高空槽对9711号台风变性加强影响的数值研究

9711号台风Winnie是一个在中国大陆长久维持(2—3 d)并产生强降水的热带气旋(TC),在其深入内陆过程中变性加强为一个温带气旋。用MM5V3对不同强度高空槽影响下Winnie的变性加强过程进行了数值研究。结果表明:(1)Winnie变性加强过程表现为强锋面侵入台风内部、冷空气包裹台风中心、一个温带气旋在近地层锋面上强烈发展的过程;(2)Winnie在陆上的变性加强与西风带高空槽的强度密切相关。TC与不同强度高空槽相互作用过程中,较深槽携带较强冷平流、正涡度平流以及较强的槽前高空辐散,从而有利于TC的维持和变性发展。数值试验中,高空槽越强,Winnie变性加强越明显,温带气旋的发展越快;(3)模拟结果的位涡分析表明,Winnie的温带变性发展与对流层高层正位涡下传、低层锋区和TC低压环流三者之间的相互作用有关。     

Winnie(1997)和Bilis(2000)变性过程的湿位涡分析

9711号台风Winnie和0010号台风Bills均在中国大陆发生变性，但前者变性后再度加强，而后者变性后减弱消亡。从湿位涡理论出发，对比分析两者的变性过程，结果表明：作为变性台风，Winnie和Bilis均在北上过程中与中纬度西风槽发生作用，但前者与高空槽发生耦合，后者仅接近高空槽底部，没有发生耦合；Winnie变性加强过程表现为一个温带气旋在低层锋区上的强烈发展过程，主要与高层正位涡扰动下传、低层锋区及热带气旋低压环流之间的相互作用有关。Pm湿斜压项增长引起的倾斜涡度发展是登陆热带气旋变性加强的主要因子。在Bills变性过程中，高层无明显的正位涡扰动下传，热带气旋低压环流内无锋区面出现，大气斜压性弱且变化不明显。     

发生在中国大陆的台风变性加强过程分析

通过对登陆台风Winnie(1997)的演变过程分析，发现登陆后的台风经历三个阶段：衰减阶段、变性阶段、重新加强阶段。其变性过程类似于Sekioka等人提出的复合型，变性后逐渐演变为Shapiro—Keyser气旋模型。通过对物理量的诊断分析发现，对流层中高层冷空气的下沉入侵以及对流层低层的暖平流是热带气旋变性的原因。冷空气的入侵使具有暖心结构的热带气旋演变为斜压结构的温带气旋。变性后气旋得到了重新发展，低层维持的较明显暖平流以及与高空急流相对应的散度区和高空涡度平流是导致气旋重新发展的重要物理因子。     

副热带高压对登陆台风等熵面位涡演变影响的数值模拟研究

选取1997年第11号台风“温妮”为研究个例, 通过中尺度模式MM5模拟再现了该台风登陆后经历初期减弱、 变性及变性后再次发展的演变过程。采用Davis et al.(1996) 提出的片段位涡反演方法, 提取具有副热带高压物理意义的位涡扰动, 采用片段位涡反演的方法, 改变模式积分初始时刻台风东部副热带高压强度, 并引入Ertel等熵面位涡收支方程, 深入分析不同强度的副热带高压环流系统在登陆台风结构演变的过程中等熵面位涡的守恒性, 以及守恒性与非守恒性相对作用的大小。研究表明: 台风北上深入内陆的过程中, 高空槽大值位涡源源不断的输送使得对流层低层西北侧位涡增长, 台风中心上空的辐散形势有利于台风强度的再次增强。由于摩擦和非绝热加热的存在, 对流层位涡局地变化主要决定于位涡的水平平流 (守恒项)、 位涡的垂直平流、 加热的垂直微分 (非守恒项) 的分布。台风经历变性及再增强的过程中, 其影响范围内位涡守恒性经历了先减弱后增强的过程, 非守恒项中位涡的垂直平流能较好地描述对流层中层位涡局地变化趋势, 而加热的垂直微分则在对流层低层和高层表现良好。副高强度的加强使台风加速北上, 加快了台风变性速度, 高层位涡的向下输送明显提前且强度增强, 位涡守恒性的破坏、 重建也相应提前, 位涡垂直平流的整层负值减小, 加热垂直微分对对流层低层位涡增长的正贡献加强, 且持续时间更长。     

季节转换期间副热带高压带形态变异及其机制的研究 Ⅲ:热力学诊断

利用NCEP/NCAR再分析资料从能量收支的角度探讨了气候平均状态下副热带高压形态变异和季节转换的物理机制。在考察温度场和加热场季节变化的基础上 ,发现中国江南地区春季降水所形成的非绝热加热源非常显著 ,该热源对后期亚洲季节转换有影响。副热带高压脊面附近经向温度梯度反转取决于温度脊所在纬度位置的变化。温度脊北移是由脊轴北侧的增温率大于脊轴附近的增温率而造成的。热力学方程诊断结果表明 ,亚洲各季风区 (孟加拉湾、南海和南亚 )季节转换的热力机制不同。导致孟加拉湾温度脊显著北跳的主要因素在季风爆发初期是经向暖平流 ,爆发以后是下沉运动 ;引起南海地区经向温度梯度反转的因素有经向暖平流、纬向暖平流和江南地区的非绝热加热 ,特别是经向暖平流的贡献更大 ;造成南亚季风区经向温度梯度逆转的原因是下沉增温。     

IMPACTS OF TWO TROPICAL CYCLONES EXPERIENCING EXTRATROPICAL TRANSITION DURING NORTHWARD PROGRESSION ON THE RAINFALL OF LIAODONG PENINSULA

Both of Typhoon Winnie (9711) and Matsa (0509) underwent an extratropical transition (ET) process when they moved northward after landfall and affected Liaodong Peninsula. However, Matsa produced half as much rainfall as Winnie, although it struck Liaodong Peninsula directly while Winnie passed through the Bohai Sea. The relations between the ET processes and the precipitation over Liaodong Peninsula are examined. The result shows that the precipitation difference between Winnie and Matsa was closely related to the interactions between the westerly systems and typhoons during their ET processes. Winnie was captured by the upper westerly trough and then coupled with it when moving to the mid-latitudes, and the positive anomaly of moist potential vorticity (MPV) was transported downward from the upper troposphere over the remnant circulation of the tropical cyclone (TC). It was favorable to the interaction between tropical warm and wet air and westerly cold air, causing convective cloud clusters to form and develop. The rain belt composed of several meso-β cloud clusters over the Liaodong Peninsula, resulting in heavy rainfall. On the other hand, Matsa did not couple with any upper trough during its ET process and the positive anomaly of MPV in the upper troposphere and its downward transfer were weak. Only one meso-β cloud cluster occurred in Matsa’s rain belt during its ET process that tended to lessen rainfall over Liaodong Peninsula.     

A Study of the Extratropical Transformation of Typhoon Winnie （1997）

The complicated evolutive process of how a tropical cyclone transforms into an extratropical cyclone is still an unresolved issue to date, especially one which arises in a weakly baroclinic environment. Typhoon Winnie （1997） is studied during its extratropical transformation stage of extratropical transition （ET） with observational data and numerical simulations. Results show that Winnie experienced its extratropical transformation to the south of the subtropical high without intrusion of the mid-latitude baroclinic zone. This is significantly different from previous studies. Analyses reveal that the cold air, which appeared in the north edge of Winnie circulation, resulted from the precipitation drag and cooling effect of latent heat absorption associated with the intense precipitation there. The cooling only happened below 3 km and the greatest cooling was below 1 km. With the cold air and its advection by the circulation of Winnie, a front was formed in the lower troposphere. The front above is related not only to the cooling in the lower level but also to the warming effect of latent heat release in the middle-upper levels. The different temperature variation in the vertical caused the temperature gradient over Winnie and resulted in the baroclinicity.     

热带气旋"蒲公英"两次登陆过程的灾害与结构特征

2004年7月1~3日,热带气旋“蒲公英”自生成到影响浙江沿海地区期间,不仅持续时间长、强度大,移动路径长、变化较复杂,而且创下了近3年来台湾风灾损失的最高纪录,同时也给浙江等沿海地区造成了一定的经济损失。作者主要利用卫星云图资料、NCEP再分析资料,从宏观上对热带气旋“蒲公英”两次登陆过程中的强度及其引发的风雨灾害进行了分析。结果表明,“蒲公英”登陆台湾期间,东亚环流形势呈典型的鞍形场分布,有利于处于两高之间热带气旋“蒲公英”的维持和北上转向。而在其登陆浙江沿海地区后,浙江沿海地区处于较强的偏东气流中,“蒲公英”中心处于高空槽后,气流下沉以及缺少水汽和能量充沛供应使得其减弱为热带风暴。无论是其登陆台湾还是浙江沿海地区,台风垂直方向始终呈深厚气旋性涡柱结构,但中心附近低层辐散,中层辐合,不利于中心附近的对流发展。相反,台风外围螺旋云带内不仅中低层辐合,高层辐散,辐合层较深厚,且存在高湿和强上升运动,因而有利于对流云团的发展。对流云团发展强度的不同使得“蒲公英”两次登陆期间引发的风雨灾害明显不同。     

STUDY ON THE VARIATION IN THE CONFIGURATION OF SUBTROPICAL ANTICYCLONE AND ITS MECHANISM DURING SEASONAL TRANSITION-PART Ⅲ:THERMODYNAMIC DIAGNOSES

The mechanisms for the variation in the configuration of subtropical anticyclone during seasonal transition are explored from energy budget using the NCEP/NCAR reanalysis data.Based on the seasonal variations of temperature and heating fields,it is found that the significant diabatic heating associated with spring precipitation over southern China has impacts on subsequent Asian seasonal transition.The reversal of meridional temperature gradient in the vicinity of the WEB (westerly-easterly boundary) in the middle and upper troposphere also depends on the latitudinal position where temperature ridge locates.The northward shift of the warm temperature ridge results from the fact that the local temperature increase to the north of the WEB is more than that in its vicinity.The diagnostic results through thermodynamic equation show that physical mechanism responsible for seasonal transition is different from area to area over the Asian monsoon region.The dominant factors responsible for northward shift of the Bay of Bengal warm ridge are the meridional temperature in initial stages of the onset and the descending motion after the onset. The factors for causing the northward jump of the South China Sea warm ridge involve the zonal temperature advection,meridional temperature advection,and diabatic heating associated with the southern China spring rainfall.The subsidence is the factor leading to the northward migration of the South Asia warm ridge.     

DIAGNOSTIC ANALYSIS OF THE RE-INTENSIFICATION OF HIGOS IN SOUTHERN CHINA AFTER LANDFALL

The NCEP Global Data Assimilation System analysis of grid data, satellite products of Naval Research Laboratory, conventional meteorological data and observations of automatic weather stations in Guangdong province were used together with environmental conditions, atmospheric circulation, and physical characteristics to diagnose the cause and mechanism of the intensification of tropical cyclone Higos in Southern China. The results showed that favorable environmental conditions of high temperature, humidity of the underlying surface, strong upper divergence, weak vertical wind shear, and the persistence of a southwest jet stream beside the southern Higos were the necessary ingredients that contributed to the maintenance of intensity and re-intensification of Higos. The sinking intrusion of cold air from the lower troposphere was the critical condition for its intensification over land. The frontal genesis caused by weak cold air increased the lower tropospheric convergence and updraft, and the condensation latent heat released by heavy rains promoted convergence. From this positive feedback process, Higos obtained an increasing of positive vorticity and re-intensified over land. The re-intensification was due not only to the build-up of wind and the reduction of pressure but also to the simultaneous warm-up of its warm core.     

影响东北的两个罕见气旋发展机制对比

2007年3月3—5日和2016年5月2—3日有两个气旋（简称C304和C502）在江淮流域生成后,以相似路径影响东北地区,但发展强度不同。利用常规观测资料和NCEP FNL分析资料,通过对涡度平流、温度平流、湿位势涡度及锋生函数等物理量进行诊断并结合高、低空环流形势对两个气旋发展动力机制进行对比分析,结果表明:C304低空温度平流在气旋发展初期起主要作用,高空正涡度平流为地面气旋发展提供高空辐散场,地面气旋中心上空垂直上升运动增强,对流层低层斜压性明显,气旋性涡度增加主要在对流层下层,低空斜压强迫是主要发展机制;C502低空温度平流弱,斜压性不明显,高空正涡度平流促使高空闭合环流发展,对流层上层有高湿位涡舌发展下垂并与对流层下层正湿位涡柱耦合贯通,垂直上升运动分布在地面气旋中心两侧,高空位涡下传是主要发展机制。两个气旋发生发展在对流层上层两支急流共存、急流非纬向性反气旋性弯曲环流形势下,对流层低层为气旋式环流背景。     

热带气旋“Malakas”与中纬度系统的相互作用及其结构变化

本文利用中尺度数值模式WRF和LAGRANTO轨迹模式对2010年变性台风"Malakas"进行数值模拟和轨迹分析,分析了Malakas在变性过程中与中纬度系统的相互作用,以及在相互作用过程中Malakas的结构变化特征。结果表明:Malakas变性过程经历了三个阶段:(1)高层扰动加强期,高层的正位涡产生的气旋性环流使低层Malakas中心北部的斜压带西侧产生负的温度平流,表现为冷空气的入侵;(2)Malakas和中纬度系统相互作用时期,台风北上导致斜压带出现,深对流的爆发使低层暖湿气流沿着斜压带上升,快速上升气流中的潜热释放导致低PV空气向对流层上部净输送,在其北部高层重新构建出一个脊;(3)Malakas变性成温带气旋,残存的台风内核与斜压带逐渐合并,负的位涡平流带着非绝热外出流驱动了下游最初脊的构建,加速并且固定了中纬度急流,并整体放大了上层Rossby波模式。     

INVERSION OF TEMPERATURE FROM AMSU-A AND ITS APPLICATION ON WARM-CORE OF TROPICAL DEPRESSION OVER THE SOUTH CHINA SEA

The linear regression and horizontally stepwise correction are conducted on the observational data from AMSU-A L1 B of NOAA polar orbit satellite to invert a 40-layers(from 1,000 h Pa to 0.1 h Pa) dataset of atmospheric temperature with a horizontal resolution of 0.5°×0.5° after the correction of satellite antenna pattern and limb adjustment. Case study shows that the inversion data of temperature can reveal the detail structure of warm core in tropical cyclone. We choose two categories of tropical depressions(TDs) over the South China Sea, including the non-developing TDs and developing TDs. Both of them are developed downward from the middle and upper level to the lower level. Comparison between the evolutions of warm core in the two categories of TDs indicates that the warm core is developed downward from the middle and upper troposphere to the sea surface in all the downward-developing TDs. The difference is that in the group of further developing TDs, the warm core in the upper troposphere is intensified suddenly when it is extending to the sea surface. The warm core in the upper and lower troposphere is strengthened in a meantime. But the similar feature is not observed in the non-developing TDs. Then it may be helpful to judge the TD development by monitoring the change in its warm-core structure.     

内蒙古东北部一次致灾大到暴雪天气分析

应用基本观测资料及NCEP再分析资料,对一次漏报的内蒙古东北地区致灾大到暴雪天气进行了诊断分析。结果表明:本次大暴雪天气过程与内蒙古大雪、暴雪天气学概念模型有所不同,没有强劲的水汽输送建立,垂直上升运动大值区集中在850～500 hPa层,强降雪呈现时间短、强度大、范围小、灾害严重的中尺度特点。这次过程中,850 hPa有很强的暖平流配合500 hPa西南气流中弱冷平流,对流层中低层温度平流随高度减小,有利于对流层中低层的不稳定层结的建立;地面副冷锋与气旋合并加强,850 hPa中尺度低涡强烈发展,加强了对流层低层的辐合上升运动,触发不稳定能量释放是强降雪形成的主要原因。边界层"冷垫"作用对强降雪有一定的增幅。     

2014年11月上旬西北太平洋一次极端强度爆发气旋的数值模拟和分片位涡反演分析

基于NCEP 6 h一次,0.5°（纬度）×0.5°（经度）水平分辨率的GFS（Global Forecasting System）再分析数据,利用数值模式WRF（Weather Research and Forecasting）,对2014年11月上旬西北太平洋一次极端强度的爆发气旋事件进行了模拟。在成功复制爆发气旋主要特征的基础上,较详细的分析了本次爆发气旋快速发展的有利环境条件,并利用分片位涡反演的方法,对此次爆发气旋的快速发展过程进行了研究,主要结论如下:（1）本次爆发气旋的爆发性发展阶段维持了约27 h,其最大加深率约为3.98 Bergeron（气旋加深率单位）,最低中心气压约为919.2 hPa。（2）爆发气旋的快速发展与对流层高层高空急流对热量的输送,对流层中层西风带短波槽槽前暖平流和正涡度平流的有利准地转强迫,以及对流层低层暖锋伴随的暖平流过程密切相关。（3）分片位涡反演的结果表明,对流层顶皱褶对应的平流层大值位涡下传和降水凝结潜热过程造成的正位涡异常是本次爆发气旋快速发展的主导因子,而对流层低层的斜压过程贡献相对较小。在气旋爆发期的前期和强盛期,降水凝结潜热释放是爆发气旋发展的最重要因子,而在爆发期后期,随着降水的减弱和爆发气旋的东北向移动,对流层顶皱褶作用所造成的正位涡异常成为维持气旋快速发展的最有利因子。     

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.     

登陆热带气旋维持的次天气尺度环流特征

971 1 (Winnie)和 94 0 6 (Tim)是 2个在中国登陆后长久维持 (2～ 3d)并产生严重降水的热带气旋。在深入内陆过程中 ,Winnie变性并再次加强为一个温带气旋 ,Tim则衰减消亡。采用移动坐标以及云顶亮温 (TBB)和常规资料 ,对它们在陆上维持期间的次天气尺度环流特征及其与次天气尺度系统之间的相互作用进行对比分析和诊断。结果表明 :(1 )Winnie和Tim登陆过程中具有螺旋波状的次天气尺度云系 ,这种螺旋波结构有利于热带气旋的维持。陆上维持后期 ,Winnie的螺旋云系继续维持并有所加强 ,Tim的螺旋云系趋于零散、消亡。Winnie的螺旋波特征比Tim明显 ,因而维持更长时间 ;(2 )热带气旋次天气尺度环流也具有环绕热带气旋中心的明显波动特征 ,此波动结构能否维持与热带气旋活动的天气尺度背景密切相关。在与西风槽相互作用过程中 ,Winnie的次天气尺度波动结构维持 ,而Tim的次天气尺度波动结构遭到破坏 ;(3)作为登陆后长久维持热带气旋 ,Winnie和Tim均从次天气环流中获得正涡度 ,有助于维持其气旋性环流 ,但Winnie获得的正涡度比Tim明显的大。此外 ,Winnie从次天气尺度环流中获得动能补充 ,Tim则只有次天气尺度环流对其动能的耗散。因此 ,陆上维持后期Winnie再度发展而Tim逐渐消亡     

A STUDY OF NUMERICAL MODELLING ON THE DEVELOPMENT OF DEPRESSIONS IN THE SOUTH CHINA SEA

The comparison analyses between two tropical depressions in the South China Sea are completed by numerical ex-periments with a limited area model developed in Guangzhou Institute of Tropical and Oceanic Meteorology. One of thedepressions develops and finally becomes a typhoon within 24 hours of the analyzing period (defined as DVD hereafter),and the other not (defined as UNDVD) The analyses show that their initial structures of temperature, humidity, pres-sure. wind and stability are obviously different from each other. There are a very deep wet layer and a clear warm-coredstructure in the mid-lower troposphere in the depression area in the DVD case, but with the warm core in the upperrather than lower troposphere arid a very shallow wet layer in the lower troposphere in the depression area in theUNDVD case. The developing and non-developing processes are successfully simulated by the model, showing that theCISK mechanism plays the most important role in the development of SCSDs (Tropical Depressions in the South ChinaSea). Several numerical experiments show that the structures of humidity and temperature in the depression area haveimportant effect on the development of SCSDs. It is favourable to the development of SCSDs when a very deep wet layerexists in the mid-lower troposphere or a warm-cored structure exists in the mid-lower troposphere instead of in uppertroposphere, and conversely, it is unfavourable to the development of SCSDs when the wet layer is very shallow in thelower troposphere or the warm-cored structure is in the upper troposphere rather than in mid-lower troposphere. Thestructures of stability for each case are also analysed, which shows evident differences between the two cases, with adeeper instability layer in the DVD case and a shallower one in the UNDVD case. Finally, the sensitivity of the devel-opment of the SCSDs to the vertical structures of humidity and temperature in the depression area is discussed.     

Sources of CAM3 temperature bias during northern winter from diagnostic study of the temperature bias equation

The Community Atmosphere Model version 3 (CAM3) temperature simulation bias is examined in this paper. We compare CAM3 output with European Centre for Medium-Range Weather Forecasts (ECMWF) 40 year reanalysis (ERA-40) data. We formulate a time mean temperature bias equation then evaluate each term in the equation. Our focus is on the Northern Hemisphere winter time. We group the temperature equation terms into these categories: linear advection terms, nonlinear advection terms, transient eddy terms and diabatic heating, and find that linear advection and diabatic bias are the largest. The nonlinear terms (velocity bias advection of temperature bias) are much smaller than each of the other groups of terms at all levels except near the surface. Linear advection terms have dipolar pattern in the Atlantic (negative NW of positive) which reflects the shift of the CAM3 model North Atlantic storm track (NAST) into Europe, especially in the upper troposphere; opposite sign dipolar structure occurs over Alaska (positive) and the north Pacific storm track (negative). The transient advection terms in middle latitudes are larger in the upper troposphere and generally positive along the Atlantic storm track. Along the north Pacific storm track (NPST), the transient terms are negative in the mid and lower troposphere over much of the NPST (positive in upper troposphere). The diabatic heating bias has large values in the tropics along the Intertropical Convergence Zone (ICZ) and along the midlatitude storm tracks. During this time of year the ICZ is mainly in the Southern Hemisphere, but CAM3 emphasizes an ICZ-like heating in the northern hemisphere of the Atlantic and Pacific Oceans. CAM3 tends to have a weaker ICZ, especially in the Atlantic. In midlatitudes, we find large bias in heating by precipitation and vertically averaged net radiation over the NAST, Europe, and the Middle East.     

2008-2011年湖北省暖干类暴雨特征分析

选取2008-2011年湖北省7个暖干类暴雨个例,利用GFS 0.5°×0.5°再分析资料进行合成分析。结果表明：湖北省暖干类暴雨过程中,正涡度平流不是大范围出现,而是以正涡度平流核的形式出现并随着风场流转,使暴雨区各层涡度平流的配置快速发生变化,容易引起上升运动的突然加强;暖平流从中高层扩展至整层,强暖平流中心出现在临近暴雨发生时的边界层,热力强迫导致低层强辐合,950 hPa上下强暖平流中心与暴雨点位置较一致,对暖干类暴雨的预报有较好的指示意义;中层干空气和低层暖湿空气的侵入是暴雨区对流不稳定增长的主要影响因子,均与副热带高压的西伸发展有关。