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1.
西北太平洋热带气旋生成数在不同资料集上的差异性比较 总被引:2,自引:2,他引:0
比较分析中国气象局(CMA)、美国台风联合警报中心(JTWC)和日本RSMC Tokyo台风中心(JMA)台风资料频次的年际、年代际变化和周期变化特征,结果表明,不同资料中心的热带气旋(TC)、台风(TS强度及以上的TC)生成数的气候值存在一定的差异,热带气旋生成数的差异较为明显,台风生成数的差异相对要小,CMA资料中热带气旋、台风生成数相对偏多;CMA与JTWC间热带气旋生成数年际间变化差异显著而难以忽略,其差异主要来自TD生成数的明显不同;三个中心关于台风生成数的一致性比较好,其中JMA台风资料与另外两个中心资料间的一致更好;CMA与JTWC西北太平洋热带气旋生成数的周期变化间无明显差异,但年代际间变化有明显差异,主要表现为1990年代的反位相;台风生成数资料可能在1960年代后期存在非均一性。 相似文献
2.
几种台风资料的对比及台风年鉴数据的订正 总被引:4,自引:0,他引:4
通过对比分别采用台风年鉴、美国关岛联合台风警报中心(JTWC)和日本气象厅(东京区域专业气象中心)(JMA)的最佳台风路径资料,得到西北太平洋年热带低压强度以上(TC)和热带风暴强度以上(TS)的年频数、观测记录次数、破坏力强度等特征量,发现:⑴ 不同资料数据的差异随台风强度的增加而减小。分别基于CMA_SHI和JTWC资料的1950—1979年西北太平洋TC频数、TC观测次数存在明显差异,而TS差异性小得多,但年TS频数均值仍差异明显;⑵ 年代际分布上,1950年代差异较大,1970年代中期—1980年代差异较小,而1990年代中后期开始差异加大。进一步提出了对台风年鉴数据中风速和频数的订正方法。 相似文献
3.
Comparison of Three Tropical Cyclone Intensity Datasets 总被引:3,自引:0,他引:3
Analyzed in this paper are the 16-yr (1988-2003) tropical cyclone (TC) intensity data from three major forecast centers of the western North Pacific, i.e., China Meteorological Administration (CMA), Regional Specialized Meteorological Center Tokyo (RSMC Tokyo), and Joint Typhoon Warning Center (JTWC) of the United States. Results show that there are significant discrepancies (at 1% significance level) in the intensity of TCs among the three centers, with a maximum difference for the same TC over 30 m s-1. The flight reconnaissance over TC can minish the discrepancy to some extent. A climatic and persistent prediction model is set up to study the impact of initial data from different forecast centers on the prediction of TC intensity. It is obtained that the root mean square error (RMSE) of a 4-yr independent test is the largest using data from JTWC, while the smallest using data from RSMC Tokyo. Average absolute deviation in 24-h intensity prediction is 2.5 m s-1 between CMA and RSMC Tokyo data, and 4.0 m s-1 between CMA and JTWC data, with a maximum deviation reaching 21 m s-1. Such a problem in the initial value increases the difficulty in intensity prediction of TCs over the western North Pacific. 相似文献
4.
利用1951—2006年西北太平洋 (含南海) 热带气旋资料, 研究了不同强度热带气旋的气候变化特征。结果表明:超强台风 (近中心最大风速≥58m/s, 简称超强台风Ⅱ) 频数、强度和初、终旋日期的变化特征都不同于其他级别热带气旋; 西北太平洋热带气旋的总频数有长期减少趋势, 主要由热带低压和超强台风Ⅱ的长期减少趋势引起; 随着热带气旋强度增强, 出现月最大频数的月份逐渐推迟; 超强台风月频数最大值发生在秋季; 超强台风Ⅱ频数的年变化与除了超强台风Ⅰ(近中心最大风速为51~58m/s) 外的其他级别热带气旋反相关; 受超强台风Ⅱ减少影响, 热带气旋年平均最大风速有减小的长期趋势; 热带气旋的初、终旋日期没有显著的长期变化趋势, 但超强台风Ⅱ的初旋日期有推迟趋势, 终旋日期有提前趋势, 发生时间缩短。 相似文献
5.
利用美国联合台风警报中心(Joint Typhoon Warning Center,JTWC),中国气象局(China Meteorological Administration,CMA)上海台风所,日本气象厅(Japan Meteorological Agency,JMA)的台风最佳路径资料以及美国NCAR/NCEP再分析资料等,深入研究厄尔尼诺—南方涛动(El Ni1o-Southern Oscillation,ENSO)与西北太平洋强热带气旋(Tropical Cyclone,TC),即1 min最大风速大于等于114 kn相关关系的变化。结果表明,ENSO与热带西北太平洋(Western North Pacific,WNP)强TC频数之间的相关关系存在明显年代际变化。在1960—1971年期间(前一阶段),强TC年频数与Ni1o3. 4(11月—次年1月平均)相关性较弱;而在1983—2014年期间(后一阶段)两者的相关性则为强的正相关。并且强TC的年频数、生命史以及生成位置在后一阶段El Ni1o和La Ni1a年之间的差异相比前一阶段都有明显的增大。进一步分析发现:热带太平洋海温异常(Sea Surface Temperature Anomaly,SSTA)的西移是造成后一阶段Ni1o3. 4指数与强TC年频数相关性提高的关键因素。在后一阶段的El Ni1o(La Ni1a)年,SSTA的西移使得WNP东南象限的相对湿度明显增加(减少),从而有利于(不利于) TC在此象限生成。又因为位于东南象限的TC比较容易发展成强TC,因此导致后一阶段的El Ni1o(La Ni1a)年有更多(更少)的强TC在西北太平洋的东南象限生成。 相似文献
6.
在获取关岛联合台风警报中心(JTWC)以及中国气象局《台风年鉴》和《热带气旋年鉴》自1949—2004年西北太平洋热带气旋强度(近中心最大风力)资料的基础上,着重比较了两者在时间变化上的差异,结果显示:热带风暴以上近56 a所有样本的平均风速前者小于后者0.81 m.s-1,而这一差异主要的贡献是强台风以上样本。两资料集最显著的特征是热带风暴以上年平均风速随时间变化的差异上,自1970s中期到1990s中期,两者的走势趋向呈相反的态势,前者呈上升趋势,后者呈下降趋势,特别是强台风以上样本表现更为突出。利用资料相对稳定性原则,对JTWC和《台风年鉴》资料进行校正,1990s以来JTWC估计的热带气旋强度可能偏大,1970s之前《台风年鉴》估计的数值也可能偏大。 相似文献
7.
《气候变化研究进展》2017,(1)
本文利用美国联合台风预警中心(JTWC)、中国气象局上海台风研究所(CMA)及日本气象厅东京台风中心(JMA)3套热带气旋(TC)数据集,分别选取TC达到生命史极值强度时、达到台风等级时以及达到热带风暴等级时所在的位置作为研究指标,分析了1980—2013年5—11月西北太平洋TC达到不同强度时所在位置的长期变化趋势。研究得出如下结论:西北太平洋TC在达到生命史极值强度时所处的位置表现为显著向北移动的趋势,3个不同数据集向北移动趋势值分别为90、93、113 km/10a。同时TC在达到台风和热带风暴级别时还存在相对明显的向北和向西移动趋势。本文进一步从环境场出发,分析了垂直风切变、海表温度以及潜在生成指数等影响因子的变化特征,为TC达不同强度时所处位置的长期变化趋势给出可能的物理解释。 相似文献
8.
为探究西北太平洋台风尺度对台风强度变化的影响,从美国联合台风预警中心(JTWC)2006—2015年最优路径(best track)观测资料中筛选出快速增强和非快速增强两类台风样本,采用台风最大风速半径(RMW)、34 kn(1 kn=0.51 m/s)风速等值线半径(AR34)和最外围闭合等压线半径(ROCI)三个尺度参数,初步分析了台风尺度与强度变化之间的关系。结果表明:内核尺度(RMW和AR34)与台风强度变化之间存在显著负相关,而外核尺度(ROCI)与台风强度变化之间的相关性较弱。经历和未经历快速增强过程的两类台风的初始尺度,前者显著小于后者。可以使用RMW和AR34代表的尺度参数来辅助中小尺度台风的强度预报和快速增强过程的预测。 相似文献
9.
西北太平洋台风累积动能气候异常特征分析 总被引:2,自引:1,他引:1
应用美国联合台风警报中心(JTWC)提供的热带气旋数据、NCEP再分析资料和英国Hadly中心海表温度资料,分析了年台风累积动能(ACE)异常年气候特征及气候背景.结果表明:年台风累积动能有明显的年际和年代际变化;ACE异常年份由于季风槽东伸的经度、越赤道气流通道和强度以及副热带高压位置的显著差异,造成台风频数、强度和生命史的差异;当5-8月赤道中东太平洋海温为正距平、西南太平洋海温负距平时,通过异常沃克环流和局部哈得来环流的下沉支向西北太平洋输送跨赤道南风,导致该年西北太平洋ACE增多,反之该年ACE减少. 相似文献
10.
使用Emanuel和Nolan完善的潜在生成指数(GPI)的计算方法,利用美国联合台风警报中心提供的热带气旋(TC)资料和欧洲中期数值天气预报中心提供的全球ERA-40再分析资料,比较了1970-2001年西北太平洋海域的TC生成频数和GPI的气候特征,分析了包含于GPI中的环境要素对西北太平洋TC频数年代际变化空间分布的影响.结果表明:GPI能近似地表述西北太平洋TC频数的季节变化和空间分布.各环境要素对TC、较弱类TC和较强类TC生成频数的影响有显著差异,相对湿度随着TC强度的增强而减弱,风速垂直切变则相反.西北太平洋TC频数年代际变化空间分布的正异常主要分布于130°E以东,(15°N,140°E)附近最大的正异常频数中心主要受绝对涡度和相对湿度正异常变化的影响;负的风速垂直切变和正的相对湿度异常变化引起了(10~15°N,160°E)附近的TC频数正异常. 相似文献
11.
DIFFERENCES AMONG DIFFERENT DATABASES IN THE NUMBER OF TROPICAL CYCLONES FORMING OVER THE WESTERN NORTH
PACIFIC 总被引:1,自引:1,他引:0
As shown in comparisons of the characteristics of inter-annual and inter-decadal variability and
periodical changes in the number of tropical cyclones forming over the western North Pacific by three
major forecast centers, i.e. China Meteorological Administration (CMA), Regional Specialized
Meteorological Center of Tokyo (JMA) and Joint Typhoon Warning Center (JTWC) of Guam, there are the
following important points. (1) Climatology of tropical cyclone (TC) or typhoon (TC on the intensity of TS
or stronger) shows some difference in tropical cyclone frequency among the centers, which is more notable
with TC than with typhoon. Both of them are more at the database of CMA than at those of the other two
centers. (2) The difference is too significant to ignore in the inter-annual variability of tropical cyclone
frequency between CMA and JTWC, which mainly results from the obvious difference in the inter-annual
variability of the number of generated tropical depression (TD) between the two databases. The difference
is small in the inter-annual variability of TS formations among all the three databases, and consistence is
good between JMA and CMA or JTWC. (3) Though differences are not significant in the periodical
variation of TC formations between CMA and JTWC, they are markedly apart in the inter-decadal
variability, which is mainly shown by an anti-phase during the 1990s. (4) Non-homogeneity may exist
around the late stage of the 1960s in the data of tropical cyclone frequency. 相似文献
12.
INTENSITY CHANGE CHARACTERISTICS OF TROPICAL CYCLONES IN THE WESTERN NORTH PACIFIC AS REVEALED BY THREE DIFFERENT DATASETS 总被引:2,自引:1,他引:1
Analyzed in this paper are the 20-yr(1991-2010)tropical cyclone(TC)intensity from three forecast centers in the Western North Pacific,i.e.China Meteorological Administration(CMA),Japan Meteorological Agency(JMA),and Joint Typhoon Warning Center(JTWC)of the United States.Results show that there is more or less discrepancy in the intensity change of a TC among different datasets.The maximum discrepancy reaches 22 hPa/6h(42 hPa/6h,33 hPa/6h)between CMA and JMA(CMA and JTWC,JMA and JTWC).Special attention is paid to the records for abrupt intensity change,which is currently a difficult issue for forecasters globally.It is found that an abrupt intensity change process recorded by one dataset can have,in some extreme cases,intensity change in another dataset varying from 0 to≥10 hPa/6h with the same sign or the opposite sign.In a total of 2511 cases experiencing rapid intensity change,only 14%have consensus among all the three datasets and 25%have agreement between two of the three datasets.In spite of such a significant uncertainty,the three datasets agree on the general statistical characteristics of abrupt intensity change,including regional and seasonal distribution,the relationship with initial intensity and TC moving speed,and persistence features.Notable disagreement is on very strong systems(SuperTY)and TCs moving very fast. 相似文献
13.
This is a study to compare three selected tropical cyclone datasets separately compiled by CMA
Shanghai Typhoon Institute (CMA_SHI), the Joint Typhoon Warning Center (JTWC), and the Japan
Meteorological Agency (JMA). The annual frequencies, observation times and destructive power index as
the characteristic quantities are investigated of the tropical cyclones over the western North Pacific. The
comparative study has resulted in the following findings: 1) Statistical gaps between the datasets compared
are narrowing down as the intensity of tropical cyclones increases. 2) In the context of interdecadal
distribution, there is for the 1950s a relatively large gap between the datasets, as compared with a
narrowed gap for the period from the mid 1970s to the 1980s, and a recurring widened gap for the mid and
late 1990s. Additionally, an approach is proposed in the paper to correct the wind speed data in the TC
Yearbook. 相似文献
14.
Influences of Tropical Cyclones on China During 1965-2004 总被引:2,自引:0,他引:2
Using the Joint Typhoon Warning Center (JTWC) and China Meteorological Administration (CMA) tropical cyclone track datasets, variations in frequency and intensity of the affecting-China tropical cyclones (ACTCs) are studied for the period of 1965-2004. First, the differences between the two tropical cyclone datasets are examined. The annual frequencies of tropical cyclones in the western North Pacific basin are reasonably consistent to each other, while the intensity records are less reliable. The annual numbers of ACTCs based on different datasets are close to each other with similar interdecadal and interannual variations. However, the maximum intensity and the annual frequency of ACTCs for strong categories show great dependence on datasets. Tropical cyclone impacts on China show the same variations as the annual number of ACTCs and also show dependence on datasets. Differences in tropical cyclone impacts on China are mainly caused by datasets used. The annual frequency of ACTCs, especially the length of lifetime of ones that make landfall, and the intensity estimates all have effects on the value of impacts on China. 相似文献
15.
应用1999—2003年中国中央气象台 (CMO)、日本气象厅 (JMA) 以及美国联合台风警报中心 (JTWC) 发布的西北太平洋热带气旋综合预报资料, 从总误差、逐年误差趋势、不同海区误差、不同路径趋势误差、不同强度趋势误差等5个方面对各预报中心的路径及强度预报结果进行分析, 结果表明:5年总的平均误差以JTWC的路径预报误差最小, 而JMA的强度预报较准确; 在不同海域, 各预报中心的路径预报能力各有优势, 但在热带气旋的强度预报方面, JMA的方法在各海区都较稳定; 对不同路径趋势热带气旋的预报方面, 除了南海转向热带气旋的路径预报比JMA和CMO稍差一些之外, JTWC的路径预报在大多数情况下都是好于或相当于JMA和CMO; 在不同强度变化趋势热带气旋的预报方面, JTWC在大多数情况下都优于其他中心。上述结果帮助业务和科技人员全面了解各预报中心的预报能力优劣, 也为今后改进我国的热带气旋预报提供有益的参考。 相似文献
16.
Characteristics of intensity change in tropical cyclones affecting the South China Sea from 1977 to 2007 总被引:1,自引:1,他引:0
The best track data of tropical cyclones (TCs) provided by Regional Specialized Meteorological Center (RSMC) Tokyo for the South China Sea (SCS) from 1977 to 2007 are employed to study the spatiotemporal variations (for a period of 12 hours) and the rapid (slow) intensification (RI/SI) of TCs with different intensity. The main results are as follows. (1) Over this period, the tropical storms (TSs) and severe tropical storms (STSs) mostly intensify or are steady while the typhoons (TYs) mostly weaken. The stronger a TC is initially, the more observation of its intensification and the less its variability will be; the more observation of its weakening is, the larger its variability will be. (2) The TC intensifies the fastest at 0000 UTC while weakening the fastest at 1200 UTC. (3) In the intensifying state, TSs, STSs, and TYs are mainly active in the northeastern, central-eastern, and central SCS respectively. The weakening cases mainly distribute over waters east off Hainan Island and Vietnam and west off the Philippines. Some cases of TSs and STSs weaken over the central SCS. (4) The RI cases form farther south in contrast to the SI cases. The RI cases are observed in regions where there are weaker vertical shear and easterly components at 200 hPa. The RI cases also have stronger mid-and lower-level warm-core structure and smaller radii of 15.4 m/s winds. The SI cases have slightly higher SST. 相似文献
17.
B. S. Yurchak 《Russian Meteorology and Hydrology》2018,43(9):581-590
The spiral signatures of infrared satellite images of the tropical cyclone Phanfone observed in the Northwest Pacific in August 2002 are analyzed using the hyperbolic-logarithmic model of a streamline in the Rankine vortex. Maximum wind speed Vmax and some other physical characteristics of the cyclone are estimated by identifying hyperbolic-logarithmic spirals (RLS) which “fit” into the geometric boundaries of the signatures. The comparison of temporal variations in Vmax with the data of meteorological services of the USA (JTWC) and Japan (RSMC) revealed satisfactory agreement of the time course of tropical cyclone intensity from the HLS estimates and JTWC data. The absolute estimates of intensity were within an interval between the corresponding JTWC and RSMC data. It seems that if the presented approach is enhanced, the HLS estimation may be a useful contribution to the empirical methods of tropical cyclone intensity determination by remote sensing means. 相似文献
18.
In this study,tropical cyclone data from China Meteorological Administration(CMA) and the ECMWF reanalysis data for the period 1958-2001 was used to propose a possible mechanism for the impacts of air-sea interaction on the activity of tropical cyclones(TCs) affecting China.The frequency of TCs affecting China over past 40 years has trended downward,while during the same period,the air-sea interaction in the two key areas of the Pacific region has significantly weakened.Our diagnoses and simulations suggest that air-sea interactions in the central North Pacific tropics and subtropics(Area 1) have an important role in adjusting typhoon activities in the Northwest Pacific in general,and especially in TC activity affecting China.On the contrary,impacts of the air-sea interaction in the eastern part of the South Pacific tropics(Area 2) were found to be rather limited.As both observational analysis and modeling studies show that,in the past four decades and beyond,the weakening trend of the latent heat released from Area 1 matched well with the decreasing Northwest Pacific TC frequency derived from CMA datasets.Results also showed that the weakening trend of latent heat flux in the area was most likely due to the decreasing TC frequency over the Northwest Pacific,including those affecting China.Although our preliminary analysis revealed a possible mechanism through which the air-sea interaction may adjust the genesis conditions for TCs,which eventually affect China,other relevant questions,such as how TC tracks and impacts are affected by these trends,remain unanswered.Further in-depth investigations are required. 相似文献