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1.
影响福建热带气旋活动特征分析 总被引:1,自引:0,他引:1
分析了1960—2005年影响福建热带气旋(简称TC)的活动特征,结果表明:影响TC频数呈减少趋势;7—9月影响频数多,8月为最多;影响频次的空间分布呈东南-西北递减的带状分布;南海是影响TC生成频数最多的集中区域。分析了TC异常活动的环境场,在TC异常偏多年份,低层ITCZ位置偏北,西北太平洋(WNP)生成TC位置也较偏北,同时在中国东南沿海为异常的气旋性距平环流控制,非常有利于TC的生成和发展。对于低压环流影响年份,在WNP区域TC生成频数偏多偏北情况下影响中国东南沿海地区TC较频繁,则影响福建TC数偏多;反之,ITCZ明显偏弱,中国东南沿海为异常的反气旋性距平环流控制时,影响福建TC数偏少。对亚洲地区500 hPa大气环流分析发现,影响福建TC异常偏多(少)年份,副热带高压位置偏北(南)。 相似文献
2.
利用挪威卑尔根的全球大气-海洋-海冰耦合模式的300年气候态数值积分结果,结合观测资料,分析了夏季亚洲-太平洋涛动(APO)的年际变化对与西北太平洋热带气旋生成频数相关联的大尺度环流背景的影响。模式结果表明,当夏季APO异常偏强(弱)时,西太平洋副热带高压位置偏东(西)偏北(南),南亚高压位置偏北(南),西北太平洋低层大气异常辐合(辐散),高层大气异常辐散(辐合),对流活动加强(减弱)。这种环流背景条件有(不)利于西北太平洋热带气旋的发生发展,西北太平洋热带气旋频数因而偏多(少)。 相似文献
3.
华南秋旱的大气环流异常特征 总被引:4,自引:2,他引:2
利用实测降水量资料及NCEP再分析资料, 通过统计方法分析了华南秋旱及其相关的环流异常特征。结果发现, 华南秋旱以全区性的干旱出现居多。华南秋旱事件对应的同期海温异常分布型大致可分两类。一类是热带中东太平洋的负海表温度距平 (SSTA) 区的极值中心位于赤道东太平洋, 在海洋性大陆和热带西太平洋有马蹄形的正SSTA, 而在热带西印度洋, 南海至日本东、 南部西北太平洋是负SSTA; 另一类是热带中东太平洋正SSTA极值中心位于赤道中太平洋, 热带—副热带西太平洋、 南海和热带印度洋为负SSTA区, 副热带北太平洋东部和南太平洋东部为显著的正SSTA。 与第一类SSTA相关的华南秋旱与海洋性大陆区域上空的上升运动异常增强 (与其下垫面海温异常偏暖有关)。而与第二类SSTA相关的华南秋旱则与中纬度环流的长波调整造成的东北亚上空的异常上升运动距平有关。而两类华南秋旱都是通过大气环流对华南地区的异常下沉运动产生强迫作用而产生的。另外, 华南秋旱还与菲律宾和台湾东侧洋面上空出现上升运动距平有关。两类华南秋旱都与南海中北部热带气旋频数偏少, 菲律宾和台湾东侧热带气旋频数偏多有关, 因此, 使得登陆华南的热带气旋偏少, 导致华南秋季干旱。 相似文献
4.
使用1951—2013年NOAA OLR、NCEP/NCAR风场和高度场再分析资料、中国气象局热带气旋资料,分析2013年影响广西热带气旋数量偏多的原因。结果表明:2013年6—9月西太平洋副热带高压明显偏强,西伸脊点明显偏西,脊线略偏北,同时副热带高压南侧对流活跃,降水过程潜热释放有助于副热带高压位置偏北,这种形势非常有利于热带气旋向广西移动。索马里越赤道气流强劲,在南海及菲律宾与北太平洋反气旋西南侧的东南气流相遇,形成季风槽,非常有利于热带气旋生成频数偏多。热带低频强对流带在印度洋和西太平洋活动频繁,并分别向东向西移动;赤道东太平洋海温偏低;哈得来和沃克环流较常年偏强,沃克环流上升支位置偏西,这些也可能是2013年影响广西热带气旋数量偏多的原因之一。 相似文献
5.
基于1970—2016年Hadley中心海温资料、NCEP/NCAR再分析资料和ECHAM4模式,研究了各海盆海表温度异常(SSTA)对1998和2016年这两个超级厄尔尼诺衰减年8月西北太平洋热带气旋(TC)生成及大尺度环流变化的可能影响。结果表明,热带印度洋和大西洋在1998与2016年几乎相反的SSTA型态是导致TC生成频数显著差异的主要原因之一,而热带和北太平洋SSTA在1998与2016年均分别在珠江三角洲和日本以南形成气旋性环流。1998年8月热带印度洋和大西洋SSTA产生的西北太平洋反气旋环流响应强于太平洋SSTA产生的气旋性环流异常,使西北太平洋受异常反气旋控制,减少TC的生成。2016年在三个大洋SSTA共同作用下,西北太平洋受异常气旋控制导致TC生成频数偏多。太平洋经向SSTA模在北半球副热带强迫出东西反向的跷跷板形势,在西北太平洋对流层产生的响应与实际变化相反,因此太平洋经向模对西北太平洋TC生成没有正的贡献。 相似文献
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利用由美国NOAA系列卫星观测的OLR资料研究了影响华东地区热带气旋年频数(记为ATC)与热带对流场的关系,结果表明两者存在密切的联系:(1)当华东地区热带气旋年频数ATC为异常偏多(少)时,ITCZ位置累积距平为正(负)值,即ITCZ位置异常偏北(南);(2)利用OLR设计了Walker综合指数WI,该指数的强弱可以反映ATC的异常情况,即当ATC为异常偏多(少)时,walker环流圈异常强(弱);(3)OLR距平累积量场能较好的表征ATC异常年份所对应的低纬度及中高纬地区大气环流的配置,其可以作为预测影响华东地区热带气旋年频数的强信号。 相似文献
9.
根据国家气象信息中心提供的中国台站气温、降水资料,NCEP/NCAR逐日大气环流再分析资料和NOAA提供的月平均海温资料,分析了2017年秋季我国北方地区降水异常偏多的成因。结果表明2017年秋季我国降水阶段性特征明显,9—10月北方地区降水异常偏多主要受东亚环流型组合异常的影响。东亚500 hPa高度距平场从高纬至低纬呈“+-+”的异常分布,极区高度场偏高,极涡分裂偏向东北亚地区,贝加尔湖 巴尔喀什湖地区为显著低槽区,西太平洋副热带高压较常年偏强偏西偏北,有利于华西秋雨偏强。此外,850 hPa距平风场上朝鲜半岛的反气旋式环流异常有利于引导偏东路径的冷湿气流输送至黄河与长江之间的地区,与来自孟加拉湾和南海的暖湿气流交汇,形成水汽通量异常辐合区,造成黄淮及江淮等地降水异常偏多。进一步诊断表明热带中东太平洋海温秋季转为偏冷状态,热带太平洋地区Walker环流明显增强,有利于西太平洋副热带高压偏强西伸偏北;9—10月热带印度洋偶极子维持正位相有利于在孟加拉湾形成反气旋式环流异常,并同样有利于副热带高压西伸偏北。因此,海温外强迫信号的影响加上中高纬环流异常的共同作用造成9—10月东亚环流型异常特征,并进一步导致我国北方地区降水异常偏多。 相似文献
10.
西太平洋副热带高压的年际变率受热带多个关键海区的海-气相互作用过程调控, 但彼此间的因果关联和影响机制尚不清楚。为揭示西太平洋副热带高压的年际变率与热带海温及大气环流异常之间的内在关联特性, 定义了三个关键海区以及赤道纬向西风区的特征指数, 并分别与西太平洋副热带高压强度、脊线指数进行了交叉小波和相干小波分析。研究发现:西太平洋副热带高压指数存在显著的2~3年和准5年的周期振荡, 20世纪八九十年代后, 由于暖池区海温及赤道纬向西风区的Hadley环流强迫加强, 致使副热带高压特征指数的2~3年周期振荡加强; 从位相关系看, 先是西太平洋副热带高压减弱南撤导致纬向西风加强, 其后影响赤道东太平洋海温升高, 同时暖水向东传, 使赤道中太平洋以及暖池区海温逐渐升高, 在Hadley环流作用下使副高加强北抬。基于上述西太平洋副热带高压的年际变率与热带海温及大气环流异常变化相关性诊断研究, 进一步探讨了造成这种相关性的影响机理和因果关联, 为揭示西太平洋副热带高压年际变率与热带海温及大气环流异常的相关性做探索研究。 相似文献
11.
The interdecadal variations of tropical cyclones(TCs) and their precipitation over Guangdong Province are investigated using the observational data of TCs and precipitation from 26 observational stations in the province from 1951 to 2005.The results show that the TCs precipitation shows an oscillation with a peak value of about 25 years,with both the numbers of the Guangdong-influencing TCs and TCs formed in the western North Pacific oscillating with a peak value of about 23 years.The correlations are highly positive between the interdecadal variation of TC precipitation over the province and these numbers.The interdecadal variation of TC precipitation in the province shows significant negative correlations with the interdecadal variation of annual mean SST in some parts of the western North Pacific and the interdecadal variation of annual mean 500 hPa geopotential heights in some parts of the middle and high latitudes over the North Pacific.In general,there are high mean SSTs on the equator from central to eastern Pacific,low mean SSTs in the middle and high latitudes over the North Pacific and a main strong East Asian trough over the North Pacific in the period of less TC precipitation as compared with the period of more TC precipitation over the province. 相似文献
12.
Climate variation and prediction of rapid intensification in tropical cyclones in the western North Pacific 总被引:1,自引:0,他引:1
Summary One of the greatest challenges in tropical weather forecasting is the rapid intensification (RI) of the tropical cyclone (TC),
during which its one-minute maximum sustained wind speed increases at least 30 knots per 24 hours. Here we identify and elucidate
the climatic conditions that are critical to the frequency and location of the RI on annual, intraseasonal, and interannual
time scales. Whereas RI and formation share common environmental preferences, we found that the percentage of TCs with RI
varies annually and from year to year. In August, only 30% of TC actually experiences RI, in contrast to the annual maximum
of 47% in November. The proportion of RI in July–September is higher during El Ni?o years (53%) than the corresponding one
in the La Ni?a years (37%). Three climate factors may contribute to the increase in the proportion of RI: the southward shift
in the monthly or seasonal mean location of the TC formation, the increase in the low-level westerly meridional shear vorticity,
and the decrease in northerly vertical shear. When the mean latitude of TC formation increases, the mixed-layer heat content
decreases while TC’s inertial stability increases; both are more detrimental to the RI than to TC formation because the RI
requires large amount of latent heat energy being extracted efficiently from the ocean mixed layer and requires accelerated
low-level radial inflow that carries latent heat reaching the inner core region.
We further demonstrate that the RI frequency in the Philippine Sea and South China Sea can be predicted 10 to 30 days in advance
based on the convective anomalies in the equatorial western Pacific (5° S–5° N, 130°–150° E) on intraseasonal time scale.
The Ni?o 3.4 SSTA in June is a potential predictor for the peak TC season (July–September) RI activity in the southeast quadrant
of the western North Pacific (0–20° N, 140–180° E).
The RI is an essential characteristic of category 4 and 5 hurricanes and super typhoons because all category 4 and 5 hurricanes
in the Atlantic basin and 90% of the super typhoons in the western North Pacific experience at least one RI process in their
life cycles. Over the past 40 years, the annual total of RI in the western North Pacific shows pronounced interdecadal variation
but no significant trend. This result suggests that the number of supper typhoons has no upward trend in the past 40 years.
Our results also suggest that when the mean latitude, where the tropical storms form, shifts southward (either seasonally
or from year to year) the proportion of super typhoon or major hurricane will likely increase. This shift is determined by
large scale circulation change rather than local SST effects. This idea differs from the current notion that increasing SST
can lead to more frequent occurrence of category 4 or 5 hurricanes through local thermodynamics.
Corresponding author’s address: Bin Wang, Department of Meteorology, University of Hawaii, 2525 Correa Rd., Honolulu, Hawaii
96822, USA (also visiting professor at the Ocean University of China) 相似文献
13.
西北太平洋台风频数异常年的气候背景分析 总被引:3,自引:0,他引:3
利用中国气象局整编的热带气旋资料、NCEP再分析资料和Scripps海温资料,分析了台风季西北太平洋台风频数发生年代际和年际异常时的气候背景特征,并且比较分析了造成台风频数发生年代际和年际异常的影响因子的异同。结果表明:台风频数的年代际变化主要和副热带高压和赤道西太平洋的温跃层海温有非常显著的关系,而年际变化则与副高、季风槽、越赤道气流以及赤道中东太平洋的混合层海温都有着密切的联系。 相似文献
14.
Atmospheric anomalies related to interdecadal variability of SST in the North Pacific 总被引:21,自引:5,他引:16
Anomalous patterns of the atmospheric circulation and climate are studied corresponding to the two basic interdecadal variation modes of sea surface temperature (SST) in the North Pacific, namely, the 25-35-year mode and the 7-10-year mode. Results clearly indicate that corresponding to the positive and negative phases of the interdecadal modes of SST anomaly (SSTA) in the North Pacific, the anomalous patterns of the atmospheric circulation and climate are approximately out of phase, fully illustrating the important role of the interdecadal modes of SST. Since the two interdecadal modes of SSTA in the North Pacific have similar horizontal structures, their impacts on the atmospheric circulation and climate are also analogous. The impact of the interdecadal modes of the North Pacific SST on the atmospheric circulation is barotropic at middle latitudes and baroclinic in tropical regions. 相似文献
15.
Based on the National Centers for Environmental Prediction and National Center for Atmospheric Research (NCEP/NCAR) reanalysis data from 1950-1999, interdecadal variability of the East Asian Summer Monsoon (EASM) and its associated atmospheric circulations are investigated. The EASM exhibits a distinct interdecadal variation, with stronger (weaker) summer monsoon maintained from 1950-1964 (1976-1997). In the former case, there is an enhanced Walker cell in the eastern Pacific and an anti-Walker cell in the western Pacific. The associated ascending motion resides in the central Pacific, which flows eastward and westward in the upper troposphere, descending in the eastern and western ends of the Pacific basin. At the same time, an anomalous East Asian Hadley Cell (EAHC) is found to connect the low-latitude and mid-latitude systems in East Asia, which strengthens the EASM. The descending branch of the EAHC lies in the west part of the anti-Walker cell, flowing northward in the lower troposphere and then ascending at the south of Lake Baikal (40°-50°N, 95°- 115°E) before returning to low latitudes in the upper troposphere, thus strengthening the EASM. The relationship between the EASM and SST in the eastern tropical Pacific is also discussed. A possible mechanism is proposed to link interdecadal variation of the EASM with the eastern tropical Pacific SST. A warmer sea surface temperature anomaly (SSTA) therein induces anomalous ascending motion in the eastern Pacific, resulting in a weaker Walker cell, and at the same time inducing an anomalous Walker cell in the western Pacific and an enhanced EAHC, leading to a weaker EASM. Furthermore, the interdecadal variation of summer precipitation over North China is found to be the south of Lake Baikal through enhancing and reducing strongly regulated by the velocity potential over the regional vertical motions. 相似文献
16.
探讨了夏季(6—8月)西北太平洋(Western North Pacific,WNP)热带气旋生成频次(Tropical Cyclone Genesis Frequency,TCGF)与热带海温关系的年代际变化,发现影响WNP TCGF的热带海温型在1991/1992年发生了年代际变化。在1990年代初之前,TCGF正异常对应的热带海温异常(Sea Surface Temperature Anomaly,SSTA)呈现东部型La Ni?a衰减位相,前冬至春季WNP局地暖SSTA在其西北侧激发气旋异常,夏季时由热带印度洋冷SSTA继续维持。在1990年代初之后,TCGF正异常对应的热带SSTA呈现东部型La Ni?a向中部型El Ni?o快速转换的位相,夏季中太平洋暖SSTA在其西北侧激发气旋异常,同时热带东印度洋至海洋性大陆以及热带大西洋的冷SSTA通过垂直环流圈加强中太平洋的辐合上升运动,进一步维持其西北侧气旋异常。由于激发气旋异常的暖SSTA在第二个年代相较第一个年代明显偏南偏东,气旋异常和TCGF正异常在第二个年代也整体偏南且向东扩展至更远的区域。WNP TCGF与热带海温关系的年代际变化与1990年代初之后厄尔尼诺-南方涛动演变速率加快有关。 相似文献
17.
利用1980—2012年NCEP/NCAR再分析资料及中国气象局的最佳台风路径资料,研究澳大利亚冷空气活动对西北太平洋热带气旋生成的影响。研究发现,北半球夏季925 h Pa经向风超过6 m/s的频数在澳大利亚东北部海域最高,达40 d/a。为此,确定澳大利亚冷空气侵入南北半球低纬的关键区为澳大利亚东北部所罗门海地区,并用该区域经向风风速定义了一个澳大利亚冷空气活动强度指数。该指数与越赤道气流及赤道西风都有很好的相关关系,还与同期的SOI(Southern Oscillation Index,南方涛动指数)显著相关。当SOI偏低(高)时,关键区经向风风速偏强(弱)。合成分析和相关分析结果表明,澳大利亚冷空气活动强、弱年西北太平洋热带气旋生成的位置的变化与季风槽的变化一致,西北太平洋热带气旋生成总数则无显著差异。澳大利亚冷空气活动强年季风槽偏强偏东,热带气旋生成位置偏东偏南;而弱年季风槽偏弱偏西,热带气旋生成位置偏西偏北。低层涡度场、水汽输送、风垂直切变以及低纬地区对流活动的分布表明,澳大利亚冷空气活动强年有利于热带气旋生成位置偏东、偏南;弱年偏西、偏北。 相似文献
18.
海温异常对台风形成的影响 总被引:13,自引:0,他引:13
本文利用地球流体力学实验室(GFDL)的低分辨气候模式进行数值试验,以研究海温异常对台风形成的影响.试验采用恒定8月气候条件和海表温度(SST).海温异常(SSTA)被置于北太平洋不同区域.结果表明,台风生成频率在暖SSTA区明显增加.这是由于暖SSTA区低层辐合的增强一方面使低空气旋式环流和高空反气旋式环流加大,另一方面导致低层水汽向该区辐合,使潜热释放加强,对流加剧所致.此一机制被用于解释台风频率和ENSO事件的相关.在冷ENSO年份,西北和西南太平洋台风增多不仅是由于赤道东太平洋SST异常冷,还与西太平洋SST异常暖有关. 相似文献
19.
利用重庆34个气象台站1961—2017年夏季降水量、NCEP/NCAR的再分析月平均高度场资料和海面温度资料,分析发现,上年秋季尤其是11月的赤道(热带)印度洋偶极子(tropical Indian Ocean dipole, TIOD)模态与重庆夏季降水存在正相关关系。通过前期海面温度对大气环流的影响分析,结果表明:上年11月TIOD和夏季500 hPa高度场的相关与重庆夏季降水和高度场的相关一致,显示出从高纬度到低纬度“+、-、+”的相关分布,反映出当上年11月TIOD正位相(负位相)时,次年夏季环流场表现出乌拉尔山阻塞高压明显(不明显)、中纬度30°~37°N低值系统活跃(不活跃),西太平洋副热带高压偏强(弱)、位置偏南(北)的重庆夏季典型的降水偏多环流特征;前期赤道太平洋ENSO暖事件和前期TIOD事件同时发生时,两个事件的作用相互叠加,使得西太平洋副热带高压加强西伸并且位置偏南,造成重庆夏季降水的异常偏多。 相似文献
20.
This study investigates the influences of tropical Indian Ocean(TIO) warming on tropical cyclone(TC)genesis in different regions of the western North Pacific(WNP) from July to October(JASO) during the decaying El Nio. The results show significant negative TC frequency anomalies localized in the southeastern WNP. Correlation analysis indicates that a warm sea surface temperature anomaly(SSTA) in the TIO strongly suppresses TC genesis south of 21°N and east of 140°E in JASO. Reduced TC genesis over the southeastern WNP results from a weak monsoon trough and divergence and subsidence anomalies associated with an equatorial baroclinic Kelvin wave. Moreover,suppressed convection in response to a cold local SSTA, induced by the increased northeasterly connected by the wind-evaporation-SST positive feedback mechanism, is found unfavorable for TC genesis. Positive TC genesis anomalies are observed over higher latitudinal regions(at around 21°N, 140°E) and the western WNP because of enhanced convection along the northern flank of the WNP anomalous anticyclone and low-level convergence,respectively. Although local modulation(e.g., local SST) could have greater dominance over TC activity at higher latitudes in certain anomalous years(e.g., 1988), a warm TIO SSTA can still suppress TC genesis in lower latitudinal regions of the WNP. A better understanding of the contributions of TIO warming could help improve seasonal TC predictions over different regions of the WNP in years of decaying El Nio. 相似文献