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1.
宋玉成,黄荣辉TheDynamicalEffectsofDivergentWindontheIntraseasonalvariabintyoftheEastAsianCirculation¥SongYuchengandHuangRonghui(Ins... 相似文献
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春季长江中下游旱涝的环流特征及对前期海温异常的响应 总被引:1,自引:0,他引:1
春季长江中下游降水有显着的年际、年代际变化特征,进入21世纪以来长江中下游春季降水偏少现象频繁发生.根据中国国家气候中心160站月平均降水资料和美国国家环境预报中心/国家大气研究中心(NCEP/NCAR)月平均再分析资料,重点探讨春季(3-5月)长江中下游地区降水异常的环流特征、可能成因、机理以及对外强迫的响应.春季长江中下游降水异常偏多(少)的环流主要特征是:高层200hPa风场上东亚副热带西风急流中心位置比气候态偏北(南);中层500hPa亚洲地区的阻塞高压主要发生在乌拉尔山(鄂霍次克海)附近、西太平洋副热带高压位置偏北(南);低层850hPa风场的东亚沿海地区为偏南(北)风距平,有利于(不利于)水汽向长江中下游地区输送.大气环流内部动力过程的分析指出:东亚地区上空Eliassen-Palm(EP)通量散度在40°N为正(负)异常、30°N为负(正)异常,有利于东亚高空西风急流中心位置偏北(南),从而导致春季长江中下游降水偏多(偏少).春季长江中下游降水异常偏多(少)年最显着的前期外强迫信号表现为赤道太平洋海温呈现厄尔尼诺(拉尼娜)型. 相似文献
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利用1979~2013年中国站点逐日降水资料和NCEP/NCAR再分析资料,对长江中下游夏季降水的季节内振荡最显著周期进行了分析研究。结果表明长江中游最显著周期为10~30天,长江下游最显著周期为30~60天。为了揭示这种差异产生的物理原因,进一步利用位相合成的方法对这两个区域不同周期的季节内振荡降水、高低空风场和高度场以及垂直结构和水汽等循环过程的演变特征进行分析。在200 hPa环流场上,长江中游的降水主要受到高纬度自西向东传播的波列影响,而长江下游的降水与鄂霍次克海的高度场的变化相关。在风场的垂直涡度和散度的位相结构演变过程中,10~30天的垂直涡度和散度有自北向南的移动,30~60天的垂直涡度和散度在长江以南地区有自南向北的传播。水汽输送的位相发展过程表明,长江中游的水汽分别来自于南海的向北输送和长江以北地区向南的水汽输送;长江下游地区的水汽则主要来自于热带东印度洋经孟加拉湾的向东输送并在南海的北向输送,以及西太平洋水汽向西输送到南海再向长江下游的输送。从高层大尺度环流场和整层积分的水汽通量输送上解释了长江中游10~30天降水的自北向南移动,和长江下游30~60天降水自南向北传播的原因。 相似文献
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利用地面加密降水资料、NCEP fnl再分析资料和风云4A卫星TBB资料,对2020年7月5-8日长江中下游地区的连续性大暴雨过程进行了诊断分析。结果表明,这次连续性大暴雨过程是在有利的大尺度环流背景下,受切变线影响由列车型对流云团产生的。7月5-8日,亚洲中高纬度大气环流调整,贝湖的东阻高崩溃,带动中高纬度的中高层冷空气持续南下,在长江流域与北上的暖湿气流交汇,使得暴雨产生和发展;同时干冷空气的侵入加强了暴雨过程的对流性不稳定,对暴雨的加强和发展起到重要作用。暴雨期间,低空西南急流的增强提供了有利的水汽输送条件,高空急流增强并发生“倾斜”,高低空急流的耦合在长江中下游上空形成了强烈的高空辐合与低空辐散,使得旺盛的上升运动延伸至对流层高层。在有利的环流背景条件下,中尺度对流系统的“列车效应”是导致本次大暴雨的直接原因。 相似文献
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Connection between the Silk Road Pattern in July and the following January temperature over East Asia 
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下载免费PDF全文 This study investigates a cross-seasonal influence of the Silk Road Pattern (SRP) in July and discusses the related mechanism. Both the reanalysis and observational datasets indicate that the July SRP is closely related to the following January temperature over East Asia during 1958/59–2001/02. Linear regression results reveal that, following a higher-than-normal SRP index in July, the Siberian high, Aleutian low, Urals high, East Asian trough, and meridional shear of the East Asian jet intensify significantly in January. Such atmospheric circulation anomalies are favorable for northerly wind anomalies over East Asia, leading to more southward advection of cold air and causing a decrease in temperature. Further analysis indicates that the North Pacific sea surface temperature anomalies (SSTAs) might play a critical role in storing the anomalous signal of the July SRP. The significant SSTAs related to the July SRP weaken in October and November, re-emerge in December, and strengthen in the following January. Such an SSTA pattern in January can induce a surface anomalous cyclone over North Pacific and lead to dominant convergence anomalies over northwestern Pacific. Correspondingly, significant divergence anomalies appear, collocated in the upper-level troposphere in situ. Due to the advection of vorticity by divergent wind, which can be regarded as a wave source, a stationary Rossby wave originates from North Pacific and propagates eastward to East Asia, leading to temperature anomalies through its influence on the large-scale atmospheric circulation. 相似文献
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利用NCEP/NCAR再分析资料及实况观测资料,分析了2019年中国长江中下游地区伏秋连续干旱期间的降水、温度及大气环流异常特征。结果表明:此次干旱具有持续时间长、降水偏少严重、气温较历史同期明显偏高、高温日数明显偏多等极端性特点。西太平洋副热带高压偏强,位置相对偏西、偏北,是形成长江中下游伏秋连旱的最主要原因;南亚高压东伸及负涡度向东输送,利于副热带高压西伸,长江中下游地区始终位于东亚副热带西风急流出口区右侧、对流层中高层负涡度的叠加作用区,使得垂直方向上的下沉辐散得到显著增强;自乌拉尔山至贝加尔湖高压脊形成的"高压坝",偏弱的极涡和东亚大槽等异常中高纬环流形势稳定维持,使得西风带中的气旋性扰动不易影响到副热带地区,利于西太平洋副热带高压的稳定及干旱的维持;频繁的热带系统活动,使得副热带高压在热带对流加热区以北的负涡度作用下得以进一步加强,并且导致对流层低层西南气流、越赤道气流和东南气流等三支气流在向北的输送路径上发生改变,并使长江中下游地区水汽辐合偏弱,使干旱得以维持。 相似文献
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西北太平洋夏季风对中国长江流域夏季降水的影响 总被引:11,自引:5,他引:6
利用1979~2005年NCEP/NCAR的环流场再分析资料和降水资料, 通过对季风期降水、 大气环流、 水汽输送及低频振荡等方面的分析, 分别从时间和空间上分析了西北太平洋夏季风与中国长江流域夏季降水的联系。结果表明:(1) 西北太平洋夏季风与中国长江流域夏季降水存在显著的负相关关系, 在西北太平洋夏季风强盛时, 副热带高压异常偏北, 其西侧的偏南气流异常偏弱, 使得我国长江流域形成低层异常环流及水汽输送的辐散区, 从而造成长江流域夏季降水偏少; 而在西北太平洋夏季风减弱的年份, 西太平洋副高异常偏南偏西, 在长江流域以南地区形成异常偏强的偏南风水汽输送, 使得长江流域成为南、 北距平风的汇合区, 其上空对流活动异常活跃, 非常有利于长江流域的降水。 (2) 东亚局地Hadley垂直环流在强、 弱季风年也显著不同, 在强季风年里, Hadley局地环流异常偏弱, 长江流域上空出现的下沉运动距平, 使得该地区降水减弱, 而弱季风年则正好相反。 (3) 西北太平洋夏季风存在显著的气候平均的大气季节内振荡 (CISO), 在西北太平洋夏季风减弱时期, 长江流域降水同时受到源自热带西北太平洋西传CISO和源自热带印度洋东传CISO的共同影响, 可能造成了某种锁相关系, 从而造成降水偏多; 而在强季风年里长江流域只受由西太平洋西传的CISO的影响, 不容易激发降水。 相似文献
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2007年淮河强降水时期低频环流特征 总被引:2,自引:1,他引:1
利用NCEP/NCAR再分析资料以及中国气象台站降水资料,研究了2007年夏季淮河流域强降水的低频振荡及其环流特征。结果表明,2007年夏季淮河流域强降水低频振荡的主要周期是10 25天。淮河流域降水强弱与对应低频周期存在联系,降水主要发生在低频周期的正位相时期,而在负位相时期结束或明显减弱。降水的低频变化一方面与副热带高压和南亚高压的低频变化有关,另一方面还受到中高纬度冷空气低频变化的影响。在低频周期的峰值位相,对流层高层出现的低频反气旋使南亚高压偏东,脊线偏北,并有利于西太平洋副热带高压向更西、更北的方向发展,整个对流层垂直方向上有低频的上升运动。中高纬地区出现大片正位势涡度,冷空气的低频活动显著偏强,南下侵入到中国淮河流域的冷空气较多,形成有利于淮河流域强降水的环流场。相反,在低频周期的谷值位相,对流层高层出现的低频气旋使南亚高压偏西,脊线偏南,不利于西太平洋副热带高压向更西、更北的方向发展,整个对流层垂直方向上有低频的下沉运动。高纬度冷空气的低频活动偏弱,南下侵入到中国淮河流域的冷空气也较少,最终形成不利于淮河流域强降水的环流场。 相似文献
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东亚副热带西风急流位置异常对长江中下游夏季降水的影响 总被引:47,自引:9,他引:47
利用NCEP/NCAR 200 hPa月平均风场再分析资料,定义东亚大陆对流层上层不同经度上最大西风所在位置的平均纬度为东亚副热带西风急流轴线指数,该指数能准确反映东亚副热带西风急流位置的南北变化及其对长江中下游降水的影响,并能较好地体现东亚夏季风盛行期间对流层低层与高层的纬向风场变化特征。分析表明,该指数的时间变化具有与长江中下游夏季降水较一致的年代际变化及年际振荡特征。对东亚副热带西风急流位置异常年的大气环流差异分析表明,急流异常偏北时,南亚高压偏弱,位置偏北偏西,呈伊朗高压型;西太平洋副热带高压(下称西太副高)偏弱、位置偏东偏北;气流的辐合上升区北移至华北一带,而长江流域低层风场为辐散异常,上升气流较常年偏弱,降水偏少。急流异常偏南时,南亚高压偏强,位置偏南偏东,呈青藏高压型;西太副高偏强、位置偏西偏南;长江流域地区上空低层有较强辐合上升气流,高层有较强的气流辐散,对流旺盛,雨带在此维持,容易引发洪涝。 相似文献
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Interannual variability of the convective activities associated with the east asian summer monsoon obtained from tbb variability 总被引:5,自引:0,他引:5
1.IntroductionSouthAsiaandEastAsiaareahugemonsoonsystem,inwhichtheEastAsianmonsoonisitssubmonsoonsystem.BecausetheEastAsiansu... 相似文献
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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. 相似文献
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Effects of intraseasonal oscillation on the anomalous East Asian summer monsoon during 1999 总被引:2,自引:0,他引:2
The 1999 East Asian summer monsoon was very unusual for its weak northward advance and remarkably anomalous climate conditions. The monsoonal southwesterly airflow and related rain belt in East Asia were blocked south of the Yangtze River Valley. The monsoonal airflow and major moisture transport conduct shifted eastward and turned northward to Japan from the tropical western Pacific rather than to East China from the South China Sea (SCS) as in normal years. Severe and prolonged drought occurred over extensive areas of North China and heavy precipitation in South China and Japan. The investigation on the possible intrinsic mechanisms related to such an anomalous monsoon year has shown that the unique behavior of intraseasonal oscillation may play an essential role during this process. During this year, the northward propagation of 30-60-day anomalous low-level cyclone/anticyclone collapsed in the region around 20°N and did not extend beyond the latitudes of the Yangtze River basin due to the barrier of strong cold air intrusion from the mid-latitudes. The southwesterly moisture flux on the northwestern flank of the anticyclonic moisture transport system in the western North Pacific, which was regulated by the northward shift of 30-60-day cyclonic/anticyclonic moisture transport, also did not reach the region north of 30°N as well. Under this circumstance, the weak northward advance of the monsoon westerlies and associated northward moisture transport could not arrive in North China and led to the severe droughts there in 1999. The SCS and South China were mostly affected by the airflow in the southern and northern flanks of the same 30-60-day cyclones or anticyclones, respectively, and thus controlled by the nearly reverse zonal wind and moisture convergent/divergent conditions. The rainfall in the SCS and South China showed out-of-phase oscillation through the transient local Hadley circulation, with the rainfall maximum occurring in the SCS (South China) when the 30-60-day anticyclone (cyclone) r 相似文献
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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 总被引:120,自引:32,他引:120
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。 相似文献
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We partition the observed wind field into rotational and divergent wind fields to analyze the stream field of Typhoon Polly(No.9216),which landed on 31 August 1992 and caused severe weather and large damage in the eastern China.The results indicate that the preservation of typhoon intensity after landing and the heavy rainfall took place onthe northern periphery of typho on are due to the strong divergent winds on the regions of low level jet(LLJ) and high level jet(HLJ) around the typhoon.The direction of divergent winds in the LLJ is perpendicular to the observed wind.But,the direction of divergent winds around the HLJ axis is parallel to the observed winds.The stream function and the rotational wind corresponding to the horizontal vorticity display the vertical circulation associated with the heavy rain,which is stronger than the vertical circulation around the typhoon center.The three-dimensional trajectories exhibit the warm and moist air parcels of LLJ traveling northward into the heavy rainfall region and ascending,then turning eastward in the HLJ. 相似文献
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利用NCEP/NCAR 1979-2009年月平均风场资料,用质量流函数来定义东亚副热带的经圈环流指数,分析夏季(6-8月)东亚副热带经圈环流特征.结果表明,夏季东亚地区受反Hadlev环流影响,表现出与全球平均经圈环流不同的特征,用指数表征的东亚副热带经圈环流强度存在明显的年际和年代际变化.另外,利用相关性及水汽通量... 相似文献
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Seasonal Variation of the Meridional Wind in the Temperate Jet Stream and Its Relationship to the Asian Monsoon 下载免费PDF全文
下载免费PDF全文 The features of the temperate jet stream including its location, intensity, structure, seasonal evolution and the relationship with the Asian monsoon are examined by using NCEP/NCAR reanalysis data. It is indicated that the temperate jet stream is prominent and active at 300 hPa in winter over the region from 45°-60°N and west of 120°E. The temperate jet stream is represented by a ridge area of high wind speed and dense stream lines in the monthly or seasonal mean wind field, but it .corresponds to an area frequented by a large number of jet cores in the daily wind field and exhibits a distinct boundary that separates itself with the subtropical jet. A comparison of the meridional wind component of the temperate jet stream with that of the subtropical jet shows that the northerly wind in the temperate jet stream is stronger than the southerly component of the subtropical jet, which plays an important role in the temperate jet stream formation and seasonal evolution, and thus the intensity change of the meridional wind component can be used to represent the temperate jet stream's seasonal variation. Analysis of the temperature gradient in the upper troposphere indicates that the temperate jet stream is accompanied by a maximum zonal temperature gradient and a large meridional temperature gradient, leading to a unique jet stream structure and particular seasonal evolution features, which are different from the subtropical jet. The zonal temperature gradient related to the land-sea thermal contrast along the East China coastal lines is responsible for the seasonal evolution of the temperate jet. In addition, there exists a coordinated synchronous change between the movement of the temperate jet and that of the subtropical jet. The seasonal evolution of the meridional wind intensity is closely related to the seasonal shift of the atmospheric circulation in East Asia, the onset of the Asian summer monsoon and the start of Meiyu in the Yangtze and Huaihe River Valleys, and it correlates well with summer and wint 相似文献
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基于自动识别、追踪方法得到的近50年东北冷涡数据集, 本文研究了东北冷涡的年际变率及演变趋势, 并分析了其持续性活动对我国气候的影响及相关联的大尺度环流异常特征。结果表明, 东北冷涡具有很明显的年际变率, 且存在2.5年左右的主振荡周期, 但没有显著的长期变化趋势。东北局地在持续性冷涡控制下, 四季气温均明显偏低, 并在春季和夏季能造成局部降水偏多。在东北冷涡活跃的夏季, 长江流域往往降水显著偏多; 而在冬季东北冷涡频繁活动时, 我国大部分地区往往低温少雨, 这与强盛的东亚冬季风密切相关。研究结果表明, 冬季东北冷涡活动和东亚冬季风强度之间的相关系数达到99%的信度水平。在东北冷涡活跃的夏季, 东亚地区对流层维持着深厚的偶极型位势高度异常, 高空急流向南偏移并略加强, 低层西北太平洋反气旋异常和中纬度地区的东风异常有助于局地的水汽通量的辐合, 进而有利于降水的偏多。 相似文献