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1.
通过理论分析和数值模拟,研究了降水所致凝结潜热影响副热带高压带断裂的物理机制。基于全型垂直涡度方程的尺度分析指出,强的对流凝结加热的垂直梯度的变化,导致副热带地区对流层高层和中低层的高低压分布呈现出反位相。数值试验证实凝结潜热是决定东半球夏季副热带高压位置和强度的关键因素:东亚季风降雨所致凝结潜热加热使高层南亚高压位于加热中心西侧,中层西太平洋副热带高压位于加热中心东侧。通过定常波的传播,副热带地区的凝结潜热加热对中高纬天气的形成和维持有一定影响。 相似文献
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The studies in China on the formation of the summertime subtropical anticyclone on the climate timescale are reviewed. New insights in resent studies are introduced. It is stressed that either in the free atmosphere or in the planetary boundary, the descending arm of the Hadley cell cannot be considered as a mechanism for the formation of the subtropical anticyclone. Then the theories of thermal adaptation of the atmosphere to external thermal forcing and the potential vorticity forcing are developed to understand the formation of the subtropical anticyclone in the three-dimensional domain. Numerical experiments are designed to verify these theories. Results show that in the boreal summer, the formation of the strong South Asian High in the upper troposphere and the subtropical anticyclone over the western Pacific in the middle and lower troposphere is, to a great extent, due to the convective latent heating associated with the Asian monsoon, but affected by orography and the surface sensible heating over the continents.On the other hand, the formation of the subtropical anticyclone at the surface over the northern Pacific and in the upper troposphere over North America is mainly due to the strong surface sensible heating over North America, but affected by radiation cooling over the eastern North Pacific. Moreover, in the real atmosphere such individual thermal forcing is well organized. By considering the different diabatic heating in synthesis, a quadruple heating pattern is found over each subtropical continent and its adjacent oceans in summer. A distinct circulation pattern accompanies this heating pattern. The global summer subtropical heating and circulation may be viewed as “mosaics” of such quadruplet heating and circulationpatterns respectively. At last, some important issues for further research in understanding and predicting the variations of the subtropical anticyclone are raised. 相似文献
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通过求取定常线性准地转位涡模式的数值解,研究了感热型垂直非均匀分布的冷、热源强迫所激发的副热带环流的结构特征,讨论了副热带背景风场和洋面辐射冷却对洋面副热带高压“三角形偏心”结构形成的重要作用。结果表明,基本流对感热加热强迫的副热带环流有重要影响,当基本流为常数时,感热加热强迫的气旋和反气旋主要集中在对流层中下层,且地面系统远强于中高层。当基本流为非常数时,其经向切变能改变气旋和反气旋中心的经向位置,使它移至0风速所在纬度附近;其垂直变化加强了中高层气旋和反气旋,中心位于对流层上层,与南亚高压的位置基本一致。研究结果还表明,在大洋东部洋面辐射冷却与副热带地区背景风场的共同作用下,形成了洋面副热带高压特有的“三角形偏心”结构。副热带高纬度的西风使感热强迫的洋面副热带高压东移,低纬度的东风使其西移,形成东北—西南走向的“平行四边形”结构,且中心位于大洋西部。大洋东部强洋面辐射冷却激发的洋面反气旋加强了大洋东部的副热带高压,使其中心东移至大洋东部,从而表现出东北—西南走向的“三角形偏心”结构。 相似文献
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通过数值试验研究了孟加拉湾季风爆发期间该地区旺盛的对流凝结加热对南海季风爆发和副热带高压“撤出”南海的影响,结果证明在孟加拉湾地区引入模拟的对流凝结潜热使该地区出现了强烈的上升运动,引起了孟加拉湾季风的爆发。同时由于对凝结加热的非对称Rossby响应,在南海北部导致西风出现和增强及垂直上升运动。因低层水汽平流的共同作用下,在南海北部引起了对流的发展。而正是南海北部的凝结加热促使南海地区温度经向梯度逆转,使副热带高压脊面的倾斜从冬季型转为夏季型,即低层的副热带高压减弱南移。最后当对流在南海地区发展起来时,副热带高压移出南海地区。 相似文献
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本文着重研究了线性模型中副热带环流对潜热加热的响应过程中影响高、低压系统中心位置的因子, 剖析出边界层中基本流的垂直切变影响低层环流的根本原因, 并且探讨了线性模式中基本流和静力稳定度自调整过程的重要作用。结果表明, 在β效应和f效应、基本流在经向和垂直方向的二阶切变、以及东、西风基本流作用的非对称性等因素的共同作用下, 高、低压中心位于热源北侧。结果还表明, 当近地面基本流的垂直切变为零或者当风速随高度减小时, 低层气旋和反气旋中心位于地面上, 当风速随高度增大具有类似亚洲季风区的结构时, 低层气旋和反气旋中心抬升离开地面; 进一步考虑热源区附近静力稳定度和基本流自调整过程的作用后, 反气旋中心继续抬升至中层, 证明对流降水对其东侧对流层中低层副高的形成有重要贡献。指出基于传统线性准地转模式来研究副热带高压形成的缺陷在于应用不适当的下边界条件以及缺乏静力稳定度的自调整机制和基本流对热源的反馈机制, 从而得到“潜热加热激发的低层反气旋中心位于洋面上”的不切实际的解。 相似文献
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季节转换期间副热带高压带形态变异及其机制的研究Ⅰ:副热带高压结构的气候学特征 总被引:30,自引:9,他引:21
利用NCEP/NCAR再分析资料研究了季节转换期间副热带高压结构的气候特征。在亚、非季风区 ,冬季副热带高压带是相对对称的 ,具有脊线连续的带状结构 ,脊面随高度增加向南倾斜 ;夏季副热带高压带中低层是间断的 ,高层是连续的 ,脊面随高度增加向北倾斜。副热带高压脊面倾斜受热成风关系的制约 ,总是倾向暖区。 5月份副热带高压形态变异最显著 ,不同地域副热带高压的结构、性质存在较大差异。夏季型副热带高压于 5月初首先出现在孟加拉湾东部 ,5月第 3候稳定建立在孟加拉湾东部、中南半岛及南海西部地区 ;5月第 4~ 5候在南海建立 ;6月第 1~ 2候在印度中部建立。夏季型副热带高压建立的 3个阶段与亚洲夏季风爆发的 3个阶段存在着较好的对应关系。孟加拉湾夏季风的建立在很大程度上取决于高空副热带高压脊面附近经向温度梯度的反转。对流层中上层副热带高压脊面附近经向温度梯度可以作为表征亚洲夏季风爆发的指标 相似文献
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利用NCEP/NCAR再分析资料及NOAA的OLR资料,研究了春季南亚高压在中南半岛上空建立与500hPa副高在孟加拉湾上空断裂的关系。结果表明,南亚高压建立之前,对流从“海洋大陆”向北推进,首先在中南半岛建立;而孟加拉湾地区由于青藏高原感热作用在对流层中低层形成一个反Hadley环流型的局地经圈环流,15°N附近500—700hPa有下沉运动中心,它抑制了孟加拉湾对流的建立,也不利于500hPa副高带断裂。南亚高压在中南半岛建立之后,位于高压中心西南侧的孟加拉湾上空出现一个强的辐散中心,孟加拉湾地区15°N附近的下沉运动消失,对流发展起来,降水量增加并释放大量潜热,非绝热加热中心位于500hPa,此时副高脊线断裂。因此,高层南亚高压建立所产生的辐散运动很可能对孟加拉湾上空500hPa副高带断裂及对流建立起到了触发作用。 相似文献
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STUDY ON THE VARIATION IN THE CONFIGURATION OF SUBTROPICAL ANTICYCLONE AND ITS MECHANISM DURING SEASONAL TRANSITION-PART I:CLIMATOLOGICAL FEATURES OF SUBTROPICAL HIGH STRUCTURE* 
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下载免费PDF全文 Climatological characteristics of subtropical anticyclone structure during seasonal transition are investigated based on NCEP/NCAR reanalysis data.The ridge-surface of subtropical anticyclone is defined by the boundary surface between westerly to the north and easterly to the south (WEB in brief).In Afro-Asian monsoon area,the subtropical high in troposphere whose ridgelines are consecutive in wintertime takes on relatively symmetrical and zonal structure,the WEB tilts southward with increasing height.In summer,the subtropical high ridgelines are discontinuous at low levels and continuous at upper levels,the WEB tilts northward from the bottom up.Under the constraint of thermal wind relation,the WEB usually tilts toward warmer zone.May is the period when subtropical high modality most significantly varies.The structure and properties of subtropical high during seasonal transition are different from area to area.A new concept "seasonal transition axis" is proposed based on formation and variation of the vertical ridge axis of subtropical anticyclone.The subtropical high of summer pattern firstly occurs over eastern Bay of Bengal in the beginning of May.then stabilizes over eastern Bay of Bengal,Indo-China,and western South China Sea in the 3rd pentad of May,it exists over the South China Sea in the 4th-5th pentad of May and establishes over central India in the 1st-2nd pentad of June.The three consequential stages when summer modal subtropical high occurs correspond to that of Asian summer monsoon onset,respectively.To a great extent,the summer monsoon onset over the Bay of Bengal depends on the reversal of meridional temperature gradient in vicinity of the WEB in upper troposphere.The meridional temperature gradient at middle-upper levels in troposphere can be used as a good indicator for measuring the seasonal transition and Asian monsoon onset. 相似文献
10.
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
11.
长江流域梅雨期降水强度大、范围广、持续时间长,经常导致大范围严重洪涝灾害。该类强降水事件的内动力学过程值得深入讨论。本文以2020年7月5~9日长江流域一次大范围持续性降水为例,通过WRF数值试验分析了降水过程中的凝结潜热与环流系统的相互作用过程。结果表明:在此次大范围持续性强降水事件中,由于凝结潜热的释放,在高层形成高压异常,有利于南亚高压(SAH)加强东伸,SAH东伸的同时与西太平洋副热带高压(WPSH)相互作用,加强WPSH西伸。在潜热释放中心的中低层形成低压异常,有助于阻挡WPSH北上,从而形成稳定的WPSH,有利于降雨系统在长江流域的维持。东亚夏季风演变表现为明显的停滞与北跳特征,其中WPSH的活动是季风雨带演变的核心。本文研究表明,大尺度凝结潜热释放可以通过调节天气系统形成稳定的环流系统,从而有利于雨带加强和维持。这种大尺度雨带凝结潜热释放与环流的相互作用机制可能是夏季风雨带停滞的重要过程。 相似文献
12.
南海夏季风爆发的数值预报模拟实验 总被引:5,自引:0,他引:5
1998年5月21日00时(UTC),对流层上部200hPa的南亚反气旋中心位于(16oN,94oE)附近,850hPa南海的中南部仍为副热带反气旋控制;到21日12时,200hPa的南亚反气旋中心迅速移到(21oN,94oE)附近,同时850hPa的南海副热带反气旋减弱东撤,南海的中南部由东南风转变为西南风,南海夏季风爆发。本文利用美国国家大气研究中心和宾西法尼亚州大学联合研制的中尺度模式(MM5V2)模拟预报这一过程,同时通过敏感性实验研究了区域边界条件和水平分辨率对季风预报模拟实验的影响。 相似文献
13.
青藏高原和亚洲夏季风动力学研究的新进展 总被引:4,自引:1,他引:3
亚洲夏季风环流受海陆和伊朗高原—青藏高原大地形的热力作用调控.亚洲季风所释放的巨大潜热又对大气环流形成反馈.这种相互反馈过程十分复杂,揭示其物理过程对理解气候变化格局的形成和变化以及提高天气预报及气候预测的准确率十分重要.夏季北半球副热带对流层上层环流的主要特征是存在庞大的南亚高压(SAH)以及强大的对流层上层温度暖中心(UTTM).本文介绍了温度—加热垂直梯度(T-QZ)理论的发展,并用以揭示SAH和UTTM的形成机制.指出沿副热带欧亚大陆东部的季风对流潜热加热及其中西部的表面感热加热和高层长波辐射冷却是导致SAH和UTTM在南亚上空发展的原因.文中还介绍了Gill模型用于上部对流层研究的局限性及解决的办法. 相似文献
14.
A. P. Dimri 《Theoretical and Applied Climatology》2007,90(1-2):49-63
Summary The western Himalayas receive higher precipitation than the eastern Himalayas during the winter season (December–March). This
differential pattern of winter precipitation over the Himalayas can be attributed to topography and to a higher frequency
of disturbances over the western Himalayas, which result in variations in the circulation features. These circulation features,
in turn, result in variations in the meridional transport of heat, momentum, potential energy, and moisture across the Himalayas
due to mean and eddy motion.
Significant meridional transport due to mean motion takes place in the upper troposphere at 300 hPa and 200 hPa. Transport
east of 100° E dominates the transport over the western Himalayas. The eddy transport of heat, momentum, and potential energy
is considerably smaller than that due to mean motion. Eddy transport magnitudes are smaller up to 500 hPa and increase rapidly
aloft to 300 hPa and 200 hPa. Eddy transport over the western Himalayas is greater than over the eastern Himalayas. 相似文献
15.
Four numerical experiments of simulation have been conducted in this paper by the use of a five-layer primitive equation numerical model with incorporated pressure-sigma vertical coordinate system. The initial fields are taken from the July zonal mean data of many years, while the heat sources and sinks are ideally specified according to the mean heating field over the East Asia calculated from the real data of July, 1979. On the basis of simulated results of temperature and geopotential height patterns we emphatically discuss the effects of the topography and the heating of the Qinghai-Xizang Plateau. From the analyses in this paper, it appears that the heating over the Bengal region makes a larger contribution to the middle and the south branches of the monsoon cell and is also the main cause for the existence of the southerly channel to the east of the Plateau, for the break of the subtropical anticyclone belt below the 500 hPa level and for the formation of the summer Asian anticyclone at the 300 hPa level, while the heating over the Plateau makes a larger contribution to the Plateau monsoon cell and to the anticyclone at the 100 hPa. 相似文献
16.
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
17.
利用1979—2013年ERA-interim再分析资料,通过均方差分析、功率谱分析、带通滤波及合成分析等统计方法系统地分析了东亚季风区冬季经向风的季节内变化及其可能机理。结果表明,东亚季风区冬季经向风异常在我国华南一带变化显著,振荡周期为10~20 d(准双周振荡)。在准双周尺度上,水平方向上,850 h Pa异常北风主要呈现从高纬向低纬传播的特点,60°N附近异常经向风向东南方向传播,副热带30°N附近弱的异常经向风向东传播,二者在华南汇合,随后分为两支中心,分别向南和向东继续传播,我国华南一带存在基本气流向准双周尺度波动的能量转换,因此异常经向风在华南会显著增强;垂直方向上,对流层上层、中层、下层的经向风呈现强—弱—强的异常中心特征,对流层下层850 h Pa和上层200~300 h Pa均存在经向风大值中心;我国东部上空300 h Pa上,副热带地区波动比850 h Pa更明显,60°N附近波动向东南方向移动,同样在我国东部地区合并,波动辐合导致波动能量增强。 相似文献
18.
Summary The horizontal and vertical structures of an upper air cold core vortex over the subtropical latitudes of South America in
the winter of 1999 reveal many features that are different from tropical upper tropospheric cold core vortices. The vortex
in the present study is observed poleward of the subtropical jetstreak. In the middle troposphere, the center of the vortex
is cooler than the periphery by 6 °C. The relative vorticity is greatest just below the tropopause and the vortex presents
a slight eastward tilt in the vertical. The CPTEC Eta regional model simulation dataset has been used to study the life cycle
of the vortex. Intensification and movement of the system are well simulated by the combined effect of divergence and vorticity
advection at 500 hPa. The Lifted Index and CAPE values at the mature stage of the system are not sufficiently high to explain
the precipitation associated with the vortex. However, Q-vector analysis of the model simulation datasets support the observed
precipitation. The precipitation pattern closely follows the 700 hPa vertical velocity. These results indicate that the rain
associated with the vortex has been forced by dynamical lifting rather than by thermodynamic processes. Upper tropospheric
stable conditions are responsible for the shallowness of convection. The vortex presented here is different from subtropical
cyclones, which develop over oceans and have higher intensities. The present vortex development somewhat resembles lee development. 相似文献
19.
The Persistent Heavy Rainfall over Southern China in June 2010:Evolution of Synoptic Systems and the Effects of the Tibetan Plateau Heating 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 This study investigates influencing weather systems for and the effect of Tibetan Plateau (TP)’s surface heating on the heavy rainfall over southern China in June 2010, focusing on the four persistent heavy rainfall events during 14-24 June 2010. The ma jor weather systems include the South Asian high, midlatitude trough and ridge, western Pacific subtropical high in the middle troposphere, and shear lines and eastward-moving vortices in the lower troposphere. An ensemble of convection-permitting simulations (CTL) is carried out with the WRF model for these rainfall events, which successfully reproduce the observed evolution of precipitation and weather systems. Another ensemble of simulations (SEN) with the surface albedo over the TP and its southern slope changed artificially to one, i.e., the surface does not absorb any solar heating, otherwise it is identical to CTL, is also performed. Comparison between CTL and SEN suggests that the surface sensible heating of TP in CTL significantly affects the temperature distributions over the plateau and its surroundings, and the thermal wind adjustment consequently changes atmospheric circulations and properties of the synoptic systems, leading to intensified precipitation over southern China. Specifically, at 200 hPa, anticyclonic and cyclonic anomalies form over the western and eastern plateau, respectively, which enhances the southward cold air intrusion along the eastern TP and the divergence over southern China;at 500 hPa, the ridge over the northern plateau and the trough over eastern China are strengthened, the southwesterly flows along the northwestern side of the subtropical high are intensified, and the positive vorticity propagation from the plateau to its downstream is also enhanced significantly;at 850 hPa, the low-pressure vortices strongly develop and move eastward while the southwesterly low-level jet over southern China strengthens in CTL, leading to increased water vapor convergence and upward motion over the precipitation region. 相似文献
20.
夏季长江淮河流域异常降水事件环流差异及机理研究 总被引:10,自引:5,他引:5
长江、淮河同处东亚中纬度,天气过程的大尺度环流背景相似,大量相关研究基本是把江淮流域天气气候事件作为一个整体研究,然而对长江、淮河流域夏季降水的时空变化进行分析发现,长江、淮河流域夏季异常降水事件有各自不同的年际、年代际变化特征,但环流差异及成因并不十分清楚。本文根据中国台站降水资料及NCEP/NCAR再分析资料,利用物理量诊断和现代统计学等方法,重点分析长江、淮河流域梅雨期降水异常事件发生时南北半球大气环流内部动力过程的差异及成因。研究指出:长江(淮河)流域梅雨期降水异常偏多年500 hPa位势高度场亚洲中高纬度环流呈现为南北向(东西向)的波列与东亚中高纬鄂霍茨克海阻塞频次增多(减少)以及200 hPa高度场上东亚副热带高空西风急流强度加强(减弱)、稳定(移动)有关;长江(淮河)流域梅雨期降水异常偏多年主要水汽来源与南半球澳大利亚高压、马斯克林高压位置偏东(西)造成西太平洋150°E~180°(阿拉伯海50°E~60°E)地区越赤道气流加强有关。长江(淮河)流域梅雨期异常降水事件大气环流内部动力过程最显著的差异表现为:东亚副热带高空西风急流加强(减弱)以及南半球澳大利亚高压、马斯克林高压位置偏东(西)。 相似文献