFs)in Eastern Hemisphere are studied using numerical simulations with a global atmospheric circulation model(NCAR CAM3)driven with 1950-2000 monthly SSTs in different marine areas(the globe,extratropics,tropics,tropical Indian Ocean-Pacific,and tropical Pacific)and ERA-40reanalysis data.Results show that all simulations,except the one driven with extratropical SSTs,can simulate the interdecadal strengthening of CEFs around Somali,120oE,and 150oE that occurred in the midand late-1970s.Among those simulated CEFs,the interdecadal variability in Somali and its interdecadal relationship with the East Asian summer monsoon are in better agreement with the observations,suggesting that changes in the SSTs of tropical oceans,especially the tropical Pacific,play a crucial role in the interdecadal variability of CEFs in Somali.The interdecadal change of CEFs in Somali is highly associated with the interdecadal variation of tropical Pacific SST.As the interdecadal warmer(colder)SST happens in the tropical Pacific,a"sandwich"pattern of SST anomalies,i.e."+,-,+"("-,+,-"),will occur in the eastern tropical Pacific from north to south with a pair of anomalous anticyclone(cyclone)at the lower troposphere;the pair links to another pair of anomalous cyclone(anticyclone)in the tropical Indian Ocean through an atmospheric bridge,and thus strengthens(weakens)the CEFs in Somali. 相似文献
5.
利用NCEP/NCAR 1 000~10 hPa 2.5 (×2.5 (的再分析资料,分析了与西太平洋副热带高压(简称西太副高)东西进退相关系的热带对流层上空东风带扰动(简称EV)的结构和演变特征.结果表明:西太副高与其南侧的东风带扰动存在同时西进的过程,当西太副高南、北两侧的东、西风带上的扰动在相向运动中抵达同一经度上时,西太副高出现异常东退.热带对流层上空东风带扰动为中高层天气系统,它从对流层中层伸展到50 hPa高度附近,在200 hPa上表现得最为明显,在热力场上表现出"上暖强下冷弱"的垂直分布特征;在西太副高东退时,东风带扰动东西侧的辐散效应和垂直运动的性质发生了显著变化,东风带扰动中心附近的垂直速度场出现从上升运动到向下下沉运动转化的过程. 相似文献
6.
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
7.
利用NCEP/NCAR再分析资料和观测的台站降水资料研究了1991年梅雨期间江淮洪涝区降水的季节内振荡及其环流特征,着重考察了不同层次副热带高压的低频变化与降水的关系。小波分析表明1991年江淮梅雨期间降水低频振荡的主周期是15~35 d。在低空,15~35 d振荡以异常反气旋(气旋)的形式在中国东南沿海地区交替出现,调控着西太平洋副热带高压进入(退出)南海。低空的这种低频环流型与高空的偶极型涡旋对相耦合,偶极型涡旋对使得南亚高压东伸(西退),形成有利(不利)江淮流域降水的环流形势。江淮流域降水的低频振荡与500hPa北太平洋副热带高压的低频变化及其传播密切相关。当北太平洋西部的位势高度偏高、中部位势高度偏低时,江淮流域降水偏多;反之偏少。这种低频振荡可能起源于北太平洋中部夏威夷群岛附近,然后沿着副热带高压脊线附近向西传播到中国东南沿海。 相似文献
8.
我国秋季降水的年际变化及与热带太平洋海温异常分布的关系 总被引:9,自引:0,他引:9
利用我国160个站点58年(1951~2008年)的降水资料、NCEP/NCAR再分析环流资料和Hadley海表温度资料,对我国秋季降水年际变化的特征和可能成因进行了分析。结果显示,秋季降水前两模态分别反映长江流域及以南地区和长江以北的江淮、黄淮、华北、四川盆地北部至河套等地降水的变化,两降水模态的变化都以年际尺度为主,年代际变化特征不明显。就环流形势而言,第一模态的年际变化主要与西太平洋副热带高压的强度及相应的对流层低层菲律宾群岛附近的异常气旋/反气旋联系紧密,第二模态的年际变化则可能受到副热带高压的南北位置和相应的日本岛附近的异常气旋/反气旋的影响。同时,两模态及相应的异常环流还分别与热带东印度洋和热带西太平洋附近的异常垂直运动关系密切,热带地区的异常垂直运动可能通过经圈方向的异常环流影响到东亚地区。此外,两降水模态不仅与热带地区的异常环流关系密切,而且与热带海温异常也存在紧密的联系。与两模态相关联的热带太平洋海温异常显示出不同的分布特征,当热带东太平洋偏暖/冷,西太平洋偏冷/暖时,长江以南地区降水偏多/少。而当热带东太平洋和中太平洋一致偏暖/冷时,长江以北地区降水易偏少/多。两降水模态与热带海温及热带地区异常环流之间的密切关系显示热带太平洋海温异常的不同分布可能通过激发不同的热带地区异常垂直环流形势而对降水产生影响。 相似文献
9.
Intraseasonal variations of the Yangtze rainfall and its related atmospheric circulation features during the 1991 summer 总被引:5,自引:0,他引:5
The intraseasonal variations of the Yangtze rainfall over eastern China and its related atmospheric circulation characteristics during the 1991 summer are examined based on the gauge-observed rainfall and the NCEP/NCAR reanalysis data. Wavelet analysis shows that during the 1991 summer, the active and break sequences of rainfall over the middle and lower Yangtze Basin are mainly regulated by an oscillatory mode with a period of 15–35 days. An investigation of the circulation features suggests that the 15–35-day oscillation is associated with an anomalous low-level cyclone (anticyclone) appearing alternatively over the northern South China Sea (SCS) and the Philippine Sea, and related to a northeastward (southwestward) shift of the western Pacific subtropical anticyclone over the SCS, leading to a lower tropospheric divergence (convergence) over the Yangtze Basin. In the upper troposphere, the 15–35-day oscillation exhibits a dipole anomaly characterized by an anomalous cyclone (anticyclone) over eastern China and an anomalous anticyclone (cyclone) over the northern Tibetan Plateau, resulting in a southwestward shrinking (northeastward extending) of the South Asian anticyclone, and forming a convergence (divergence) over eastern China. Such a coupled anomalous flow pattern between the lower and upper troposphere favors large-scale descending (ascending) motion, and hence reduced (enhanced) rainfall over the Yangtze Basin. Dynamically, the intraseasonal variations in the Yangtze rainfall are mainly determined by the coupling between the low-level relative vorticity and the upper-level divergence. In the middle troposphere, the 15–35-day oscillation of the subtropical high is originated over the central North Pacific north of Hawaii, then propagates westward to the SCS-Philippine Sea, and finally modulates the intraseasonal variations of the Yangtze rainfall. 相似文献
10.
利用1981—2013年中国160站逐月降水资料、NCEP/NCAR逐月再分析资料及NOAA海表温度资料,研究了华南前汛期降水年代际异常的时空特征及其可能成因。结果表明:1)华南前汛期降水在1992前后发生由异常偏少转为偏多的显著年代际转折,最显著异常中心位于广西东北部和广东北部。2)1990年代初发生的对流层高层南冷北暖(40°N附近为界)、对流层下暖上冷的年代际转折,使得高低层环流场均出现了有利于北方干、湿冷空气和孟加拉湾、西太平洋暖湿水汽在华南区域交汇并辐合上升的形势,造成华南前汛期降水发生偏少转偏多的显著年代际转折。年代际转折的前后两个时段中,位于热带的孟加拉湾槽、东亚沿岸EAP遥相关型波列中的西太平洋副高、阿拉斯加湾附近的脊,以及中纬度贝加尔湖以西以南脊的强度或位置均具有显著差异,故这些环流系统的年代际异常是华南前汛期降水年代际异常的重要原因。3)南太平洋关键区海温在1990年代初开始呈现增暖趋势,在偏暖(偏冷)时期,华南低空受异常气旋(异常反气旋)环流控制,对流层上层西风急流偏弱偏南(偏强偏北),造成华南地区降水异常偏多(偏少)。 相似文献
11.
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 
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下载免费PDF全文 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. 相似文献
12.
利用Hadley中心的海表温度资料、全国160站降水资料以及NCEP-DOE AMIP-Ⅱ再分析等资料,运用多种统计分析方法,分析了春季(3—5月)热带大西洋北部海温异常变化特征及其对我国盛夏(7、8月)降水异常的影响。结果表明:春季热带大西洋北部模态是热带大西洋海温异常REOF分解的第一模态,方差贡献率为34.5%。热带大西洋北部海温异常年际变率具有明显的季节差异,其中春季最为显著。春季热带大西洋北部海温异常与我国盛夏华中地区降水异常有显著的正相关关系。进一步分析表明,春季热带大西洋北部的海温正异常可以激发出Rossby波,在热带大西洋西北部和热带东太平洋北部产生异常的气旋式环流,引起上述区域的对流层低层(上层)大气出现异常辐合(辐散),并通过热带大西洋北部地区和太平洋之间的垂直环流异常,在中太平洋地区对流层低层大气出现异常辐散,有利于西北太平洋地区产生异常反气旋式环流,异常反气旋西北侧的西南气流有利于水汽输送至我国华中地区,使该地区降水偏多。且这种影响可以通过热带大西洋北部海温异常的持续性,从春季一直持续到盛夏。 相似文献
13.
14.
利用1961—2018年中国地面气象台站2 400站中广东省和广西壮族自治区(两广地区)134站逐日降水资料、英国Hadley中心逐月海表温度资料、NCEP/NCAR逐月再分析资料,筛选了两广地区前汛期降水正(负)异常、后汛期降水负(正)异常的年份,即前、后汛期降水异常反位相年份。结果表明,近60 a来,两广地区前、后汛期降水反位相现象与热带西太平洋海温异常存在密切联系。前汛期期间,当热带西太平洋海温为负异常时,大气对该冷源的Rossby波响应引起西北太平洋反气旋环流异常,且水汽由热带西太平洋向两广地区输送并辐合,同时两广地区为水汽的湿平流区域、风场异常辐合区域,其上空受异常上升运动控制,这样的环流配置有利于两广前汛期期间降水正异常。热带西太平洋海温负异常可持续至后汛期期间,大气的Rossby波响应所致的西太平洋反气旋较前汛期偏西北,两广地区为水汽异常辐散区域,同时水汽干平流且风场异常辐散,受异常下沉运动控制,不利于两广地区降水的产生。反之亦然。 相似文献
15.
中国东南部5—8月持续性强降水和环流异常的准双周振荡 总被引:10,自引:5,他引:5
利用1979—2009年夏季(5—8月)中国站点逐日降水资料、NCEP/NCAR大气再分析资料以及向外长波辐射(OLR)资料,分析了中国东南部夏季持续性强降水的低频特征及其伴随的低频大气环流形势,利用超前滞后合成的方法对该低频信号的来源和传播特征进行了研究。结果表明:中国东南部夏季降水存在明显的准双周低频振荡,低频降水事件(持续性强降水)在6月10日前后和7月1日前后发生的次数较多,持续5d的低频降水事件降水量占总低频降水事件的比例最大。在低频降水事件发生时期,中国东南部在低层是很强的低频气旋式环流,而在中国南海至西太平洋一带则是强大的低频反气旋,同时低频的水汽从孟加拉湾北部以及中国南海、菲律宾海一带输送到长江以南地区强烈辐合上升;此时在高层一个低频反气旋控制中国东北部地区,该低频反气旋与其西侧的低频反气旋以及位于中国东南沿海的低频气旋相互配合,使得长江以南地区高层强烈地辐散,加强了低层的上升运动。在超前低频降水7d左右时,大气低层在150°E洋面附近开始出现低频反气旋,逐渐加强并向西移动到达中国东南沿海,而在中国南海一带的低频气旋则向西北移动到长江以南地区,与此同时,副热带高压有一个明显的西伸过程,高低层相互配合最终导致低频降水的发生。 相似文献
16.
The significant differences of atmospheric circulation between flooding in the Huaihe and Yangtze River valleys during early mei-yu(i.e.,the East Asian rainy season in June) and the related tropical convection were investigated.During the both flooding cases,although the geopotential height anomalies always exhibit equivalent barotropic structures in middle to high latitudes at middle and upper troposphere,the phase of the Rossby wave train is different over Eurasian continent.During flooding in the Huaihe River valley,only one single blocking anticyclone is located over Baikal Lake.In contrast,during flooding in the Yangtze River valley,there are two blocking anticyclones.One is over the Ural Mountains and the other is over Northeast Asia.In the lower troposphere a positive geopotential height anomaly is located at the western ridge of subtropical anticyclone over Western Pacific(SAWP) in both flooding cases,but the location of the height anomaly is much farther north and west during the Huaihe River mei-yu flooding.Furthermore,abnormal rainfall in the Huaihe River valley and the regions north of it in China is closely linked with the latent heating anomaly over the Arabian Sea and Indian peninsula.However,the rainfall in the Yangtze River valley and the regions to its south in China is strongly related to the convection over the western tropical Pacific.Numerical experiments demonstrated that the enhanced latent heating over the Arabian Sea and Indian peninsula causes water vapor convergence in the region south of Tibetan Plateau and in the Huaihe River valley extending to Japan Sea with enhanced precipitation;and vapor divergence over the Yangtze River valley and the regions to its south with deficient precipitation.While the weakened convection in the tropical West Pacific results in moisture converging over the Yangtze River and the region to its south,along with abundant rainfall. 相似文献
17.
利用5月份澳大利亚海平面气压和中国107站的6—7月降水资料,使用SVD方法揭示了5月份澳大利亚高压(简称澳高)与江苏汛期(6—7月)降水(简称汛期降水)的联系及可能原因,研究表明:当5月澳高偏强时,汛期环流特征表现为:(1)低层风场在30°N附近存在明显的风向切变,上升气流显著,并且西太平洋副热带高压较常年偏西,这样有利于降水增多;(2)130°E附近的越赤道气流显著加强,为降水提供了很好的水汽条件。主要影响途径:当5月澳高偏强(偏弱)时,与澳高相联系的印度尼西亚附近海温持续性偏冷(偏暖),偏冷(偏暖)的海温一方面使得其区域低层风场的异常辐散(辐合),异常辐散(辐合)风场作为涡度源通过Gill型响应可引起西太平洋异常反气旋(气旋)环流,有利于副热带高压较常年偏强偏西(偏弱偏东),也增强(减弱)了自南向北的暖湿气流的输送;另一方面引起其区域下沉(上升)气流异常,进而通过类似与EAP波列,激发江淮地区的异常上升(下沉)气流,使得汛期降水偏多(偏少)。 相似文献
18.
华南4—5月持续性干旱及其环流背景 总被引:5,自引:1,他引:4
用测站降水量资料和NCEP-DOEⅡ再分析资料等,统计分析了华南春季各月降水量逐年变化的相互关系以及华南4—5月持续性干旱对应的大气环流异常特征,初步探讨了与华南4—5月持续性干旱有关的海温异常及其可能的影响机理。华南春季降水量主要变异型为全区一致型,近30年来华南春季降水量在减少,华南4、5月降水量的逐年变化有显著的同相特征。华南春旱主要是由4—5月的降水持续偏少造成的。在华南4—5月持续干旱年,华南附近高低空都存在一个异常的反气旋,并在华南上空造成异常下沉运动;东亚大槽南支偏弱,不利于中高纬度冷空气南下,因而不利于华南降水。在华南4—5月持续干旱年,热带中太平洋的海温正距平可从前一年12月一直持续到当年5月,其影响华南春旱的机制是:由于赤道中太平洋地区海温正距平,导致该区域的异常辐合上升运动,同时通过罗斯贝波的响应在其西侧即西太平洋赤道南、北两侧低空强迫形成气旋性环流异常,在菲律宾东侧的热带西太平洋上空强迫出异常的上升运动,进而使南海北部和华南地区出现异常的下沉运动,导致干旱;在南海及热带西太平洋上空大气低层出现的偏北风异常也使得来源于南海—西太平洋的水汽输送减弱,不利于华南降水。在华南4—5月持续干旱年,4、5月欧亚大陆中高纬度地区也存在一个持续性的西北—东南向的异常环流波列,其对华南干旱的发生也具有显著的影响作用。 相似文献
19.
通过资料分析与数值模拟研究了西北太平洋低空环流特征及其与海面温度(SST)异常关系的季节性差异,得到如下结论:1)西北太平洋低空环流的空间尺度和位置在春季和夏季存在明显差异,从春季到夏季,异常环流范围缩小且中心位置向西北偏移;2)西北太平洋低空环流与西北太平洋局地海温的相互作用存在季节差异,春季西北太平洋冷海温与上空反气旋异常之间存在相互作用,而夏季则以大气影响海洋为主,异常的反气旋/气旋可以加热/冷却其下垫面的海温,大气超前3~4 d影响海洋;3)夏季异常反气旋环流(WNPAC)的维持主要来自非局地海温异常(北印度洋暖海温与中太平洋冷海温异常)的强迫,这两个海区对WNPAC的影响也存在季节性差异,北印度洋的影响主要体现在晚春至盛夏,而中太平洋则主要在晚夏发挥作用。 相似文献
20.
Influence of the Asian-Pacific Oscillation on Spring Precipitation over Central Eastern China 总被引:2,自引:0,他引:2
The linkage between the Asian-Pacific oscillation(APO)and the precipitation over central eastern China in spring is preliminarily addressed by use of the observed data.Results show that they correlate very well,with the positive(negative)phase of APO tending to increase(decrease)the precipitation over central eastern China.Such a relationship can be explained by the atmospheric circulation changes over Asia and the North Pacific in association with the anomalous APO.A positive phase of APO,characterized by a positive anomaly over Asia and a negative anomaly over the North Pacific in the upper-tropospheric temperature,corresponds to decreased low-level geopotential height(H)and increased high-level H over Asia,and these effects are concurrent with increased low-level H and decreased high-level H over the North Pacific.Meanwhile,an anticyclonic circulation anomaly in the upper troposphere and a cyclonic circulation anomaly in the lower troposphere are introduced in East Asia,and the low-level southerly wind is strengthened over central eastern China.These changes provide advantageous conditions for enhanced precipitation over central eastern China.The situation is reversed in the negative phase of APO,leading to reduced precipitation in this region. 相似文献