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1.
The characteristic differences of tropical cyclones forming over the western North Pacific and the South China Sea 总被引:4,自引:1,他引:4
The best track dataset of tropical cyclones in the western North Pacific (WNP) and the South China Sea (SCS) from 1977 to 2005 during the satellite era, the NCEP/NCAR reanalysis dataset and the extended reconstructed sea surface temperature dataset are employed in this study. The main climatological characteristics of tropical cyclone formation over the WNP and the SCS are compared. It is found that there is obviously different for the locations of tropical cyclone origins, achieving the lowest central pressure and termination points between over the WNP and over the SCS. The annual number of tropical cyclones forming over the SCS is obviously less than over the WNP, and there is a significant negative correlation with the correlation coefficient being -0.36 at the 5% significance level between over the WNP and over the SCS. The mean speed of tropical cyclone moving is 6.5 m /s over the WNP and 4.6 m /s over the SCS. The mean lowest central pressure of tropical cyclones is obviously weaker over the SCS than over the WNP. The tropical cyclone days per year, mean total distance and total displacement of tropical cyclone traveled over the WNP are all obviously longer than those over the SCS. Tropical cyclone may intensify to Saffir-Simpson hurricane scale 5 over the WNP, but no tropical cyclone can intensify to Saffir-Simpson hurricane scale 3 over the SCS. The changing ranges of the radii(R15,R16) of the 15.4 m /s winds them and the 25.7 m /s winds over the WNP are obviously wider than those over the SCS, and the median values of the radii over the WNP are also larger than those over the SCS. For the same intensity of tropical cyclones, both radii have larger medians over the WNP than over the SCS. The correlations of annual mean tropical cyclone size parameters between over the WNP and over the SCS are not significant. At the same time, the asymmetric radii of tropical cyclones over the WNP are different from those over the SCS. 相似文献
2.
Better forecast of tropical cyclone(TC) can help to reduce risk and enhance management. The TC forecast depends on the scientific understanding of oceanic processes, air-sea interaction and finally, the atmospheric process. The TC Viyaru is taken as an example, which is formed at the end of 11 May 2013 and sustains up to 17 May 2013 during pre-monsoon season. Argo data are used to investigate ocean response processes by comparing pre-and post-conditions of the TC. Eight oceanic parameters including the sea surface temperature(SST), the sea surface salinity(SSS), and the barrier layer thickness(BLT), the 26°C isotherm depth in the ocean(D26), the isothermal layer depth(ILD), the mixed layer depth(MLD), the tropical cyclone heat potential(TCHP) and the effective oceanic layer for cyclogenesis(EOLC) are chosen to evaluate the pre-and post-conditions of the TC along the track of Viyaru. The values of the SST, D26, BLT, TCHP and EOLC in the pre-cyclonic condition are higher than the post-cyclonic condition, while the SSS, ILD and MLD in the post-cyclonic condition are higher than the pre-cyclonic condition of the ocean due to strong cyclonic winds and subsurface upwelling. It is interesting that the strong intensity of the TC reduces less SST and vice versa. The satisfied real time Argo data is not available in the northern Bay of Bengal especially in the coastal region. A weather research and forecasting model is employed to hindcast the track of Viyaru, and the satellite data from the National Center Environmental Prediction are used to assess the hindcast. 相似文献
3.
南大洋气旋气候与变化特征 总被引:2,自引:1,他引:1
A new climatology of cyclones in the Southern Ocean is generated by applying an automated cyclone detection and tracking algorithm(developed by Hodges at the Reading University) for an improved and relatively highresolution European Centre for Medium-Range Weather Forecasts atmospheric reanalysis during 1979–2013.A validation shows that identified cyclone tracks are in good agreement with a available analyzed cyclone product.The climatological characteristics of the Southern Ocean cyclones are then analyzed,including track,number,density,intensity,deepening rate and explosive events.An analysis shows that the number of cyclones in the Southern Ocean has increased for 1979–2013,but only statistically significant in summer.Coincident with the circumpolar trough,a single high-density band of cyclones is observed in 55°–67°S,and cyclone density has generally increased in north of this band for 1979–2013,except summer.The intensity of up to 70% cyclones in the Southern Ocean is less than 980 h Pa,and only a few cyclones with pressure less than 920 h Pa are detected for1979–2013.Further analysis shows that a high frequency of explosive cyclones is located in the band of 45°–55°S,and the Atlantic Ocean sector has much higher frequent occurrence of the explosive cyclones than that in the Pacific Ocean sector.Additionally,the relationship between cyclone activities in the Southern Ocean and the Southern Annular Mode is discussed. 相似文献
4.
北极气旋的季节、年际变化及其与北极海冰、大气遥相关的关系 总被引:2,自引:0,他引:2
The seasonal and inter-annual variations of Arctic cyclone are investigated. An automatic cyclone tracking algorithm developed by University of Reading was applied on the basis of European Center for Medium-range Weather Forecasts(ECMWF) ERA-interim mean sea level pressure field with 6 h interval for 34 a period. The maximum number of the Arctic cyclones is counted in winter, and the minimum is in spring not in summer.About 50% of Arctic cyclones in summer generated from south of 70°N, moving into the Arctic. The number of Arctic cyclones has large inter-annual and seasonal variabilities, but no significant linear trend is detected for the period 1979–2012. The spatial distribution and linear trends of the Arctic cyclones track density show that the cyclone activity extent is the widest in summer with significant increasing trend in CRU(central Russia)subregion, and the largest track density is in winter with decreasing trend in the same subregion. The linear regressions between the cyclone track density and large-scale indices for the same period and pre-period sea ice area indices show that Arctic cyclone activities are closely linked to large-scale atmospheric circulations, such as Arctic Oscillation(AO), North Atlantic Oscillation(NAO) and Pacific-North American Pattern(PNA). Moreover,the pre-period sea ice area is significantly associated with the cyclone activities in some regions. 相似文献
5.
Hu Guangxing 《海洋学报(英文版)》1989,8(1):63-76
In this paper, using Holland's method, the effect of the horizontal structure of tropical cyclones on their motion is investigated. The "characteristic radius", r0 characterized as the horizontal structure of a tropical cyclone,in which m and p are the parameters of the vortex, has been found by the author. And then it has been shown that there is but one "characteristic radius" for each cyclone with horizontal structure. Two direct analytic solutions for the uniform and non-uniform basic flows in steady situations are presented with rc Results show that the change in the horizontal structure of the tropical cyclone itself will have obvious effect on the cyclone motion, on both its direction and speed. Therefore it must be considered in the research on the tropical cyclone motion. 相似文献
6.
The main hazard-causing factors of tropical cyclones are strong wind, heavy rainfall, and storm surge. Evaluation of the hazard-causing degree of a tropical cyclone requires a joint intensity analysis of these hazard-causing factors. According to the maximum hourly mean wind speed, total rainfall, and maximum tide level at various observation stations in Hong Kong during these tropical cyclones, three hazard-causing indices for tropical cyclones are introduced: the strong-wind index(VI), total-r... 相似文献
7.
Computation of Wave, Tide and Wind Current for the South China Sea Under Tropical Cyclones 总被引:1,自引:0,他引:1
Based on the third-generation oceanic wave prediction model (WAVEWATCH Ⅲ) ,the third-generation nearshore wave calculation model (SWAN) and the mathematical tide, tidal current and cyclone current model, which have been improved, interconnected and expanded, a coupled model of offshore wave, tide and sea current under tropical cyclone surges in the South China Sea has been established. The coupled model is driven by the tropical cyclone field containing the background wind field. In order to test the hindcasting effect of the mathematical model, a comparison has been made between the calculated results and the observational results of waves of 15 cyclone cases, water levels and current velocities of the of 7 cyclones. The results of verification indicate that the calculated and observed results are basically identical. 相似文献
8.
Detection of cyclonic eddy generated by looping tropical cyclone in the northern South China Sea: a case study 总被引:4,自引:3,他引:4
A case study on the cyclonic eddy generated by the tropical cyclone looping over the northern South China Sea (NSCS) is presented, using TOPEX/POSEIDON altimeter data and AVHRR sea surface temperature (SST) data. Three cases relating to the tropical cyclone events (Typhoon Kai-Tak in July 2000, Tropical Storm Russ in June 1994 and Tropical Storm Maria in August-September 2000) over the NSCS have been analyzed. For each looping tropical cyclone case, the cyclonic eddy with an obvious sea level depression appears in the sea area where the tropical cyclone takes a loop form, and lasts for about 2 weeks with a slight variation in location. The cold core with the SST difference greater than 2℃against its surrounding areas is also observed by the satellite-derived SST data. 相似文献
9.
The influences of tropical cyclone paths and shelf bathymetry on the inducement of extreme sea levels in a regional bay are investigated. A finite volume coastal ocean model(FVCOM) has been configured for the Gulf of Thailand-Sunda Shelf. A parametric wind model is used to drive the FVCOM. The contributions of the tropical cyclone characteristics are determined through a scenario-based study. Validation based on a historical extreme sea level event shows that the model can resolve the oscillation mechanism well. The intensification of severe storm surges in the region highly depends on four factors including phase propagation of the storm surge wave determined by the landfall position, funnel effect caused by locality of the coastline, and shelf bathymetry determined by the state of mean sea level and coastline crossing angle of the storm path. The coexistence of these factors can cause particular regions e.g. the Surat Thani Bay, inner Gulf of Thailand and Ca Mau Peninsular to experience a larger surge magnitude. These areas are found to be highly related to monsoon troughs that develop during the onset and early northeastern monsoon season(October–November). 相似文献
10.
Niu Xuexin 《海洋学报(英文版)》1990,9(4):539-546
In this paper,the analysis of the occurrence and the development of typhoon and tropical cyclone is made with the unstable theory of wave. The result indicates that the primary wave is the unstable inertia-gravity wave in the process of the occurrence and the deveJopmant of typhoon and tropical cyclone: The existence of the deep moist layer and the heating by moisture condensation can impel and intensify the unstability of the wave and is favourable for the reduction of the wave energy dispersion, therefore, it is good for the formation and the development of typhoon and tropical cyclone, and also can slow down the wave speed. Besides, the condition that the change of the specific volume of the basic state with pressure is less than that of adiabatic state may also lead to the wave unstability, thus may have certain effect on the occurrence and the development of typhoon and tropical cyclone. 相似文献
11.
基于1979—2019年NCEP-DOE再分析资料、中国气象局发布的热带气旋(TC)最佳路径数据集和HadISST全球海温资料等,研究了2019年11月西北太平洋TC生成频数异常偏多的可能原因。结果表明:2019年11月西太平洋副热带高压(WPSH)强度偏强、脊线偏北,其南侧偏东气流与越赤道气流交汇形成的西北太平洋热带辐合带偏强偏北、向东延伸,为TC生成创造了低层强的辐合、高层强的辐散、小的风速垂直切变以及对流层中层充足的水汽等有利的大尺度环境条件,导致TC生成频次异常偏多、生成位置偏北偏东。采用EOF方法进行分析,发现11月东亚大槽年际变化的第二模态为南北反位相型分布,对应的第二特征向量(PC2)与WPSH脊线指数具有高度一致性,且与同期西北太平洋上空TC生成频数呈显著的正相关关系。即当11月东亚大槽北部加深而南部变浅时,对应WPSH脊线偏北,TC生成频数偏多,表明深秋季节西风带槽脊活动对西北太平洋TC生成有一定的调制作用。进一步的诊断分析揭示了北太平洋海温异常可能是造成东亚大槽经向偶极子型变异的重要因子。 相似文献
12.
本文基于中国气象局上海台风研究所整编的热带气旋(Tropical Cyclone, TC)最佳路径资料及美国NCEP/NCAR月平均再分析资料,采用经验正交函数分解、合成分析、相关分析等统计方法,分析了1979-2016年7-9月西北太平洋地区海盆尺度大尺度环境引导气流的年际变化与热带气旋活动之间的联系。结果表明:(1)西北太平洋地区夏季大尺度环境引导气流在年际尺度上存在两个典型模态。其中第一典型模态大尺度环境引导气流呈现经向分布的偶极型环流型,该模态与东部型ENSO密切相关;第二典型模态大尺度环境引导气流呈明显的局地反气旋环流形态,其与中部型ENSO和热带大西洋海温异常紧密关联。(2)大尺度环境引导气流第一典型模态异常年份之间TC活动(生成位置、路径、强度和持续时间)具有显著差异,TC生成空间分布南北差异显著;TC路径尤其西北行和西行盛行路径也具有显著差异。(3)第二典型模态异常年份之间,TC生成位置和路径差异与第一模态呈现显著不同,TC生成位置呈现较为明显的东西向分布,在东南象限TC生成差异尤为显著,TC路径的差异主要体现在西北行和近海转向两类盛行路径。 相似文献
13.
潜热通量异常对西北太平洋热带气旋活动影响的机理研究 总被引:2,自引:0,他引:2
使用1958—2001年的中国气象局台风年鉴资料和欧洲中心再分析资料,初步揭示了潜热通量异常对西北太平洋(含南海)热带气旋活动的可能影响机理。统计分析发现,西北太平洋(含南海)热带气旋年频数与北太平洋副热带(简称关键区)的潜热通量在过去40余年中均表现为显著的减弱趋势。诊断分析表明,关键区的潜热通量通过低层信风向西的水汽输送—整个西北太平洋热带气旋活动区水汽低层辐合上升而凝结—潜热释放这一链条改变西北太平洋(含南海)大气环境场条件(包括中层湿度场、高低层涡度场和高低层散度场),进而调制热带气旋活动。使用SAMIL模式进行关键区内潜热通量加倍和减半的敏感性试验,进一步证实了关键区潜热通量异常对西北太平洋热带气旋活动调制作用的可能机理,而对南海热带气旋活动影响较小。由此可推断,在过去40余年中,北太平洋副热带中部区潜热通量的减弱趋势可能是造成西北太平洋(含南海)热带气旋频数下降的主要原因之一。 相似文献
14.
南海夏季风爆发与西北太平洋热带气旋活动 总被引:1,自引:0,他引:1
利用1965—2007年美国台风预警中心(JTWC)的热带气旋(TC)及NCEP/NCAR再分析资料,初步研究南海夏季风爆发与西北太平洋(包括南海)热带气旋活动之间的关系。结果表明,南海夏季风的爆发伴随着西北太平洋(尤其南海区域)TC生成个数和活动频数比爆发前有显著增加,而超过1/2的年份南海夏季风爆发前2候和爆发候西北太平洋(150°E以西)有TC活动,表明TC活动可能是南海夏季风爆发的触发机制之一。在大多数(77%)南海夏季风爆发偏早年,爆发前2候和爆发候西北太平洋TC活动偏多,且TC生成位置偏西;而大多数(77%)爆发偏晚年份,爆发前2候和爆发候没有TC活动。季风的偏早爆发受季节内振荡、西北太平洋TC活动、中纬度冷空气活动等复杂因素影响,而季风的偏晚爆发则主要受季节内振荡影响。 相似文献
15.
16.
西北太平洋季风槽异常与热带气旋活动 总被引:18,自引:3,他引:15
在普查1979-2005年热带气旋(TC)个例的基础上,建立了生成于西北太平洋季风槽的热带气旋(简称MTTC)序列,统计发现1979-2005年的5-10月南海和西太平洋TC总频数为672个,其中MTTC频数为491个,占总频数的73.1%,占登陆我国TC频数的79.2%,可见,MTTC的活动规律反映了西太平洋TC以及影响我国TC的主要活动规律.分析了逐日环流场,将季风槽分为5种主要形态:南海季风槽型、南海-西太平洋季风槽型、反向季风槽型、三气流型和西太平洋季风槽型.根据每年5-10月的季风槽、副高以及越赤道气流等系统的强弱和位置,将1979-2005年分为4种年型:季风槽西南型、西北型、偏东型和正常年型,针对前3种季风槽异常年型,诊断分析了有利于TC形成的海温场、大尺度环流场、水汽输送、大气视热源和视水汽汇以及纬向风垂直切变的特征,发现不同季风槽年型,由于太平洋海温场的差异,引起哈得来环流和Walker环流的差异以及西太平洋副高、南亚高压等大尺度系统位置以及越赤道气流强度的差异,导致有利于TC生成的热力条件、动力条件和环境条件的不同,致使MTTC生成位置、频数、路径以及在我国的登陆点有着显著差异. 相似文献
17.
1949-2006年西北太平洋热带气旋活动的气候分析 总被引:3,自引:0,他引:3
应用1949~2006年的《台风年鉴》资料对出现在西北太平洋的热带气旋(TC)的活动规律进行了气候再分析,按照新的TC分类方法探讨了近58a来西北太平洋TC的时空分布特征。分析结果表明,西北太平洋TC的时空分布差异显著,其发生源地可划分为4个,发生时间和位置的季节性变化明显,每年登陆我国TC的个数与西北太平洋TC数量的增减保持一致,TC全年集中发生在7~10月期间,TC的年代际变化表现为上世纪80~90年代发生的频数比60~70年代显著减小。小波分析显示TC活动3~6 a与12~14a的变化周期显著。 相似文献
18.
西北太平洋热带气旋与上层海洋热含量的关系 总被引:1,自引:1,他引:0
利用SODA(Simple Ocean Data Assimilation)的海温资料和Unisys Weather的热带气旋资料,研究了1960-2008年期间北太平洋上层150 m的热含量分布特征及其与西北太平洋热带气旋发生频次的关系。考虑了纬度的变化对热含量的影响后,北太平洋热含量的高值中心位于10°N左右,与上层海温结构相符,计算结果更加符合物理意义。北太平洋热含量与西北太平洋热带气旋频数年际相关性研究表明在北太平洋中高纬度大洋内区和赤道东太平洋热带不稳定波发生区呈现出前期冬季正相关性。此相关性存在显著年代际的变化,在1970-1975年和1984-2008年期间最强,1976-1983年期间较弱。在北太平洋中高纬度大洋内区,同期春夏秋季同样存在强正相关。在西太平洋暖池区,同期秋季负相关最为显著。赤道中太平洋区域在夏季呈显著的正相关,秋季减弱。赤道东太平洋海域的相关性前期冬季负相关最为显著,春季负相关性减弱,夏季和秋季无显著相关。 相似文献
19.
利用美国气象环境预报中心和美国国家大气研究中心 (NCEP/NCAR)再分析资料以及中国气象局发布的热带气旋(TC)最佳路径数据集,本文探讨了1950–2018年期间晚春(5月)北极涛动(AO)与随后夏季(6–9月)西北太平洋上空热带气旋生成频数的关系。研究表明,晚春AO对夏季西北太平洋TC生成有明显的预报指示意义,二者之间存在显著的正相关关系。对应晚春AO指数偏高年,夏季西太平洋副热带高压主体位置偏东偏北、强度偏弱,西北太平洋上空大气低层有较强的辐合、高层辐散增强、中层水汽充足、垂直风切较弱,这些大尺度环境因子均有利于TC的生成。而在晚春AO指数偏低年,西北太平洋上空的大气环流特征与上述特征相反,造成TC生成频数偏少。进一步的分析揭示:与AO变化密切相关的北太平洋风暴轴位置的南北移动,在晚春AO与夏季西北太平洋TC生成频数二者关系中起到了关键作用。AO正位相(负位相)年,北太平洋风暴轴向北(向南)偏移,通过天气尺度波动和平均流之间的相互作用,造成后期夏季西北太平洋上空低层形成气旋性(反气旋性)涡度异常,在局地经向环流的调整作用下,西北太平洋副热带高压的位置及强度发生改变,对西北太平洋TC的形成起到了促进(抑制)作用。 相似文献