华南季风低压暴雨及其结构分析

文中对2005年夏季华南的一次季风低压大暴雨过程进行了诊断分析,讨论了该季风低压的三维结构,并将其与南亚季风低压和梅雨锋上低压系统的结构进行了对比分析。结果表明,这次暴雨过程由华南季风低压直接引起,造成大暴雨的季风低压产生在有利的大尺度环流背景下。这次华南季风低压的三维结构特征为:在水平方向上,季风低压的南侧是一条对流云带,在对流层中低层,季风低压基本上处于对流不稳定并伴随有较强的上升运动;它对应中低层的湿舌、辐合区和很强的正涡度带。在垂直方向上,季风低压在对流层中低层有明显的气旋性环流,在300 hPa以上无反映。它对应低层辐合和气旋性涡度,高层辐散和反气旋性涡度。季风低压的上升气流可达对流层高层,主要上升运动区位于低压的西侧,主要下沉运动区位于低压的东侧。季风低压南侧有低空急流存在,但高层急流并不明显;季风低压的热力结构为上暖下冷。华南季风低压的轴线随高度向东南方向倾斜。这种种特征,与南亚季风低压和梅雨锋低压均有较大不同。     

Typical Structure, Variety, and Multi-Scale Characteristics of Meiyu Front

Meiyu front plays an important role in summer rainfall in central China. Based on the GMS-5 satellite images, NCEP reanalyses （2.5°×2.5°） and final analyses （1°×1°） data, and meteorological conventional sounding observations, the horizontal and vertical structures of the Meiyu front were summarized using multiple diagnostic variables, including winds, temperature, jet stream, front, pseduo-equivalent potential temperature, divergence, vertical motion, static instability, etc. In this paper, four cases were selected and analyzed, two of which are in 26-28 June and 23 July 2002 during the Experiment on Heavy Rain in the Meiyu period in the lower reaches of the Yangtze River, and the others are in May and July 1998. The two cases in July 1998 and July 2002 are the secondary Meiyu front cases. The results show that the structures and characteristics of the Meiyu front are different for various cases, or at various places and time, or at various stages of one case, and the frontal characteristics can be converted from the polar front to the equatorial front. Because of the interaction of the different scale circulations in the high and low latitudes, the horizontal structure of the Meiyu front has various forms.
The results in this paper also show that the typical Meiyu front consists of a narrow band with a high gradient of potential equivalent temperature below 500 hPa, south of which is warm and moist air mass, and north of which is the transformed air mass from the midlatitude ocean or polar continent. Below the mid troposphere, south of the front blows southwesterlies, while north blows easterlies. The ascending motion and precipitation usually occur ahead of the Meiyu front. In the upper troposphere, the subtropical front is above the Meiyu front, but two fronts are separated. In addition, the upper westerly jet stream and the easterlies to the south of the Meiyu front result in the upper divergent flow field.
The multi-scale characteristics of the horizontal structure of the Meiyu front can     

1991年梅雨锋暴雨与锋生环流的诊断分析

利用原始方程模式锋生环流诊断方程对１９９１年７月一次梅雨锋暴雨过程进行诊断分析。计算结果表明，锋面横向次级环流在低层是一个热力正环流，低空急流出口区的次级环流使锋面附近的上升运动得到加强：１００ｈＰａ青藏高压东侧的偏北风与中层的偏南风耦合形成择流层上层的反环流叠加在锋面横向环流上形成深厚的上升气流区是暴雨发生的动力条件。     

形成2015年浙江省梅汛期暴雨的控制环流及梅雨锋结构

本文利用NCEP/NCAR全球再分析逐日资料、地面观测资料和自动站降水资料,在分析了2015年浙江省梅汛期强降水特征、水汽输送和局地环流的基础上,从西南季风进退、副热带高压、南亚高压及西风带波动等方面对2015年形成梅汛期暴雨的控制环流进行了分析。结果表明：2015年整个浙江省梅汛期降水量较常年显著偏多,浙江中部地区降水量比历史同期偏多接近一倍。丰沛的水汽从孟加拉湾经中南半岛向东输送,与西太平洋副热带高压西侧的西南气流相合并,在梅雨锋南侧形成异常辐合,为强降水提供了水汽条件。这次持续强降水由三次强降水过程构成并由西风辐合型锋生引起。第二次强降水过程中大气强对流性不稳定利于梅雨锋上中尺度对流系统发展,导致强降水呈现明显的局地性。而第一次和第三次过程中梅雨带附近大气基本处于对流稳定或中性,以斜压性降水为主。在对流层低层,副高较常年偏东偏南,其西北侧西南暖湿气流与北侧冷空气交汇于浙江省,利于梅汛期强降水集中期的出现。在对流层上层的南亚高压较常年位置偏东,其北侧的西风急流强度偏强,东亚急流核入口区右侧的强辐散利于造成强烈的上升运动。在对流层中层,贝加尔湖阻高的东侧有明显的波动能量向东向南传播并在长江中下游积聚,利于浙江地区扰动的维持,形成持续稳定的梅雨锋和中低空切变线,造成梅雨强降水过程的持续。2015年春夏季热带中东太平洋海温正异常分布有利于梅汛期降水偏多的异常环流的形成。     

一次强季风槽—ITCZ过程分析

本文根据FGGE3B资料得到的基本物理量场如u—v分量、温度、湿度、散度、涡度、垂直运动等,对南亚一次强季风槽—ITCZ发展与维持作了较详细的分析,并就高空东风急流对扰动形成的影响以及两个季风体系中天气系统的相互作用作了讨论。      

1998年和1999年长江流域汛期降水及其季风流管特征

１９９８年６、７月长江中游雨量集中,两月总雨量７３４．７ｍｍ年６月长江中下游雨量分别为３２５．５、６３６．２ｍｍ,安庆、上海月雨量均为１９４９年以来同期最高值。南亚高压东北侧存在一高空急流,中低层西太平洋副热带高压西北侧为一低空急流,两急流轴线间为宽广的近东向垂直上升运动区,并伴为湿舌和涡旋存在,构成季风流管。长江流域受季风流管影响,产生大到暴雨。     

The Possible Mechanism of a Type of Vortex Heavy Rainfall during the Pre-Rainy Season in South China

In this paper,NCEP reanalysis data,intensive observation data collected from field experiment,model simulation data,and topographic trial data are fully analyzed to study a severe heavy rainfall event during 5 6 June 2008 in South China.Unlike most warm region rainfall cases,this one is associated with an obvious vortex system,which draws in water vapor and energy from the southwest monsoon surges ahead of a low trough above the Bengal Bay (BLT,Bengal Low Trough).At the lower troposphere,three currents,especially the southwest current and the east current,converge into the southeast of the vortex.Thus,the distributions of strong vorticity,water vapor,and ascending motion cause frequently occurrence and growth of convection there.The possible reasons for this rainfall event are summarized as a conceptual model.     

一次引发暴雨的东北低涡的涡度和水汽收支分析

对2005年7月25～29日引发较大范围持续性暴雨的东北低涡的结构、涡度和水汽收支进行了分析研究,结果表明:1)东北低涡是一个较深厚的冷性涡旋.初期,气旋性涡度出现在对流层中层,然后向中低层及高层伸展.而低涡加强阶段,气旋性涡度在对流层高层增加得最快,并逐渐向中低层传播,诱发地面气旋的发展;由于高低空锋生的相互作用,在低涡南部形成了深厚的近乎垂直的低层略前倾的"弓形"锋区.2)对涡度收支的计算表明,水平涡度平流项和水平辐散项对低涡的发展、加强起到最主要的作用.但在不同阶段,这两项的作用和大小各不相同.3) 对流层高层位涡大值区在低涡东部向下传播,有利于低涡的发展加强,与低涡暴雨的落区位置较为接近.此外对卫星云顶亮度温度(TBB)的分析,发现低涡暴雨典型的涡旋云带中对流活动旺盛的地区与局地暴雨的位置对应.4) 低涡暴雨的水汽初期主要来自北部,随着低纬地区西南季风的增强,沿副高西侧从低纬到中高纬建立起一条较强的水汽输送带,东北地区水汽收支以南北向的辐合为主.5)将2005年和1998年夏季6～8月的东北低涡暴雨个例的天气形势配置进行逐月比较,发现持续的较大范围的低涡暴雨过程与亚洲中高纬的阻塞形势、低涡的维持、西太平洋副热带高压的位置及夏季风和低纬系统的水汽输送有密切的关系.     

梅雨锋的典型结构、多样性和多尺度特征

在天气尺度梅雨锋的天气学定义基础上,利用GMS-5静止卫星红外云图、常规气象探空资料、NCEP再分析与最终分析资料对2002年长江流域典型梅雨期6月26—28日和二度梅期间7月23日、1998年5月梅雨与7月二度梅共4个梅雨锋个例进行了分析与比较,归纳了梅雨锋结构多样性;并着重对典型梅雨期的梅雨锋发展过程、水平以及垂直结构进行了多种物理量场(包括风场、温度场、急流、锋区、假相当位温、散度、垂直速度、静力稳定度等)的综合分析。结果表明,不同的个例,不同的地区和时期,一次梅雨过程的不同阶段,梅雨锋的结构和性质都有可能不同,它可以从比较接近极锋的性质过渡到接近赤道锋的性质。在水平结构上梅雨锋是在高、低纬度不同尺度的环流系统共同作用下形成的,从而造成了梅雨锋结构具有丰富的多样性。对典型梅雨锋结构进行综合分析表明梅雨锋对流层中下层锋面由强假相当位温水平梯度形成;梅雨锋南侧为暖湿气团、北侧为变性气团;梅雨锋南面为西南季风、北面为偏东气流;梅雨锋的上升运动和强降水主要发生在梅雨锋的前沿;梅雨锋上方对流层上半部存在与副热带高空急流相配合的高空副热带锋;对流层上部的高空热带东风与副热带高空西风急流构成了梅雨锋降水的高空辐散流场。根据典型期梅雨锋以及二度梅倾斜型梅雨锋的对流层上、中、下水平环流特征,给出了梅雨锋的多尺度概念模型,主要包括中低纬度系统相互作用、对流层高层的行星尺度的环流系统副热带高空西风急流、高空热带东风急流与南亚高压、对流层中层的副热带高压与北方的短波槽以及对流层低层的行星尺度季风和切变线。     

湿位涡守恒条件下西南涡的发展

运用高分辨率数值预报模式 (HIRLAM)模拟了一次中国西南地区在多种活跃天气系统影响下 ,西南涡的发展过程。分析了东亚季风、青藏高压、地形等多种尺度与不同高低空环流形势配合以及在湿位涡守恒条件下对流发展时 ,潜热及不稳定能量的释放 ,对中尺度涡旋和强对流发生发展的作用 ,探讨了西南涡和局地降水增强与消亡的成因与理论 ,并具有实用意义     

梅雨锋上边界层中尺度扰动涡旋的个例研究

运用实况自动站、高时空分辨率的雷达和数值模拟资料,对2009年7月24日的梅雨锋暴雨过程进行了分析,结果表明:(1)锋面南侧的暖区弱降水环境内,近地面的风场会有扰动涡旋出现,随着扰动涡旋趋于稳定和向上发展,降水迅速加强,形成短时暴雨,并伴随有大风出现。(2)偏西气流从边界层开始发展并加强为急 流,在向东推进的过程中逐渐抬升,形成了一支从边界层倾斜入对流层低层的急流轴;而偏南气流与偏北风相遇之后,不仅形成风向的辐合和切变,而且在空间上被抬升,形成了一支斜升入流。(3)在近地面风场的切变和 辐合作用下,锋生与辐合同步加强,边界层内的涡度也逐渐增强,由此带动了扰动的发生发展,扰动涡旋在边界层内率先形成,随后,在急流的东传和抬升影响下,扰动涡旋也逐步向东移动、向上发展。(4)近地面风速的加强、风向的辐合切变导致了扰动涡旋的发生和形成,并逐渐发展,这是边界层中尺度扰动涡旋发生发展的动力 因子。     

Heavy rainfall caused by interactions between monsoon depression and middle-latitude systems in Australia: a case study

The heavy rainfall caused by interactions between the monsoon depression and the middle-latitude systems in Australia has been investigated in this paper. For a better understanding of the Australian monsoon depression (AMD) and its synoptic-scale interaction with the middle-latitude systems, some key meteorological parameters have been calculated, including the vorticity budget, moisture budget, temperature advection, frontogenesis function and potential vorticity. The results show that interaction between the lower and mid-latitude systems does exist leading to the merging of the extratropical low with frontal systems and the AMD, meanwhile both the low-level cold air from the mid-latitude and the warm moist air that was lifted by the front were very favorable for the formation and the intensification of heavy rainfall, which was quite different from the rainfall caused by the AMD alone. Second, the obvious temperature advection and gradient were detected, so the baroclinicity was favorable to the intensification of the front, as well as to the development of the upper-level jet. Next, isentropic analysis revealed that the south-west cold-flow sank and met the warm flow coming from the northern part of Australia, thereby forming the obvious baroclinic zone in the lower troposphere. A high-PV anomaly area located in the upper level of the troposphere, which overlaid the low-level frontogenesis zone, also existed. The upper-level PV maximum extended downwards forming a vertical PV column when the extratropical low intensified. Furthermore, the AMD is a warm-cored vortex located in middle and upper troposphere with a deep and thick moisture layer, and there were some differences in the vorticity and moisture budgets of the two different stages. Finally, based on the above-mentioned analysis, a conceptual model describing the interactions between the lower and middle-latitude systems in the southern hemisphere was proposed.     

A regional climate model simulation of summer monsoon over east asia: a case study of 1991 flood in yangtze-huai river valley

Ｉ．ＩＮＴＲＯＤＵＣＴＩＯＮＥａｓｔＡｓｉａｉｓｓｉｔｕａｔｅｄｉｎｔｈｅｅａｓｔｅｒｎｐａｒｔｏｆｔｈｅＥｕｒａｓｉａｎｃｏｎｔｉｎｅｎｔｗｈｅｒｅｔｈｅｈｕｇｅＴｉｂｅｔａｎＰｌａｔｅａｕｅｘｉｓｔｓ．Ｆａｃｉｎｇｅａｓｔａｎｄｓｏｕｔｈｅａｓｔ...     

贵州大暴雨个例形成机制数值模拟

利用3层嵌套的中尺度数值模式MM5 V3.5,模拟了2007年6月24～25日发生在贵州中南部的一次大暴雨过程.利用模式输出的高分辨率资料,对这次暴雨天气及中尺度低涡的形成机制进行了诊断分析.模式较成功地模拟出了中尺度系统的演变和降水的分布特征.中尺度低涡的发展、稳定维持是造成贵州这次大暴雨天气的直接原因.暴雨、大暴雨出现在低涡的西南侧.在低层正涡度、辐合、强烈的上升运动和高层负涡度、辐散的有利配置下,形成深厚的上升运动柱,这种中尺度动力配置结构,不仅与暴雨区和暴雨发生时段相对应,而且是引起此次暴雨的中尺度低涡发展和持续的动力机制之一.暴雨区与强烈上升运动区,正涡度区相对应.     

华北一次西南涡暴雨过程的诊断分析

利用一日4次1°×1°的NCEP再分析资料和常规观测资料,分析了2010年7月19日发生在华北地区的西南涡暴雨过程。结果表明：此次暴雨过程是不同尺度系统共同影响的结果,低空急流将水汽源源不断地向暴雨区输送,云水含量大值区与强上升运动和强降水时段有较好的对应关系,高、低空急流的耦合作用促进了上升运动,暴雨期间对流层低层有自南向北发展的高能舌维持,存在对流性不稳定层结,上升运动自低层向上发展,将低层的暖湿空气向上输送,使得大量的不稳定能量释放,为暴雨区提供了持续的能量。     

2010年我国南方两次持续性强降水的环流特征

通过对2010年夏季我国南方两次持续性强降水期间对流层高、中、低多个大尺度关键影响系统的时空演变特征及其影响机制的分析和比较,讨论了我国南方持续性强降水的大气环流特征。结果表明:这两次持续性强降水均出现了东亚西风带沿海低槽不断快速重建或加深,且中纬度锋区位置稳定维持,低空西南急流反复加强,且其轴线左侧的南风经向强梯度带位置相对稳定,副热带高空西风急流和南亚高压脊线及西太平洋副热带高压的纬度带位置相对稳定;相应地,在强降水带上空反复出现强烈的低层水汽辐合抬升、高层辐散抽吸及垂直上升运动发展,进而形成持续性强降水。西西伯利亚低槽的不断快速重建与加深 (东移)、马斯克林高压西侧高压及马斯克林高压的不断加强东移、副热带高空西风急流的建立和维持对南方持续性强降水具有超前指示意义。强降水带位于东亚低空西南急流轴左侧南风经向强梯度辐合带、高空西风急流南侧至南亚高压脊线北侧之间的强辐散区及中层垂直上升速度大值带中。     

Study on cut-off low-pressure systems with floods over Northeast Asia

Summary The cut-off lows (COLs) during the period from June to August 1998 leading to the record flood in Northeast Asia, especially in Northeast China, has been investigated in this paper. The results are as follows: the blocking highs benefited significantly the formation and maintenance of COLs over Northeast China; an obvious frontogenesis zone existed in Northeast China and it implies that baroclinity played an important role in the initiation of COLs, especially in middle and upper troposphere; the maxima of the potential vorticity anomaly were located in the upper troposphere, then extended downwards to the middle and the lower troposphere. The pronounced interaction between systems in upper-middle and low troposphere can be revealed; the moisture supply was from South China, and even from East China Sea and South China Sea. The strong southerly current transported very rich moisture to Northeast China. The maximum of the convergence of moisture flux was below 850 hPa. Obvious interaction between the middle and lower latitude systems was found in the study. Also, the summer monsoon showed significant impacts on the sustained heavy rainfalls related with the COLs over Northeast China; the upward motion could be caused by the lifting of the large scale dynamic forcing and there was no obvious releasing of latent heating in the upper-middle troposphere. The cold dome in the COLs was quite different both from the warm core in tropical cyclone and from the weaker warm core in Meiyu (Baiu) front low. The calculation of vorticity budget shows that both the horizontal advection term and horizontal divergence term contributed importantly to the maintenance and the strengthening of positive relative vorticity. Finally, the complex dynamical characteristics regarding the COLs are discussed and further investigation is proposed.     

98.8松嫩流域一次东北冷涡暴雨的数值模拟初步分析

利用MM5中尺度非静力模式对1998年8月8~9日松嫩流域的东北冷涡切变型暴雨过程进行了数值模拟和对比试验。结果表明, MM5能够对此次过程进行较成功的模拟; 同时发现, 此次过程首先由高层强的正涡度平流触发, 低涡区强降水的产生是由于高低空急流的耦合。其中, 高空急流的作用强烈而短暂, 低空急流的作用较为持久, 强度稍弱。阻高前部下沉气流形成的中层偏东干冷气流是切变形成的关键, 它与偏南气流在对流层中层形成的风向切变是产生上升运动的主要强迫机制。减弱阻高使其底部偏东气流减弱及后部偏南气流在高层减弱、低层增强, 导致降水减弱, 并使系统位置偏东、偏南。西北路冷空气增强使低涡和切变北侧高层偏南气流增强、低层偏南气流减弱, 导致降水强度增强、尺度增大。     

A diagnostic study of two heavy rainfall events in South China

South China is prone to heavy rainfall which may occur both in the pre-monsoon and the monsoon season. The responsible synoptic systems and the water-vapor sources, however, can be substantially different for different seasons. In this study, we aim to develop conceptual models for typical heavy rainfall events in South China through diagnostic case studies. A number of events have been analyzed using the NCEP/NCAR data, but the discussions here are focused on two representative events, one for the pre-monsoon season and the other for the monsoon season. Both events are found to be associated with extensive moist convective instability in the lower part of the troposphere. For the pre-monsoon case the instability was much weaker and the uplift of the warm moist air was provided by the cold air intrusion related to a weak cold front. The moist potential vorticity theory can be used to explain the increase of vorticity and vertical velocity in the lower part of the troposphere. For the monsoon event, the lower troposphere was extensively and strongly unstable and the upward motion was provided by the shear of a southwesterly low-level jet (LLJ) which appeared to be driven, at least partially driven, by the upper-level jet. In both events, LLJ played a major role in not only providing the dynamic conditions but also the supply of water vapor for heavy rainfall in South China. The diagnostic results presented in this study provide a useful guidance for future numerical simulations.     

1999年6月长江中下游梅雨暴雨的环流特征分析

利用客观分析资料和加强观测期资料,对1999年6月发生在我国长江流域的持续性梅雨期降水过程的大尺度环流特征进行了分析,结果表明:(1)1999年梅雨期,我国长江中下游强降水带状分布非常明显,强降水主要发生在长江中下游地区,强降水带呈东西向分布,并且雨带的南北边界非常清楚。(2)在对流层低层,从孟加拉湾来的西风气流和西太平洋副热带高压前缘的东南气流在长江流域维持,为此次强暴雨过程产生和发展提供了有利的大尺度条件。高空急流和低空急流的存在和维持为此次梅雨锋暴雨过程的发生提供了有利的抬升机制,而对流层中低层的中性对流不稳定特征则为持续性暴雨过程的发生提供了有利的不稳定机制。(3)梅雨锋区对流层低层的水汽辐合非常明显,水汽输送主要来自孟加拉湾和西太平洋,同时南海季风槽在向梅雨锋区输送水汽的过程中起到了非常重要的作用,它是热带海洋地区向我国内陆输送水汽的通道。(4)平均纬向风速u对流层高层出现了与高空西风急流与高空东风急流相对应的两个强风速核;径向平均风速v在400 hPa以下层次盛行南风,而在400 hPa以上的高层盛行北风;受两侧下沉气流的制约,梅雨锋降水带南北两侧存在位势不稳定层结中的不稳定能量无法释放,因此没有出现明显的降水。