舟山群岛对9806号登陆热带气旋影响的数值模拟

采用数值模拟方法，以9806号热带气旋为例，探讨了舟山群岛对登陆热带气旋的影响，结果表明舟山群岛的地形作用能使西行登陆热带气旋的路径产生偏折；同时，地形引起的气流爬坡作用还会使主要岛屿山脉迎风坡的降水增多，并诱生中小尺度的地形高压。这些结果揭示了小型岛屿地形影响登陆热带气旋的一些特殊规律。     

FACTORS AFFECTING THE TRACK OF TROPICAL CYCLONES AFTER LANDFALL IN EASTERN CHINA

The correlation and composite analysis are carried out in this paper to study major factors affecting the track of tropical cyclones (TCs) after their landfall in the east of China. The mid-tropospheric environmental steering flow is found to dominate the movement of a TC even after landfall, with the inertia and Coriolis force two other subordinates. A key region is discovered covering the east of China and Yellow Sea, in which the environmental flow significantly affects the movement of TCs making landfall in this part of China. When the subtropical high in this region strengthens and extends westward, accompanied by northward shrink of the westerly trough, the TC tends to move westward after landfall and disappear inland. However, when the subtropical high in this region weakens and shrinks eastward, accompanied by southward push of the westerly trough, the TC tends to recurve after landfall and re-enter the sea at a location to the north of the site of landfall. The environment before the landfall of a TC has little impact on its post-landfall track, which is sensitive to the environmental change 12 – 24 hours after landfall. A 6-hour lag is found between the environmental change and the movement of a TC after landfall.     

华南登陆热带气旋“珍珠”和“派比安”的对流非对称分布观测分析

采用广东省中尺度地面气象站和天气雷达的观测资料,对2006年登陆华南的热带气旋(TC)"珍珠"和"派比安"的对流非对称分布进行了分析.结果表明:在登陆TC"珍珠"和"派比安"从登陆前12小时到登陆后6小时期间,强对流主要位于TC中心的"东"、"北"象限,即TC移动路径的右侧和前方;同时TC对流在垂直方向也存在明显的差异.分析还发现,虽然登陆TC"珍珠"和"派比安"都有相同的对流非对称分布,但是引起这种对流非对称分布的原因并不完全相同,登陆TC"珍珠"的对流非对称分布主要与强的环境垂直风切变、低层水平风场切变、低层辐合和辐散的影响有关,而登陆TC"派比安"的对流非对称分布主要与低层辐合和辐散的影响有关.     

广东省登陆热带气旋活动异常成因分析

利用1970～2001年热带气旋年鉴资料，对32年来西太平洋热带气旋登陆我国的频率、位置、维持、衰减、变性、加强及消亡等进行统计分析，揭示热带气旋登陆活动的一些事实和特征。研究表明：在我国沿海不同地区(不包括岛屿)登陆的热带气旋，其陆上维持时间明显不同，从广西至浙江，维持时间向北增加；热带气旋登陆后的明显衰减主要发生在登陆后12小时内，登陆时越强的热带气旋，衰减得越厉害；热带气旋在我国陆上消失的位置最北是黑龙江、最西可至云南，广西是登陆我国热带气旋消失数最多的地区。     

东亚高空纬向风的季节内振荡对登陆中国大陆热带气旋活动的影响

使用1979—2015年欧洲长期天气预报中心所提供的ERA-Interim再分析资料和中国气象局上海台风研究所整编的西北太平洋热带气旋（TC）最佳路径资料,分析了7—8月东亚高空纬向风的季节内振荡（ISO）信号特征及其与登陆中国大陆热带气旋（TC）的关系。结果表明:（1）200 hPa纬向风在副热带、中纬度地区季节内振荡显著,尤其是在纬向西风带中,有两个南北分布的大值中心,方差贡献均超过50%。（2）基于东亚高空纬向风的ISO和EOF典型空间模定义的西风指数(EAWI),可以用来描述东亚高空纬向西风在ISO尺度上的经向移动。（3）在西风指数的ISO负位相期间,登陆中国东南沿岸22 °N以北的TC增多;反之减少。在西风急流出口南侧的副热带区域,200 hPa ISO纬向风向北移动,使纬向西风位置偏北,出现东风异常,从而使西风减弱;TC引导气流为向西的异常,有利于TC登陆中国大陆偏北沿岸;同时有异常的ISO纬向异常东风切变,有利于TC登陆过程的维持。（4）在西风指数的ISO负位相期间,在对流层高层西风急流出口区向南输送的天气尺度的E矢量,在TC登陆地区,出现异常扰动涡度通量的辐合,引起了该区域的西风减弱。      

登陆热带气旋路径和强度预报的效益评估初步研究

近年来有关热带气旋(TC)灾情的评估指标和方法的研究取得明显进展,但较少涉及TC预报对减少灾害损失的贡献(即效益)分析。基于中央气象台的TC实时路径和强度预报,针对登陆中国大陆的TC,初步分析了TC的路径和强度预报误差与其造成的直接经济损失之间的可能关系,并在此基础上建立了包含TC路径和强度预报误差的TC直接经济损失的预估模型。TC登陆前后24 h的路径和强度预报误差与TC所致直接经济损失均呈正相关关系;对于单个登陆TC而言,若24 h TC路径预报误差每减小1 km可减少因灾直接经济损失约0.97亿元,若强度预报每减小1 m/s可减少因灾直接经济损失约3.8亿元(以2014年为基准年)。可见,提高TC路径和强度预报精度对于减灾的效益巨大,且当前尤以提高强度预报能力的效益为佳。      

东亚高层纬向风季节内振荡与盛夏登陆中国大陆热带气旋频数年际变化的联系

利用1979—2017年欧洲中期天气预报中心提供的ERA-Interim再分析数据与中国气象局-上海台风研究所(China Meteorological Administration-Shanghai Typhoon Research Institute,CM A-STI)、美国联合台风警报中心(Joint Typhoon Warning Center,JTWC)整编的西北太平洋热带气旋(Tropical Cyclone,TC)资料集,分析东亚高层(200hPa)纬向风季节内振荡(Intraseasonal Oscillation,ISO)与7—8月登陆中国大陆TC频数年际变化的联系。结果表明:7—8月中国大陆登陆TC频数与西风急流出口区南侧(北侧)纬向风为显著负(正)相关,南侧显著相关区与北侧的差定义的东亚西风急流指数(East Asian Westerly Jet Index,EAWJI)可定量描述急流经向移动,EAWJI负异常时急流北移、登陆TC偏多,反之急流南移、登陆TC偏少。急流北移,TC活动区域对流层高层呈偏东风异常,产生异常东风切变,有利于TC登陆过程的维持,使登陆中国大陆TC频数增多。东亚高层纬向风ISO与年际变化的标准差场、EOF模态的高度相似性说明两者由同一空间主导模态所控制,表明若其ISO偏北偏南振荡发生频率为非正态分布,剩余偏差将改变其季节平均。TC登陆多年,东亚西风急流指数ISO呈更高频率偏北移动,引起急流出口区南侧ISO尺度扰动涡度通量辐合,使季节平均西风减小,急流位置北移,说明高层纬向风ISO可通过间接调制影响TC登陆的大尺度环流进而与登陆TC频数的年际变化相联系。     

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     

AN ANALYSIS OF DISTRIBUTION AND MESOSCALE STRUCTURE OF PRECIPITATION ABOUT LANDFALL TROPICAL CYCLONE KOPPU (0915)

Observation from automatic weather stations, radars and TRMM satellites are employed to investigate the precipitation distribution of tropical cyclone (TC) Koppu (0915) that made landfall on Guangdong province in 2009. The results show that the precipitation of landfall TC Koppu is featured by significant asymmetry and mesoscale structure, and occurs mainly to the left of its moving path. By examining the sea surface temperature (SST), water vapor flux, Q vector, vertical wind shear of environment etc., it is found out that the distribution of SST, water vapor convergence, low-level convective ascending and vertical wind shear facilitates the TC precipitation to take place to the left of the TC moving path. The mesoscale structure separated by Barnes band-pass filter presents that the precipitation of landfall KOPPU has some organized mesoscale spiral structures, which is around the TC center and composed of the form of belts or blocks. The heavy local rainfall of landfall TC Koppu is primarily associated with the rainfall due to mesoscale spiral structure.     

登陆中国大陆不同区间的热带气旋特征初步分析

利用地理信息系统及程序计算得到了1949—2008年登陆中国大陆的热带气旋(TC)登陆点经纬度信息,在此基础上对登陆中国大陆的TC进行分析,最终选择110～122°E海岸线为研究区域,7—9月为研究时段,且将110～122°E海岸线以1°E为间隔划分为12段,分析这12段海岸线登陆TC的基本特征发现:118°E以东的区间TC登陆前后平均维持时间及登陆前平均强度基本上为大于118°E以西的区间,登陆后平均强度东西两段相差不大;定义了TC登陆前(后)破坏潜力指数TDP1(TDP2),TDP1(TDP2)最大值出现在区间[119,120°E)([110,111°E));ENSO事件对7—9月登陆110～122°E段的TC频数、平均登陆点位置影响并不明显,对各区间登陆TC的影响也不尽相同;各区间平均TDP1冷暖事件年对比差别较大,平均TDP2在暖事件年基本上比冷事件年大;1961—2008年,各区间对应的暴雨总站次,118°E以东的区间要远大于以西的区间,就空间分布而言,较大值的分布出现在区间[119,120°E),[110,111°E)。     

ANALYSIS ON THE CHARACTERISTICS OF TROPICAL CYCLONES MAKING LANDFALL ON DIFFERENT REGIONS OF CHINESE MAINLAND

The locations(longitudes and latitudes)of the tropical cyclones(TCs)making landfall on the Chinese mainland from 1949 to 2008 are investigated in detail by using ArcGis and FORTRAN routine.The southeast coastline[110 to 122°E)with most landfall TCs was selected as the key region,which was divided into 12 subsections with 1°intervals of longitude.The study period was from July to September in each year.The result showed that the average sustaining time of TCs making landfall on the subsections east of 118°E is longer than those west of 118°E.Before landfall,the averaged TC intensity in the subsections east of118°E is stronger than that west of it.After landfall,however,the difference between the west and east is not significant.The index of destructive potential for the period before/after landfall was defined as TDP1/TDP2.The maximum of TDP1/TDP2 occurred in the subsection of[119,120°E)/[110,111°E).The ENSO impact on the frequency and average location of landfall TC over the whole region at 110 to 122°E is not obvious,but the effect varies with specific subsections.There is little differences of averaged TDP1 in the subsections between different phases of ENSO events,but the averaged TDP2 is larger in the warm events than that in the cold events.The rainstorm days of each station caused by TCs in different subsections were counted respectively.The results suggested that the rainstorm days of the subsections east of 118°E are much more than those west of 118°E.The larger values are primarily distributed at the subsections of[119,120°E)and[110,111°E).     

华东登陆台风的对流非对称结构分析

利用FY-2气象卫星的TBB资料对登陆华东地区的台风进行了对流非对称结构的分析。不同象限的对流分析显示,在台风登陆的-24—6 h过程中,其南侧的对流始终强于北侧,西侧的对流在登陆至8 h之前强于东侧,之后两者的对流相对强弱发生变化。台风对流的非对称分布,一部分是由于环境垂直风切变和台风移动造成的,还有一部分是由于台风登陆过程相关象限对流受限引起的。此外,华东沿海的地形抬升作用也有利于台风东侧对流的产生和加强。对比华南登陆台风的非对称对流分布特点,发现导致两者明显不同的原因主要在于台风登陆过程的路径与海岸线的相对夹角,以及台风东侧的不同地形。     

浙江省登陆热带气旋气候特征初探

利用52a(1949-2000年)西北太平洋热带气旋基本资料,分析了热带气旋在浙江省登陆的一般气候特征。在此基础上,将这些热带气旋分为入海类和消失类,从而进一步分析了热带气旋登陆后的强度变化、维持时间、消失位置等气候规律。     

华南地区热带气旋登陆前强度突变的大尺度环境诊断分析

利用每6小时一次的NCEP再分析资料，对华南地区登陆前突然减弱和突然增强的两类热带气旋（TC）进行大尺度诊断分析，结果表明：（1）突然增强的TC位于副高的西南侧或南侧，低空有明显的西南气流卷入TC内部，而突然减弱的TC基本在副高西侧或西北侧；（2）突然增强TC的低空辐合、高空辐散均较强；（3）充足的水汽输送是TC登陆前突然增强的另一重要原因。     

A METHOD OF RAPID CLASSIFICATION OF TROPICAL CYCLONE TRACKS OVER CHINA AND ITS APPLICATION

Using data of tropical cyclones making landfall in China between May and October each year during the 1951-2015 period from the Shanghai Typhoon Institute, China Meteorological Administration (CMA-STI) Tropical Cyclone (TC) Best Track Dataset, we developed a method of rapid classification of TC tracks based on their average movement velocities and noted three types of tracks: a westward type, a northwestward type, and a northward type. We compared the climate characteristics of the westward and northward types and discuss their corresponding causes. The results show that the westward and northward types account for more than 80% of all TCs making landfall in China. Their climate characteristics, such as the frequency, landfall intensity, duration over land, velocity over land, movement distance over land, and other changes, show both similarities and differences. Both TC types show significant increases in their over-land durations, indicating that the effects of these landfalling TCs are increasing. However, the causes of these two TC types are similar and different in certain respects. The changes in large-scale steering flows have significantly affected the frequencies and over-land velocities of the landfalling TCs of the westward and northward types. In addition, differences between the changes in formation locations of the westward and northward types may lead to significant difference in their landfall intensities.     

城市效应对登陆热带气旋妮妲降水影响的模拟

运用中尺度数值模式WRF耦合城市冠层模式（urban canopy model,UCM）,对2016年登陆深圳的热带气旋妮妲（1604）（以下简称妮妲）进行数值模拟。高分辨率数值模拟较好地再现了妮妲登陆前后的强度、路径和累积降水。利用城市化过程当中城市冠层对热带气旋降水的敏感性试验结果表明:城市冠层会减弱对流运动和水汽的输送,导致热带气旋登陆后珠江口城市群区域累积降水量略减少。应用最新的土地利用资料进行的城市下垫面敏感性试验结果表明:由于城市下垫面粗糙度增加,造成登陆地面风的减速,强度减弱,潜热通量与2 m高度比湿相应减小;城市下垫面粗糙度增加会加强该区域垂直对流运动以及不稳定能量增加,有利于降水增强,尤其在城市化下垫面处,热带气旋登陆后6 h累积降水增加量最大可超过20 mm。总体而言,对登陆热带气旋降水而言,耦合城市冠层使城市区域热带气旋降水减少,但在数值模拟中城市冠层影响作用不显著。城市化下垫面对登陆热带气旋暴雨的增幅作用明显,在登陆热带气旋降水预报中应重视。     

登陆我国热带气旋的统计特征

NCAR(National Center for Atmospheric Research)在1990年代发展起来的多普勒雷达四维变分分析系统(The four-dimensional Variational Doppler Radar Analysis System，简称VDRAS)，采用四维变分(4D—VAR)资料同化技术和云尺度数值模式及其伴随模式，利用单部或多部多普勒雷达观测资料，反演对流尺度风暴的动力结构和微物理结构，包括三维风场、温度场、气压场和微物理量场。本文介绍了VDRAS的基本原理、个例试验和实时运行等概况，旨在随着我国新一代天气雷达建设的逐步完成，为应用我国新一代天气雷达的观测资料，开展4D-VAR方法的研究和应用提供一些参考或借鉴。     

A COMPOSITE STUDY OF RAINFALL ASYMMETRY OF TROPICAL CYCLONES AFTER MAKING LANDFALL IN GUANGDONG PROVINCE

Based on observed rainfall data, this study makes a composite analysis of rainfall asymmetry in tropical cyclones(TCs) after making landfall in Guangdong province(GD) during 1998—2015. There are 3.0 TCs per year on average making landfall in GD and west of GD(WGD) has the most landfall TCs. Most of TCs make landfall in June,July, August, and September at the intensities of TY, STS, and TS. On average, there is more rainfall in the southwest quadrant of TC in CGD(center of GD), WGD, and GD as a whole, and the maximum rainfall is located in the southwest near the TC center. The mean TC rainfall in the east of GD(EGD) leans to the eastern side of TC. The TC rainfall distributions in June, July, August, and September all lean to the southwest quadrant and the maximum rainfall is located in the southwest near the TC center. The same features are found in the mean rainfall of TD, TS, STS, TY,and STY. The maximum rainfall is mainly in the downshear of vertical wind shear. Vertical wind shear is probably the dominate factor that determines asymmetric rainfall distribution of TCs in GD. Storm motion has little connection with TC rainfall asymmetry in GD.     

STATISTICAL CHARACTERISTICS ON TROPICAL CYCLONES LANDFALL IN CHINA

With the data from the Tropical Cyclone Yearbooks between 1970 and 2001, statistical analyses were performed to study the climatic features of landfall TCs (noted as TCs hereafter) in China with particular attention focused on landfall frequency, locations, sustaining, decaying, transition, intensification and dissipation etc. The results indicate that the sustaining periods of TC over land are quite different for different landfall spots, and increased from Guangxi to Zhejiang. The most obvious decreasing of TC intensity occurs mainly within 12 hours after landfall. The stronger a TC is，the more it decays. The areas over which TCs are dissipated can be in Heilongjiang, the northernmost, and Yunnan, the westernmost. Besides, Guangxi is an area with high dissipating rate and subject to TC dissipation as compared with the other coastal regions.     

登陆台湾岛热带气旋强度和结构变化的统计分析

利用1949—2008年共60年的《台风年鉴》、《热带气旋年鉴》资料及CMA-STI热带气旋最佳路径数据集,2001—2008年美国联合台风警报中心(JTWC)热带气旋尺度相关资料及日本气象厅(JMA)的TBB资料,统计分析西北太平洋(包括南海)热带气旋(TC)在登陆台湾过程中强度和结构变化的基本特征,主要结论有:(1)TC登陆台湾时强度为台风及以上级别的样本数占总样本数约60%,主要出现在6—9月,东部登陆TC的强度一般比在西部登陆的强;(2)大部分TC在岛上维持6 h左右,登陆时最大风速≤5级和强度为超强台风的TC穿越台湾岛时移动比较缓慢;(3)126个登陆台湾的TC样本过岛后近中心海平面气压平均增加5.61 hPa,近中心最大风速平均减小3.58 m/s,在台湾东部地区登陆TC的衰减率比在西部登陆的大3倍左右;(4)TC在登陆台湾前6 h至离岛后6 h期间其8级和10级风圈半径均明显减小,TC形状略呈长轴为NE-SW向的椭圆状,而其最大风速的半径却逐渐增大;(5)TBB分析结果显示,TC登陆台湾前,其外围对流主要出现在南侧和西侧,结构不对称,登陆以后,TC北部及东部的对流显著发展,外围结构区域对称;但中心附近的强对流则从登陆前6 h开始逐渐减弱消失。表明TC穿越台湾过程中内核结构松散、强度减弱。