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1.
北半球温带气旋活动和风暴路径的年代际变化 总被引:12,自引:3,他引:9
基于欧洲中心再分析数据ERA40的海平面气压场和高度场,本文分别采用拉格朗日和欧拉方法研究分析了1958~2001年北半球的不同季节温带气旋活动和风暴路径的年代际变化,以及可能的原因.以客观判定和追踪温带气旋为基础的拉格朗日方法得到了北半球的两个温带气旋主要活动中心,即北太平洋地区和北大西洋/北美地区,同时以500 hPa位势高度天气尺度滤波方差为基础的欧拉方法得到了同主要气旋活动中心相吻合的两条风暴轴.研究表明,44年中北大西洋/北美地区温带气旋活动北移加强,以春季最为显著.风暴轴也同样存在着向极移动并加强的特征,并且温带气旋和风暴路径两者移动趋势的相关性很高.作为一个典型地区,北大西洋/北美地区的气旋活动体现了风暴路径的北移,以及温带地区向极地的扩展.但有意思的是北太平洋的情况完全不同,即北太平洋地区的温带气旋活动和风暴轴向低纬度偏移并加强,以春季的南移趋势最为显著.对于此结论,两种方法也有很高的统计相关性.虽然大量研究表明北半球整体上呈现出风暴路径北移的变化特征,但对于具体地区情况有明显差异.另外,400 hPa最大Eady增长率和气旋活动频率的经验正交展开函数 (EOF) 第一模态的空间分布和时间序列非常相似,北太平洋地区和北大西洋地区风暴路径相反的变化趋势很可能同其大气斜压性的同位相的变化有着密切的关系.这也从另一个方面支持了本文对温带气旋和风暴路径年代际变化的分析. 相似文献
2.
陆面热力异常与东亚夏季中纬度气旋年代际变化的联系 总被引:1,自引:0,他引:1
基于欧洲中期预报中心的再分析数据ERA-interim,利用统计学方法分析了1979—2013年期间东亚中纬度地区气旋生成频率和陆面热力异常的年代际变化及两者的可能联系。结果表明,东亚中纬度地区存在气旋活动频繁的气旋源地,该地区的温带气旋生成频率具有明显的年代际变化,1990年之前气旋生成频率偏多,1990s至今偏少,而且东亚中纬度地区陆面热力异常的变化有明显的年代际增暖信号;进一步的分析发现,东亚夏季中纬度气旋活动的年代际变化与陆面异常异常之间存在密切的联系,东亚中纬度地区陆面年代际增暖,是引起温度气旋活动年代际减弱的一个重要原因。由于陆面增暖的非均匀性,在50°N以北存在一个影响中纬度气旋生成频率的关键区,关键区陆面的年代际异常增暖,导致气旋源地温度经向梯度减弱,大气斜压性随之减弱,从而使得气旋生成频率年代际减少。 相似文献
3.
北半球温带气旋的变化 总被引:8,自引:0,他引:8
许多学者对近半个世纪以来温带气旋的频数、强度和路径的年际、年代际变化等特征进行了研究,并探讨了温带气旋变化与大气环流的关系,试图揭示气候变暖背景下温带气旋变化的可能原因。较为一致的研究结论是:在全球变暖背景下,北半球气旋活动的变化显示出在中纬度明显减少,而在高纬度增加的趋势,意味着气旋的路径已经明显地北移。研究还表明,气旋活动的变化与对流层斜压性、急流以及北大西洋涛动、海温梯度等因素有关。 相似文献
4.
对1961~2010年影响珠江流域的热带气旋(TC)进行统计分析,结果得到,近50年年均4.24个TC影响珠江流域,其中台风以上等级1.02个,两者以每10年0.3个逐渐减少。其平均中心气压为984.0 hPa,平均极端最低气压为968.7 hPa,前者无明显的变化趋势,后者每10年减弱1.4 hPa。影响珠江流域热带气旋生成源地的平均最南位置为10.3°N,平均最北位置为17.5°N,两者均表现出向北移动的倾向,其中前(后)者每10年北移0.9°(0.6°),近几年影响珠江流域热带气旋生成源地位置向10°N~19°N区间汇聚。影响珠江流域热带气旋的平均初旋日在7月1日,终旋日在9月15日,台风季为76.5 d,其中初(终)旋日每10年推迟(提前)1.3(6.0)d,台风季以每10年8.2 d的速率减少,20世纪60年代和90年代中后期至21世纪前期处于偏短时期,近几年又开始呈现增长趋势。 相似文献
5.
利用 CMIP5(Coupled Model Intercomparison Project Phase 5)的6个气候耦合模式中等排放情景———RCP4?5(典型浓度路径4?5)下的模拟结果对北半球温带气旋数目、风暴路径和强度的未来变化进行了研究分析。结果表明:(1)相对于20世纪后半叶,RCP4?5情景下的2053—2100年,虽然各模式的模拟结果存在一定的区域性差异,但共同显示了至21世纪末北半球整体温带气旋生成将减少,较低纬度减少得更显著。(2)模式较一致地模拟出未来北半球温带气旋的中心气压有降低的趋势,涡度强度将线性减弱。大多数的模式模拟得到北大西洋风暴轴未来将继续向极地偏移,但强度主要将减弱;过半的模式显示北太平洋风暴轴也将向极地偏移,强度变化则随季节的不同而不同。(3)6个模式的模拟结果均显示对流层中高层斜压区未来将向高层和高纬度扩展,南半球的变化更为显著。斜压区的变化在某种程度上反映了风暴轴的类似变化,因此, 这也支持了北太平洋和北大西洋风暴路径未来可能向极地偏移的结论。RCP4?5情景下北半球整体温带气旋活动将显著减少,但斜压区和风暴轴向高纬度的偏移将使较低纬度未来温带气旋活动减少得更为显著。 相似文献
6.
基于欧洲中心中期天气预报再分析资料(ERA-40),使用涡旋追踪和合成技术、多尺度子空间变换以及局地多尺度能量分析方法研究了东亚地区南北两个风暴源地中风暴的差异。结果发现,南、北两个源地风暴在结构上和内部动力过程上均存在着显著不同。南支源地(40°N以南)风暴底层比高层强,与线性斜压模式中的最不稳定模态结构相似;而北支源地(40°N以北)风暴则正好相反,与下游发展理论所描述的斜压波结构相似。并且发现,南支源地风暴的非地转风场比北支源地风暴的强。能量学诊断结果显示,南支源地风暴的能量源除了斜压不稳定外,有很大一部分来自正压不稳定,而北支源地风暴中则是存在弱的动能逆尺度传输。此外,南支源地风暴的浮力转换和非绝热做功均比北支源地风暴的强,其主要原因是南支源地风暴的垂直运动更强,风暴中的水汽更加充足。 相似文献
7.
利用1953-2007年NCEP/NCAR再分析逐日海平面气压场资料,统计分析东亚地区北方气旋和南方气旋的时间和地域分布特征。结果表明:南、北气旋活动频数存在明显的年际和年代际变化,伴随着一次全球性的年代际气候跃变,20世纪80年代初期北方气旋活动频数出现了显著的突变。从月际分布可知,5月北方气旋频数最多,8月南方气旋频数最多;春季北方气旋活动频繁,存在着明显的两个高值中心,分另Ij位于蒙古国中部和中国东北地区北部;夏季南方气旋活动频繁,主要集中在中国东部沿海及日本南部海面。南北气旋活动频数的季节变化与大气环流的变化密切相关。相关统计结果可增加对东亚温带气旋活动规律的认识和了解,并为预测和预报提供参考。 相似文献
8.
冬季黑潮延伸体区域海表温度锋对北太平洋风暴轴的影响 总被引:2,自引:0,他引:2
利用NOAA最优插值逐日海表温度资料和NCEP/NCAR的逐日大气再分析资料,分析了冬季黑潮延伸体区域海表温度锋的变化及其对北太平洋风暴轴的影响。结果表明,冬季黑潮延伸体区域海表温度锋强度和纬度位置既存在年际变化,也存在年代际变化,且强度和位置的变化是相互独立的。冬季黑潮延伸体区域海表温度锋强度的年际变化对北太平洋风暴轴没有显著的影响,而其年代际变化则对北太平洋风暴轴具有非常显著的影响,当冬季海表温度锋偏强时,大气斜压性在鄂霍次克海及阿拉斯加附近区域上空增强,而在海表温度锋下游至东太平洋区域上空显著减弱,平均有效位能向涡动有效位能的斜压能量转换在45°N以北的太平洋区域上空有所增多,而在30°-45°N的太平洋区域上空有所减少,涡动有效位能向涡动动能的斜压能量转换在35°N以北的西太平洋区域以及45°N以北的东太平洋区域都显著增加,而仅在其南部边缘存在东西带状的减弱区域,导致40°N以北海区北太平洋风暴轴增强,40°N以南海区北太平洋风暴轴减弱,冬季海表温度锋偏弱时则有与之相反的结果。冬季黑潮延伸体区域海表温度锋纬度位置的变化对北太平洋风暴轴也存在较显著的影响,当海表温度锋位置偏北时,在其下游45°N以南的太平洋区域上空大气斜压性减弱,45°N以南的中东太平洋区域上空区域平均有效位能向涡动有效位能、以及涡动有效位能向涡动动能的斜压能量转换都减少;而在45°N以北的太平洋区域上空大气斜压性增强,在阿拉斯加湾附近上空尤其显著,在黑潮延伸体区域附近以及45°N以北的中东太平洋上空平均有效位能向涡动有效位能、以及涡动有效位能向涡动动能的斜压能量转换都显著增加,导致北太平洋风暴轴在其气候平均态轴线两侧呈现北正南负的偶极子形态;海表温度锋位置偏南时则有与之相反的结果。冬季黑潮延伸体区域海表温度锋强度和位置的变化均对北太平洋风暴轴具有显著的影响,其具体的物理机制还需要进一步的研究。 相似文献
9.
利用欧洲中期天气预报中心(ECMWF)1958—2001年的 ERAˉ40再分析数据和 CMIP5(Coupled Model Intercomparˉ ison Project Phase 5)的6个耦合模式的模拟结果对北半球温带气旋活动频率、气旋数目、中心最低气压、生命期、移动距离及加深速率的模拟能力进行了检验。结果表明:(1)6个模式基本都能反映气旋生命期、加深速率和移动距离的频率分布,并且模拟出了气旋中心气压降低的线性变化趋势,但模拟结果和 ERAˉ40存在一定的系统偏差,主要是模拟的生命期偏长,加深速率偏小。(2)6个模式都模拟出北半球的2个主要温带气旋活动区,但相对 ERAˉ40再分析数据,5个模式在东欧—中亚、中西伯利亚—西西伯利亚和东亚大陆的气旋活动频率偏高,所有模式在欧洲北部至中西伯利亚地区的气旋活动频率偏低。(3)模式模拟的温带气旋年总过程数和强气旋过程数均小于 ERAˉ40的结果,模拟的气旋过程数的年代际振荡周期略偏长,模拟的中心气压的年代际振荡偏弱。总体上 CMIP5的耦合模式能再现44 a 北半球温带气旋活动的主要特征,但仍存在一些区域性及系统性的偏差。 相似文献
10.
进入北极地区的气旋在移动过程中往往伴有大风、强降水等特征,对北极气候变化有深刻的影响。基于NCEP2再分析资料,识别并跟踪了北半球夏季(6—8月)从中纬度进入北极的温带气旋,考察了其年际变化特征和影响因素。结果表明:1979—2019年夏季进入北极的温带气旋共867个,其中消失在北极边缘区域和中心区域的数量分别为688个和161个,且后者平均强度更大、平均持续时间更长。分区域研究发现,夏季从陆地进入极区的气旋个数较多,而从海洋进入极区的气旋强度更大,活动更为剧烈。对进入北极的气旋年际时间序列进行分析发现,夏季进入北极的气旋个数和强度均存在年际变率,其中气旋个数的年际变率尤为显著。气旋个数年际变率主要周期为5 a,强度的主要周期约为2.7 a。进一步分析发现,引导气流是影响气旋向北移动的重要因素。此外,夏季北大西洋气旋强度与同期北大西洋涛动(North Atlantic Oscillation,NAO)指数存在较好相关。研究还表明,进入极区气旋活动的年际变化受大气斜压不稳定性的影响,在北太平洋地区区域平均的Eady增长率与气旋个数和强度的相关性均最强,相关系数分别为0.4和0.5。 相似文献
11.
David Mendes Enio P. Souza José A. Marengo Monica C. D. Mendes 《Theoretical and Applied Climatology》2010,100(3-4):239-250
A climatology of extratropical cyclones is presented. Extratropical cyclones, their main characteristics and their predominant tracks, as well as their interannual variability, affect weather in South America. For that purpose, a storm track database has been compiled by applying a cyclone tracking scheme to six-hourly sea level pressure fields, available from the National Center for Environmental Prediction–National Center for Atmospheric Research reanalyses II for the 1979–2003 period. The spatial distribution of the cyclogenesis frequency shows two main centers: one around Northern Argentina, Uruguay, and Southern Brazil in all seasons and the other near to the North Antarctic Peninsula. The lifetime of extratropical cyclones in the South American sector exhibits small seasonality, being typically of the order of 3.0 days during most of the year and slightly higher (3.5 days) in austral summer. The distance travelled by the cyclones formed in the South American sector tends to be smaller than the total paths found in other areas of the Southern Hemisphere. A k-mean clustering technique is used to summarize the analysis of the 25-year climatology of cyclone tracks. Three clusters were found: one storm-track cluster in Northeast Argentina; a second one west of the Andes Cordillera; and a third cluster located to the north of the Antarctic Peninsula (around the Weddell Sea). The influence of the Antarctic Oscillation (AAO) in the variability of extratropical cyclones is explored, and some signals of the impacts of the variability of the AAO can be observed in the position of the extratropical cyclones around 40°S, while the impacts on the intensity is detected around 55°S. 相似文献
12.
Based on an improved objective cyclone detection and tracking algorithm, decadal variations in extratropical cyclones in northern East Asia are studied by using the ECMWF 40 Year Reanalysis (ERA-40) sea-level pressure data during 1958-2001. The results reveal that extratropical cyclone activity has displayed clear seasonal, interannual, and decadal variability in northern East Asia. Spring is the season when cyclones occur most frequently. The spatial distribution of extratropical cyclones shows that cyclon... 相似文献
13.
Judit Bartholy Rita Pongrácz Margit Pattantyús-Ábrahám 《Theoretical and Applied Climatology》2009,96(1-2):133-144
Midlatitude cyclones are analyzed on a selected region covering most of southern Europe and the western part of the Mediterranean Sea (35–50°N, 10°W–25°E). On the basis of mean sea level pressure fields of the ECMWF (European Centre for Medium-range Weather Forecast) Reanalysis Dataset (ERA-40), detailed evaluation of Mediterranean cyclones is accomplished for the period between 1957 and 2002 on a 1° horizontal resolution grid. Cyclone centers are identified and their paths are tracked with a 6-h time step (using 00 UTC, 06 UTC, 12 UTC, and 18 UTC). Decadal, annual, and seasonal statistical analysis of cyclone tracks includes the study of the genesis, frequency, and activity of the Mediterranean cyclones as well as the variability of cyclone tracks. The results suggest that the cyclone frequency in the western Mediterranean region increased in summer and autumn, and decreased in winter and spring. A special belt-shaped area is identified, which plays a special role in cyclogenesis, and also, the cyclone tracks often remain within this belt. An overall decreasing trend is detected in winter and spring in the entire Mediterranean belt, while cyclone frequency increased in autumn. The largest positive and negative trend coefficients are identified in summer. 相似文献
14.
15.
Climatology and interannual variations of wintertime extratropical cyclone frequency in CCSM3 twentieth century simulation
are compared with the NCEP/NCAR reanalysis during 1950–1999. CCSM3 can simulate the storm tracks reasonably well, although
the model produces slightly less cyclones at the beginning of the Pacific and Atlantic storm tracks and weaker poleward deflection
over the Pacific. As in the reanalysis, frequency of cyclones stronger than 980 hPa shows significant correlation with the
Pacific/North America (PNA) teleconnection pattern over the Pacific region and with the North Atlantic Oscillation (NAO) in
the Atlantic sector. Composite maps are constructed for opposite phases of El Nino-Southern Oscillation (ENSO) and the NAO
and all anomalous patterns coincide with observed. One CCSM3 twenty-first century A1B scenario realization indicates there
is significant increase in the extratropical cyclone frequency on the US west coast and decrease in Alaska. Meanwhile, cyclone
frequency increases from the Great Lakes region to Quebec and decreases over the US east coast, suggesting a possible northward
shift of the Atlantic storm tracks under the warmer climate. The cyclone frequency anomalies are closely linked to changes
in seasonal mean states of the upper-troposphere zonal wind and baroclinicity in the lower troposphere. Due to lack of 6-hourly
outputs, we cannot apply the cyclone-tracking algorithm to the other eight CCSM3 realizations. Based on the linkage between
the mean state change and the cyclone frequency anomalies, it is likely a common feature among the other ensemble members
that cyclone activity is reduced on the East Coast and in Alaska as a result of global warming. 相似文献
16.
Summary Using 6-hourly data from the National Centers for Environmental Prediction/National Center for Atmospheric Research reanalysis
set (1958–1997) we have determined the winter and summer mean fluxes of momentum and mechanical energy into the Northern Hemisphere
(NH) oceans. We have also diagnosed the contribution made to these by the mean wind speed and the covariances due to the temporal
variability. In both seasons the greatest oceanic flux of momentum is found in the region to the south of Greenland and Iceland.
The contributions to the total made by the transient term exhibited maxima in the north central Pacific and Atlantic and in
winter, and accounts for about 15% of the mean stress in both extratropical ocean basins and both seasons. The rate at which
mechanical energy is imparted to the ocean shows a similar spatial structure. The fluxes are typically three times larger
in winter, and about one third of the input is associated with the transient part of the low level wind. The spatial and temporal
structure of the part of fluxes contributed by the temporal variability shows a strong relationship with mean cyclone depth,
a parameter known to represent an unbiased measure of cyclone activity.
The fluxes exhibit significant positive winter trends (many of which are significant) over the extratropical Pacific and in
the Atlantic north of about 40° N, and these have been found to result from reinforcing trends in the components associated
with the mean wind speed and the temporally varying part. The changes are broadly in line with those in observed significant
wave height over the northern oceans in recent decades, and are closely related to secular increases in the mean depth of
cyclones. Positive trends in the number of extreme cyclones in key regions of the Pacific and Atlantic have been found. The
trend is significant in the relevant part of the Pacific, but whether the increase in the Atlantic subregion should be regarded
as above the noise is seen to depend on how such extremes are defined. We discuss how conclusions drawn in specific studies
may depend critically on how cyclones and extreme events are characterized.
Received November 2, 2001 Revised December 24, 2001 相似文献