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1.
The NCEP/NCAR reanalysis, CMAP rainfall and Hadley Centre sea surface temperature (SST) datasets are used to investigate the relationship between the seasonal transition of East Asian monsoon and Asian-Pacific thermal contrast, together with the possible causes. Based on the 250 hPa air temperature over two selected key areas, the Asian-Pacific thermal difference (APTD) index is calculated. Results show that the APTD index is highly consistent with the Asian-Pacific Oscillation (APO) index defined by Zhao et al., in terms of different key areas in different seasons. Moreover, the time point of the seasonal transition of the Asian-Pacific thermal contrast can be well determined by the APTD index, indicative of seasonal variation in East Asian atmospheric circulation from winter to summer. The transition characteristic of the circulation can be summarized as follows. The continental cold high at lower tropospheric level moves eastward to the East China Sea and decreases rapidly in intensity, while the low-level northerlies turn to southerlies. At middle tropospheric level, the East Asia major trough is reduced and moves eastward. Furthermore, the subtropical high strengthens and appears near Philippines. The South Asia high shifts from the east of Philippines to the west of Indochina Peninsula, and the prevailing southerlies change into northerlies in upper troposphere. Meanwhile, both the westerly and easterly jets both jump to the north. The seasonal transition of atmospheric circulation is closely related to the thermal contrast, and the possible mechanism can be concluded as follows. Under the background of the APTD seasonal transition, the southerly wind appears firstly at lower troposphere, which triggers the ascending motion via changing vertical shear of meridional winds. The resultant latent heating accelerates the transition of heating pattern from winter to summer. The summer heating pattern can further promote the adjustment of circulation, which favors the formation and strengthening of the low-level southerly and upper-level northerly winds. As a result, the meridional circulation of the East Asian subtropical monsoon is established through a positive feedback between the circulation and thermal fields. Moreover, the time point of this seasonal transition has a significant positive correlation with the SST anomalies over the tropical central-eastern Pacific Ocean, providing a basis for the short-term climate prediction. 相似文献
2.
利用NCEP、ERA-40再分析资料和中国160个观测站逐月降水资料,分析了同期和前期亚洲-太平洋涛动(APO)与中国南方地区冬季1月降水异常的关系,并讨论了相应的联系机制.研究发现,1月亚洲-太平洋涛动指数能够很好地反映同期中国南方地区降水异常.亚洲-太平洋涛动的异常变化可能影响对流层低层位势高度场,进而通过影响亚洲中、低纬度地区的对流层低层风场与中国南方地区降水紧密联系.当亚洲-太平洋涛动指数偏低(高)时,对应在东亚南部及其邻近海域对流层低层位势高度偏高(低),东太平洋位势高度偏低(高).相应地,南海以及华南沿海地区为异常西南(东北)风控制,且该异常风向北逐渐减弱,进而在中国南方地区辐合(辐散),这既有(不)利于暖湿气流向中国南方地区输送,同时也造成了该地区的水汽辐合(辐散),从而导致降水偏多(少).亚洲-太平洋涛动具有很好的持续性,上一年10月亚洲-太平洋涛动异常可一直持续至当年1月,表现出连续的显着相关特征.因此,其与中国南方地区1月降水异常也具有显着联系,可以作为指示1月中国南方地区降水多寡的一个前兆因子. 相似文献
3.
夏季亚洲-太平洋涛动与中国近海热带气旋活动的关系 总被引:3,自引:2,他引:1
采用联合台风警报中心的台风最伟路径资料和NCEP/NCAR再分析资料,分析了夏季亚洲-太平洋涛动(Asian-Pacif-ic Oscillation,简称APO)与东亚近海-西北太平洋大气环流的关系,并进一步探讨了APO与中国近海热带气旋(tropical cy-clone,简称TC)活动的关系.研究表明:(1)夏季APO强弱与同期西北太平洋及中国东部近海TC活动存在密切关系,即在APO强(弱)年,西北太平洋TC活动偏西(东)和偏北(南),中国东部近海TC明显增多(减少);(2)当APO偏强(弱)时,中国东部近海大气环流有(不)利于TC的维持和发展,表现为低层存在异常气旋性(反气旋性)环流,对流层高低层纬向风垂直切变减小(增大),且对流加强(减弱);(3)APO强弱也影响着TC引导气流的方向:在APO强(弱)年,西北太平洋副热带高压(以下简称副高)偏北和偏东(偏南和偏西),副高南侧偏东气流减弱(加强),有利于TC的向西北行或在偏北(南)纬度西行,进入中国东部近海的TC增多(减少);(4)APO强弱也影响着南海-热带西太平洋TC源地上空的大气环流,在APO强(弱)年,南海-热带西太平洋季风槽偏北、偏西(偏南、偏东),热带西太平洋TC活动偏北和偏西(偏南和偏东),有利于进入中国东部近海TC的增多(减少). 相似文献
4.
夏季亚洲-太平洋遥相关季节演变与大气环流和降水 总被引:3,自引:0,他引:3
利用1981-2007年逐日大气再分析资料和降水资料以及统计分析方法,研究了夏季(5-9月)亚洲与太平洋区域的大气遥相关,并分析了其季节演变与夏季亚洲-太平洋大气环流和亚洲季风区降水的联系.结果表明:在5-9月逐日对流层上层扰动温度场上,亚洲与北太平洋中纬度存在着类似于亚洲太平洋涛动的遥相关现象,即在季节尺度上,当亚洲大陆中纬度对流层上层偏暖时,北太平洋中纬度对流层上层偏冷,反之亦然;亚洲与太平洋对流层上层温度的反位相变化特征也出现在对流层中下层和平流层低层.亚洲-太平洋涛动指数不仅可以指示夏季亚洲与太平洋中纬度纬向热力差异的变化特征,也可以较好地指示亚洲与热带印度洋经向热力差异的变化特征.亚洲-太平洋涛动指数最大值常出现在7月中旬到8月初,并且从1981年到2007年该最大值出现时间有偏早趋势.当夏季亚洲太平洋涛动指数偏高(低)时,亚洲大陆上空的南亚高压和其下方的亚洲大陆低压系统偏强(弱),太平洋副热带高压偏强(弱)并偏北(南),亚洲-非洲上空的热带东风急流和低层的西南风偏强(弱),从印度到中国华南的广大地区、中国华北以及东北亚等地降水偏多(少). 相似文献
5.
Summer Asian-Pacific Oscillation and Its Relationship with Atmospheric Circulation and Monsoon Rainfall 总被引:1,自引:0,他引:1 
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下载免费PDF全文 ZHAO Ping CHEN Junming XIAO Dong NAN Sulan ZOU Yan ZHOU Botao 《Acta Meteorologica Sinica》2008,22(4):455-471
Using the ERA-40 data and numerical simulations, this study investigated the teleconnection over the extratropical Asian-Pacific region and its relationship with the Asian monsoon rainfall and the climatological characteristics of tropical cyclones over the western North Pacific, and analyzed impacts of the Tibetan Plateau (TP) heating and Pacific sea surface temperature (SST) on the teleconnection. The Asian-Pacific oscillation (APO) is defined as a zonal seesaw of the tropospheric temperature in the midlatitudes of the Asian-Pacific region. When the troposphere is cooling in the midlatitudes of the Asian continent, it is warming in the midlatitudes of the central and eastern North Pacific; and vice versa. The APO also appears in the stratosphere, but with a reversed phase. Used as an index of the thermal contrast between Asia and the North Pacific, it provides a new way to explore interactions between the Asian and Pacific atmospheric circulations. The APO index exhibits the interannual and interdecadal variability. It shows a downward trend during 1958-2001, indicating a weakening of the thermal contrast, and shows a 5.5-yr oscillation period. The formation of the APO is associated with the zonal vertical circulation caused by a difference in the solar radiative heating between the Asian continent and the North Pacific. The numerical simulations further reveal that the summer TP heating enhances the local tropospheric temperature and upward motion, and then strengthens downward motion and decreases the tropospheric temperature over the central and eastern North Pacific. This leads to the formation of the APO. The Pacific decadal oscillation and El Nino/La Nina over the tropical eastern Pacific do not exert strong influences on the APO. When there is an anomaly in the summer APO, the South Asian high, the westerly jet over Eurasia, the tropical easterly jet over South Asia, and the subtropical high over the North Pacific change significantly, with anomalous Asian monsoon rainfall and tropical cyclon 相似文献
6.
利用中国站点观测降水资料、国家气候中心第2代月动力延伸预报模式(BCC_DERF2.0)的回报和预报数据、NCEP/NACR再分析资料和国家气候中心实时发布的月尺度降水预测评分数据,通过评估和诊断分析发现,在2015/2016年超强El Nio事件背景下,这两年内业务发布的月降水预报能力有明显不同,BCC_DERF2.0对月环流的预测技巧也存在差异:在2015年(El Nio发展位相),降水预报和环流预测技巧较高且稳定,而在2016年(El Nio衰减位相)的预报技巧总体偏低。进一步的研究显示,亚洲—太平洋涛动(Asia-Pacific Oscillation,APO)可能是导致2015年和2016年夏季预测技巧高低的重要影响因素。2015(2016)年夏季为APO低(高)指数年,且2016年具有高指数年的典型环流特征。而APO高指数对应的环流特征与El Nio衰减位相对西北太平洋环流的影响不同,在El Nio和APO的物理影响途径不一致时,将直接影响东亚环流可预报性的高低及动力气候模式的预报技巧,即El Nio在发展和衰减位相与APO型不同组合的影响是2015和2016年月预测技巧有差异的重要原因。 相似文献
7.
围绕夏季青藏高原热力异常与其上、下游大气环流在年际尺度变化上的联系,对最新的研究成果做了简要介绍。通过观测资料分析与数值试验,指出在年际尺度上夏季青藏高原热力异常与同期亚洲-太平洋涛动(APO)具有显著且稳定的联系,前者可能通过调节亚洲和中东太平洋热带外大尺度垂直环流异常影响后者。另外,夏季青藏高原热力异常对高原上空及更大范围上对流层温度的年际变化也有一定贡献,进而通过对上游大尺度环流的调节作用影响到同期西非萨赫勒地区的降水。夏季青藏高原热力异常只是导致其上、下游大气环流年际变化的一个原因,其他影响效应尚需进一步探讨。 相似文献
8.
Using the Joint Typhoon Warning Center (JTWC) optimal typhoon tracks data and the NCEP/NCAR reanalysis,an investigation is made on the summer Asian-Pacific Oscillation (APO) in relation to synchronous air circulation from the coastal waters of East Asia to western North Pacific (WNP),along with a further exploration on the relationship between the APO and the tropical cyclone (TC) activities over the coastal waters of China.The results show that there exists a strong correlation between the APO intensity an... 相似文献
9.
秋季亚洲-太平洋涛动与中国近海热带气旋活动的关系 总被引:1,自引:0,他引:1
采用联合台风警报中心的台风最佳路径资料和NCEP/NCAR再分析资料,分析了秋季(9—10月)亚洲-太平洋涛动(APO)强度的年际变化与东亚-太平洋大气环流的关系,探讨了APO与西北太平洋和中国近海热带气旋(TC)活动的关系。结果表明:秋季APO年际变化与同期西北太平洋和中国近海TC活动关系紧密,即当APO偏强(弱),西北太平洋TC活跃区明显偏西(东),中国近海TC偏多(少);APO可以通过影响中国近海对流层纬向风垂直切变、低层辐合和对流层中层引导气流等,从而影响西北太平洋和中国近海TC活动;当APO偏强(弱)时,东亚大槽偏弱(强),东亚冬季风偏弱(强),使得侵入中国近海和热带西北太平洋的冷空气活动偏弱(强),有(不)利于这些海域TC的生成和发展;此外,在APO偏强时,西太平洋副热带高压脊偏西,其南侧偏东气流加强,有利于TC在偏强的偏东气流引导下向西移动或者其转向点偏西;而在APO弱年,副热带高压脊偏弱和偏东,偏东引导气流减弱,不利于TC西行或有利于其转向点偏东。 相似文献
10.
夏季亚洲—太平洋涛动与大气环流和季风降水 总被引:19,自引:4,他引:15
利用ERA-40再分析资料和数值模拟,分析了在亚洲-太平洋区域的大气遥相关以及与亚洲季风降水和西北太平洋热带气旋活动气候特征的关系,探讨了青藏高原加热和太平洋海表温度(SST)对遥相关的影响,结果表明:亚洲-太平洋涛动(Asian-Pacific Oscillation,APO)是夏季对流层扰动温度在亚洲与太平洋中纬度之间的一种"跷跷板"现象,当亚洲大陆中纬度对流层偏冷时,中、东太平洋中纬度对流层偏暖,反之亦然;这种遥相关也出现在平流层中,只是其位相与对流层的相反.APO为研究亚洲与太平洋大气环流相互作用提供了一个途径.APO指数也是亚洲-太平洋对流层热力差异指数,它具有年际和年代际的多时间尺度变化特征,在1958-2001年亚洲与太平洋之间的对流层热力差异呈现出减弱趋势,同时也有显著的5.5 a周期.APO形成可能与太阳辐射在亚洲陆地和太平洋的加热差异所造成的纬向垂直环流有关,数值模拟进一步表明:夏季青藏高原加热可以造成高原附近对流层温度升高、上升运动加强,太平洋下沉运动加强、温度下降,从而形成APO现象;而太平洋年代际涛动和赤道东太平洋的厄尔尼若现象对APO的影响可能较小.当夏季APO异常时,南亚高压、欧亚中纬度西风急流、南亚热带东风急流以及太平洋上空的副热带高压都出现显著变化,并伴随着亚洲季风降水及西北太平洋热带气旋活动异常.过去40多年来的长江中上游地区夏季变冷与APO有关,可能是全球大气环流年代际变化在该区域的一种反映.APO异常信号可以传播到南、北两极.此外,亚洲-太平洋之间的这种遥相关型也出现在其他季节. 相似文献