Interdecadal Modulation of the Influence of La Nina Events on Mei-yu Rainfall over the Yangtze River Valley

The aim of this study was to investigate changes in the relationship between mei-yu rainfall over East China and La Nin a events in the late 1970s,a period concurrent with the Pacific climate shift,using meiyu rainfall data and the National Centers for Environmental Prediction/National Center for Atmospheric Research (NCEP/NCAR) reanalysis.This relationship was modulated by the climate shift:Before the 1977/1978 climate shift and after the 1992/1993 climate shift,mei-yu rainfall levels were above normal in most La Nin a years,whereas during the period 1979-1991,mei-yu rainfall was usually below normal levels in La Nin a years.Both composite analyses and results from an atmospheric general circulation model show remarkable detail in terms of La Nin a’s impacts on mei-yu rainfall in the late 1970s due to the change in the mean climatic state over the tropical Pacific.After the late 1970s,the tropical Pacific SSTs were warmer,and the mean state of low-level anticyclone circulation over the western North Pacific (WNP) weakened.Superimposed on La Nin a-related cyclonic anomaly over the WNP,anticyclonic circulation weakened.Prior to the late 1970s,the mean state of low-level anticyclone circulation over the WNP was stronger and was less affected by La Nin a-related anomalous cyclones.Anticyclone circulation may have brought moisture to the Yangtze River valley,leading to above-normal rainfall.     

云南夏季降水量在21世纪初的突变减少及原因分析

利用1960—2013年云南125个台站观测资料和美国环境预报中心/国家大气研究中心再分析资料,以及1960—2013年美国国家海洋和大气管理局(NOAA)提供的逐月平均全球海表温度资料,分析了云南地区降水量变化的特征以及与之相关联的大气环流背景场。分析结果表明:云南降水量在2002年发生了一次显著减少的突变,而这次突变主要是由于夏季降水的明显减少而形成的。进一步的分析揭示了该地区夏季降水减少主要与印度洋热带赤道地区低层东风加强和高空西风加强有关,亚洲地区中高纬度温度的升高也对该地区夏季降水量显著减少有重要作用。     

大西洋风暴活动预测的一个潜在高效能的预测方案

A new empirical approach for the seasonal prediction of annual Atlantic tropical storm number (ATSN) was developed using precipitation and 500 hPa geopotential height data from the preceding January-February and April-May. The 2.5º×2.5º resolution reanalysis data from both the US National Center for Environmental Prediction/the National Center for Atmospheric Research (NCEP/NCAR) and the European Center for Medium-Range Weather Forecasting (ECMWF) were applied. The model was cross-validated using data from 1979-2002. The ATSN predictions from the two reanalysis models were correlated with the observations with the anomaly correlation coefficients (ACC) of 0.79 (NCEP/NCAR) and 0.78 (ECMWF) and the multi-year mean absolute prediction errors (MAE) of 1.85 and 1.76, respectively. When the predictions of the two models were averaged, the ACC increased to 0.90 and the MAE decreased to 1.18, an exceptionally high score. Therefore, this new empirical approach has the potential to improve the operational prediction of the annual tropical Atlantic storm frequency.     

Interdecadal changes in the Asian winter monsoon variability and its relationship with ENSO and AO

Interdecadal changes in the Asian winter monsoon (AWM) variability are investigated using three surface air temperature datasets for the 55-year period of 1958–2012 from (1) the National Centers for Environmental Prediction-National Center for Atmospheric Research reanalysis 1 (NCEP), (2) combined datasets from the European Centre for Medium-range Weather Forecasts (ECMWF) 40-yr reanalysis and interim data (ERA), and (3) Japanese 55-year reanalysis (JRA). Particular attention has been paid to the first four empirical orthogonal function (EOF) modes of the AWM temperature variability that together account for 64% of the total variance and have been previously identified as predictable modes. The four modes are characterized as follows: the first mode by a southern warming over the Indo-western Pacific Ocean associated with a gradually increasing basin-wide warming trend; the second mode by northern warming with the interdecadal change after the late 1980s; the third and fourth modes by north-south triple pattern, which reveal a phase shift after the late 1970s. The three reanalyses agree well with each other when producing the first three modes, but show large discrepancy in capturing both spatial and temporal characteristics of the fourth mode. It is therefore considered that the first three leading modes are more reliable than the rest higher modes. Considerable interdecadal changes are found mainly in the first two modes. While the first mode shows gradually decreasing variance, the second mode exhibits larger interannual variance during the recent decade. In addition, after the late 1970s, the first mode has a weakening relationship with the El Niño-Southern Oscillation (ENSO) whereas the second mode has strengthening association with the Artic Oscillation (AO). This indicates an increasing role of AO but decreasing role of ENSO on the AWM variability. A better understanding of the interdecadal change in the dominant modes would contribute toward advancing in seasonal prediction and the predictability of the AWM variability.     

前期青藏高原积雪与ENSO对南海夏季风强度的协同影响

基于1980—2018年罗格斯大学全球积雪实验室积雪面积、英国气象局哈得来中心海温、欧洲中期天气预报中心（ECMWF）第5代再分析（ERA-5）土壤湿度、美国国家环境预报中心和美国国家大气研究中心（NCEP/NCAR）再分析、美国国家海洋大气管理局（NOAA）气候预测中心降水（CMAP）和全球降水气候计划降水（GPCP）等数据,采用相关、合成和回归等分析方法,分析了前期青藏高原积雪和厄尔尼诺-南方涛动（ENSO）年际尺度变化对南海夏季风强度及降水的协同影响。结果表明:在年际尺度上,青藏高原积雪、ENSO与南海夏季风变率有密切关系,当青藏高原春季积雪西部偏多且东部偏少时,夏季高原西部对流层温度偏低,在高原上空产生异常下沉气流并向外辐散,引起中国南海地区对流层中低层为异常下沉气流。另外,赤道中东太平洋海温异常偏高则会使夏季印度洋海温异常偏高,对流层温度偏高,在西北太平洋产生东北风异常,加强西北太平洋和中国南海上空的反气旋性环流异常。在青藏高原积雪和ENSO共同影响下,夏季850 hPa中国南海上空反气旋异常进一步加强,南海夏季风强度减弱,降水减少。      

The response of the East Asian summer monsoon to strong tropical volcanic eruptions

A 600-year integration performed with the Bergen Climate Model and National Centers for Environmental Prediction/National Center for Atmospheric Research （NCEP/NCAR） reanalysis data were used to investigate the impact of strong tropical volcanic eruptions on the East Asian summer monsoon （EASM） and EASM rainfall.Both the simulation and NCEP/NCAR reanalysis data show a weakening of the EASM in strong eruption years.The model simulation suggests that North and South China experience droughts and the Yangtze-Huaihe River Valley experiences floods during eruption years.In response to strong tropical volcanic eruptions,the meridional air temperature gradient in the upper troposphere is enhanced,which leads to a southward shift and an increase of the East Asian subtropical westerly jet stream （EASWJ）.At the same time,the land-sea thermal contrast between the Asian land mass and Northwest Pacific Ocean is weakened.The southward shift and increase of the EASWJ and reduction of the land-sea thermal contrast all contribute to a weakening of the EASM and EASM rainfall anomaly.     

欧亚季节环流气候平均态和气候变率：20CR再分析资料在欧亚及中国东部地区的评估

本文评估了美国国家大气海洋局（NOAA）新发布的20世纪再分析资料（20CR）对欧亚季节环流气候平均态和气候变率及中国东部气温降水的刻画能力。结果表明:20CR再分析资料对欧亚地区四季环流气候平均态刻画能力与NCEP2资料的相比,均呈现北部中高纬度系统性偏高,南部中低纬度系统性偏低的特点,导致描绘的东亚冬季风偏弱,夏季风偏强。这可能与20CR资料在极地海岸地区海冰资料处理时产生的差错有关。与中国东部的站点资料对比则显示20CR对我国东部气温的刻画偏低,而对降水的刻画偏高,站点相关性气温好于降水,东南沿海地区优于内陆地区。平均场和空间相关场结合来看,秋季气温和降水20CR与站点观测资料吻合最好。20CR资料较好地刻画近百年北半球冬夏季的气候指数（北极涛动、北大西洋涛动、北太平洋涛动、东亚冬季风、阿留申低压等）的年际变率及年代际变化特征,很好地刻画了阿留申低压1970年代末的年代际增强,西伯利亚高压1970年代末的下降和1990年后的上升趋势及北太平洋涛动、北大西洋涛动和北极涛动指数1970年代末期由负位相到正位相的年代际转变。     

Characteristics of Atmospheric Heat Sources over Asia in Summer: Comparison of Results Calculated Using Multiple Reanalysis Datasets

Using 1979-2000 daily NCEP/NCAR (National Centers for Environmental Prediction/National Center for Atmospheric Research) reanalysis data (version 1, hereafter referred to as NCEP1; version 2, hereafter referred to as NCEP2), ECMWF (European Center for Medium-range Weather Forecasts) reanalysis data(ERA),and the Global Asian Monsoon Experiment (GAME) reanalysis data in summer 1998, the vertically integrated heat source hQ1i in summer is calculated, and results obtained using different datasets are compared. The distributions of hQ1i calculated by using NCEP1 are in good agreement with rainfall observations over the Arabian Sea/Indian Peninsula, the Bay of Bengal (BOB), and East China. The distributions of hQ1i revealed by using NCEP2 are unrealistic in the southern Indian Peninsula, the BOB, and the South China Sea. Using ERA, the heat sources over the tropical Asia are in accordance with the summer precipitation,however, the distributions of hQ1i in East China are unreasonable. In the tropical region, the distributions of the summer heat source given by NCEP1 and ERA seem to be more accurate than those revealed by NCEP2. The NCEP1 and NCEP2 data are better for calculating heat sources over the subtropical and eastern regions of mainland China.     

Decadal-scale climate variability in the tropical and North Pacific during the 1970s and 1980s: observations and model results

An abrupt change in the large-scale boreal winter circulation pattern over the North Pacific was observed during the mid-1970s. Most notably, this change was marked by a southward shift and intensification of the Aleutian Low and prevailing westerlies over the mid-latitude central and eastern Pacific. Associated changes in diverse North Pacific climatological, hydrological, and biological variables have been noted by numerous researchers. Intriguingly, the timing of these changes in the extra-tropical circulation was coincident with a shift in the background state of the coupled ocean-atmosphere system over the tropical Pacific. These changes include increases in SST over broad regions of the central and eastern tropical Pacific and an eastward displacement of the region of persistent convection in the western Pacific. This paper presents a variety of observed data and model results to describe the climate shift, and to understand some of the links within the coupled climate system that produced it. Five main findings are emphasized: (1) evidence of abrupt, simultaneous, and apparently related changes can be found in many fields and in many model results; the climate shift is not an artifact, (2) over the tropical Pacific the climate change represents a shift in the state of the coupled ocean-atmosphere system, some aspects of which resemble features associated with El Niño episodes. However, the shift in state is not well characterized as due to a change in the frequency of intensity of El Ni~no episodes; it is better described as a change in background mean state, (3) when forced with observed SSTs, both a very simple atmospheric model and a full general circulation model (GCM) qualitatively simulate aspects of the decadal-scale shift over the tropical Pacific, (4) when forced with observed surface wind stress, two ocean models of the tropical Pacific, in which surface heat fluxes are parameterized as Newtonian damping, reproduce some aspects of the near-equatorial decadal SST signal. However, the models do not reproduce the large changes in SST observed at higher latitudes of the tropical Pacific, suggesting that altered surface heat fluxes dominated in producing these changes, and (5) an important new finding of this study is the success of a GCM in reproducing important aspects of the observed mid-1970s shift in winter northern hemisphere circulation. Comparative analyses of the observed and GCM simulated circulation suggest the altered patterns of tropical Pacific SST and convection were important in forcing the changes in the mid-latitude circulation, a finding corroborated by recent GCM experiments.     

南海地区大气30～60天低频振荡及其对南海夏季风的可能影响

本文利用1979～2008 年美国国家环境预报中心(NCEP)和美国国家大气研究中心(NCAR)第二套再分析资料、美国国家海洋和大气管理局(NOAA)的向外长波辐射(OLR)资料及1979～2007年全球降水资料(CMAP), 分析了南海地区热带大气的低频振荡及其对南海夏季风的可能影响。结果表明, 夏半年南海地区存在显著的30～60天的周期振荡。当30～60天低频振荡处于活跃位相时, 南海及其周围地区的低层大气为低频西南风, 南海和菲律宾北部为低频气旋流场且为正的位涡度, 对应着增强的南海夏季风槽和南海夏季风; 当 30～60天低频振荡处于不活跃位相时, 情形正好相反。进一步的研究揭示出, 夏半年30～60天低频振荡变化的空间型与夏半年平均场的年际变化的空间分布非常相似, 并且南海及其附近地区的 30～60天低频振荡活动的年际变化对夏半年平均场的年际变化有显著的贡献。强、弱南海夏季风年30～60天低频振荡活动的比较也说明, 强的南海夏季风年30～60天低频振荡活跃状态发生的概率大于不活跃状态发生的概率, 而弱的南海夏季风年则是不活跃状态发生的概率大于活跃状态发生的概率。因此, 南海地区30～60天低频振荡对南海夏季风很可能有重要影响, 当30～60天低频振荡的活跃状态处于主导时, 南海夏季风往往会偏强; 反之, 如果不活跃状态处于主导时, 南海夏季风往往会偏弱。     

华南秋季干旱的年代际转折及其与热带印度洋热含量的关系

采用1961—2014年逐月全球标准化降水蒸散指数(Standardized Precipitation Evapotranspiration Index,SPEI)数据集、ORA-S4海温资料及NCEP/NCAR再分析资料,对华南地区秋季干旱的年代际转折及其与热带印度洋热含量的关系进行了研究。结果表明:华南秋季SPEI主要表现为全区一致变化型,且具有明显的年代际变化特征,在1988年发生了年代际转折,转折后(前)为偏旱(涝)期。进一步分析表明,华南秋季SPEI与同期热带西印度洋海洋热含量变化呈显著的正相关关系,即当秋季热带西印度洋热含量偏低时,华南地区SPEI偏小,易发生干旱。热带西印度洋热含量异常影响华南秋季干旱的可能机制为:秋季热带印度洋热含量变化表现为""型的东西向偶极子分布,即当热带西印度洋热含量偏低时,热带东印度洋热含量将会偏高;而热带东印度洋热含量偏高将会使热带东印度洋—西太平洋海表温度偏高、外逸长波辐射偏小、降水增多,凝结潜热释放增强,产生偏强的东亚Hadley环流,使华南地区存在异常下沉运动,不利于产生降水;热带东印度洋—西太平洋海表温度偏高,还会使西北太平洋副热带高压位置偏西、面积偏大,西北太平洋存在气旋性环流异常,使华南地区受偏北气流异常控制,从而削弱了向华南地区的水汽输送。热带东印度洋—西太平洋海表温度年代际变化是热带西印度洋热含量异常影响华南秋旱年代际变化的重要环节,因此用NCAR CAM5.1全球大气环流模式进行了热带东印度洋—西太平洋海表温度年代际变化的敏感性试验,证实该区海表温度年代际升高对华南秋季年代际干旱具有重要作用。     

Interdecadal Change of the Relationship Between the Tropical Indian Ocean Dipole Mode and the Summer Climate Anomaly in China

The interdecadal change of the relationship between the tropical Indian Ocean dipole(IOD) mode and the summer climate anomaly in China is investigated by using monthly precipitation and temperature records at 210 stations in China and the NCEP/NCAR reanalysis data for 1957-2005.The results indicate that along with the interdecadal shift in the large-scale general circulation around the late 1970s,the relationship between the IOD mode and the summer climate anomaly in some regions of China has significantly changed.Before the late 1970s,a developing IOD event is associated with an enhanced East Asian summer monsoon,which tends to decrease summer precipitation and increase summer temperature in South China;while after the late 1970s,it is associated with a weakened East Asian summer monsoon,which tends to increase(decrease) precipitation and decrease(increase) temperature in the south(north) of the Yangtze River.During the next summer,following a positive IOD event,precipitation is increased in most of China before the late 1970s,while it is decreased(increased) south(north) of the Yangtze River after the late 1970s.There is no significant correlation between the IOD and surface air temperature anomaly in most of China in the next summer before the late 1970s;however,the IOD tends to increase the next summer temperature south of the Yellow River after the late 1970s.     

冬季斯堪的纳维亚遥相关型在20世纪70年代末的年代际变化

利用NCEP/NCAR再分析资料和PREC-L(Precipitation Reconstruction over Land)降水资料分析了1948/1949~2008/2009年冬季斯堪的纳维亚(SCAND)遥相关型的年代际变化,并讨论了这次年代际变化前后SCAND型的不同时空特征、气候影响及其维持机制。结果表明,SCAND型在1979年前后发生了明显的年代际突变,其500 hPa高度场上的欧洲中心和西伯利亚中心在1979年之后均向东南方向移动,但斯堪的纳维亚半岛附近的中心位置没有明显变化。与此相对应,1979年之后SCAND型对北半球气温的影响有很大加强,主要表现为其正(负)位相引起的极区增温范围明显扩大,欧亚大陆北部的温度负(正)中心显著向东南方向延伸,甚至可以影响到我国长江流域和日本的温度变化。1979年之后,SCAND型正(负)位相可以引起欧亚大陆沿60°N左右纬度带的降水显著减少(增加),这与1979年之前SCAND型主要引起乌拉尔山以西地区的降水变化有所不同。对准地转位势倾向方程的诊断表明,SCAND型在1979年前后的年代际变化基本可以用异常定常波引起的涡度强迫、异常定常波与气候态定常波相互作用引起的涡度强迫以及高频瞬变波引起的涡度强迫三者的变化来解释。     

An Abrupt Increase in the Summer High Temperature Extreme Days across China in the mid-1990s

Based on the daily maximum surface air temperature records from an updated homogenized temperature dataset for 549 Chinese stations during 1960-2008,we reveal that there is an abrupt increase in the number of days with high temperature extremes (HTEs,an HTE day is defined when the maximum temperature exceeds the 95th percentile of the daily maximum temperature distributions) across China in the mid-1990s.Before this regime shift,the average number of HTE days is about 2.9 d yr 1 during the period from the 1970s to the early 1990s,while it rocketed to about 7.2 d yr 1 after the mid-1990s.We show that the significant HTE day increase occurs uniformly across the whole of China after the regime shift.The observational evidence raises the possibility that this change in HTE days is associated with global-scale warming as well as circulation adjustment.Possible causes for the abrupt change in the HTE days are discussed,and the circulation adjustment is suggested to play a crucial role in the increase in HTE days in this region.     

印度夏季风的减弱及其与对流层温度的关系

对43aNCEP/NCAR再分析资料和台站实际观测资料的分析,揭示了对流层温度变化和印度夏季风环流减弱之间的联系。印度夏季风的变化与东亚上空对流层温度具有密切的关系,主要表现为对流层平均温度与整个印度夏季降雨和季风环流强度之间存在显著的正相关。结果表明:印度夏季风环流在近几十年经历了两次减弱过程,第一次减弱约发生在20世纪60年代中期,第二次减弱则发生在20世纪70年代后期;通过改变海陆热力对比,对流层平均温度在印度夏季风减弱过程中可能起着重要作用,东亚地区与东印度洋至西太平洋热带地区之间的对流层温度差异导致了印度夏季风环流的减弱。     

WINTERTIME MIDDLE EAST SUBTROPICAL WESTERLY JET STREAM INTERANNUAL VARIATION CHARACTERISTICS AND ITS POSSIBLE PHYSICAL FACTORS

Using National Centers for Environmental Prediction/Department of Energy (NCEP/DOE) monthly reanalysis data and an extended reconstruction of the sea surface temperature data provided by National Oceanic and Atmospheric Administration, the basic characteristics of the interannual variation in the wintertime Middle East subtropical westerly jet stream (MEJ) and its possible physical factors are studied. The results show that the climatological mean MEJ axis extends southwestward-northeastward and that its center lies in the northwest part of the Arabian Peninsula. The south-north shift of the MEJ axis and its intensity show obvious interannual variations that are closely related to the El Ni?o-Southern Oscillation (ENSO) and the mid-high latitude atmospheric circulation. The zonal symmetric response of the Asian jet to the ENSO-related tropical convective forcing causes the MEJ axis shift, and the Arctic Oscillation (AO) causes the middle-western MEJ axis shift. Due to the influences of both the zonal symmetric response of the Asian jet to the ENSO-related tropical convective forcing and the dynamical role of the AO, an east-west out-of-phase MEJ axis shift is observed. Furthermore, the zonal asymmetric response to the ENSO-related tropical convective forcing can lead to an anomalous Mediterranean convergence (MC) in the high troposphere. The MC anomaly excites a zonal wave train along the Afro-Asian jet, which causes the middle-western MEJ axis shift. Under the effects of both the zonal symmetric response to the ENSO-related tropical convective forcing and the wave train along the Afro-Asian jet excited by the MC anomaly, an east-west in-phase MEJ axis shift pattern is expressed. Finally, the AO affects the MEJ intensity, whereas the East Atlantic (EA) teleconnection influences the middle-western MEJ intensity. Under the dynamical roles of the AO and EA, the change in the MEJ intensity is demonstrated.     

东亚季风环流演变的主要模态及其与中国东部降水异常的联系

利用美国国家环境预报中心和国家大气研究中心(NCEP/NCAR)再分析环流资料、美国国家海洋和大气管理局(NOAA)重构的海温资料和中国国家气象信息中心(NMIC)整理的752个测站降水资料,对东亚地区季风环流季节演变主要模态及其与中国东部降水异常的关系进行了分析。结果表明,东亚地区850hPa季风环流季节演变存在两个主要模态,第一模态主要受热带印度洋海温和赤道东太平洋海温偏低背景下印度洋偶极(IOD)演变过程控制;第二模态主要受赤道东太平洋ENSO循环和IOD演变控制。对应第一模态,夏季华北多雨,长江流域少雨;对应第二模态,夏季华北、长江流域多雨,淮河、华南少雨。近50年两模态发生了明显改变,与降水变化有很好的对应关系。     

中国土壤湿度的分布与变化 I. 多种资料间的比较

土壤湿度是影响气候的重要因子之一, 但观测资料的欠缺制约着该领域研究工作的开展。本文汇总了目前国际上运用较为广泛的四套土壤湿度资料: ERA40和NCEP/NCAR再分析资料、全球土壤湿度计划资料(GSWP2)、以及NCAR最近完成的利用观测资料强迫“通用陆面模式”CLM所产生的土壤湿度资料。在此基础上, 利用中国区域观测的19年 (1981～1999年) 的土壤湿度和13年 (1992～2004年) 的土壤相对湿度资料, 对四套资料在中国区域的可靠性进行了分析和比较, 主要结论如下: 四套资料基本揭示出土壤湿度的空间分布, GSWP2揭示了四套资料最多的共性, 即东北、 华南湿, 华北、 西北干, 土壤湿度基本由西北向东北和东南呈梯度增加的特征; GSWP2较好地描述了土壤湿度的季节循环; ERA40土壤湿度的年际变化与观测相关最好; 观测资料和四套资料都表明前期降水会增加土壤湿度, 但土壤湿度异常对后期降水的影响则不显著; 气温与土壤湿度的关系较复杂, 不同的区域有不同的特征。     

热带印度洋偶极子与中国夏季年际气候异常关系的年代际变化

利用中国站点观测逐月降水和月平均气温资料以及NCEP/NCAR再分析资料,揭示了热带印度洋偶极子(IOD)与中国夏季气候异常关系的年代际变化.结果表明:IOD与中国夏季年际气候异常的关系既有稳定的一面,又存在着年代际变化.较为稳定的关系表现为:IOD与同年夏季长江黄河之间的降水变化存在显著负相关,与四川气温变化存在显著正相关;IOD与次年夏季四川降水存在显著正相关.伴随发生在20世纪70年代末的大尺度环流年代际转型,IOD与中国气候年际异常的联系亦发生变化:IOD正位相年的同年夏季降水异常型,由中国大部分地区偏少变为长江以南(北)偏多(少),气温由西南地区东部偏暖变为长江以南(北)偏冷(暖);次年夏季降水由全国大部分地区偏多变为长江以南(北)偏少(多),气温由全国大部分地区相关不显著变为黄河以南大部分地区显著偏暖.在IOD负位相年,中国夏季气候异常的特征与IOD正位相年相反.在20世纪70年代末的大尺度年代际气候转犁前后,与IOD相关的东亚大气环流异常特征明显不同.在IOD发展阶段,在70年代末以前,印度夏季风和南海季风偏强,副热带高压势力偏弱,导致中国华南大部分地区降水偏少,华北西部以及内蒙古中部等地降水偏多;70年代末以后,东亚大陆中纬度为弱的东风距平,导致新疆北部降水偏少,气温偏高,华南降水偏多.在IOD次年夏季,70年代末以前,华南、河套以及四川等地盛行偏南气流,降水偏多;70年代末以后,南亚高压和西太平洋副高偏西偏强,华南、江南降水偏少.     

冬季北极涛动异常对北太平洋风暴轴的可能影响

基于美国国家海洋和大气局气候预测中心公报的北极涛动（Arctic Oscillation,AO）指数逐月数据以及美国国家环境预报中心和大气研究中心的1986—2017年逐日再分析资料等,运用回归和合成分析等方法,分析了北极涛动与北太平洋地区风暴轴的时间演变特征、两者之间的联系及AO异常影响风暴轴的可能机制。结果表明：1）风暴轴经度指数与纬度指数有显著正相关性,两者具有同步变化的特征,而这两者与风暴轴强度指数都呈负相关,但不显著。AO指数与北太平洋风暴轴强度呈显著正相关,且AO指数与风暴轴经度、纬度指数也呈正相关,但并不显著。2）在北极涛动强正（负）位相年份,风暴轴区域天气尺度滤波方差强（弱）、500 hPa高度场上东亚大槽减弱（加深）、急流偏北偏强（偏南偏弱）、扰动动能增强（减弱）、斜压性增强（减弱）。可能影响机制是,异常变化的AO影响东亚大槽,改变急流强度,使斜压性发生变化,进而对风暴轴产生影响。