太平洋潜热通量及其与黄淮夏季降水的关系   总被引：1，自引：0，他引：1  

胡雪  王文  李理  黄山江  谢旭生 《气象科技》2015,43(3):482-487

研究了1979—2010年太平洋潜热通量的变化特征及其与中国黄淮夏季降水的关系。结果表明,潜热通量的气候场和方差场均存在着明显的季节变化,且各季节气候场的极值中心也是变化幅度较大的区域。黄淮地区降水与前期春季的潜热场相关性最好。定义了黄淮夏季降水指数来研究影响降水的潜热场关键区,发现春季潜热关键区为10°~20°N之间的中东太平洋和热带东太平洋沿岸海区。春季当上述两个海区净潜热通量增多时,后期夏季500hPa和850hPa位势高度异常场中,在太平洋西海岸-阿拉斯加南部一线上均表现为"正—负—正"的分布型,黄淮降水偏多。  相似文献   

ENSO事件与中国东南沿海3月降水关系分析   总被引：1，自引：0，他引：1  

任广成  余明祥  张哲 《气象与减灾研究》2008,31(1):44-48

利用1951—2006年永安、赣州、厦门、梅州、汕头、曲江和河源7个代表站3月降水量资料,以及南方涛动指数（SOI）和北太平洋海温资料,分析了中国东南沿海3月降水的年际和年代际变化特征,及其与ENSO事件的关系。结果发现,东南沿海3月降水具有年际变化大和年代际变化明显的特征,与SOI、赤道东太平洋海温和西风漂流区海温存在显著相关。在前一年出现厄尔尼诺现象,北太平洋海温距平分布呈厄尔尼诺分布型,SOI偏低的情况下,东南沿海3月降水偏多;反之,前一年出现拉尼娜现象,北太平洋海温距平分布呈现拉尼娜分布型,SOI偏高时,东南沿海3月降水偏少。前期1月赤道东太平洋关键区海温和前期2月西风漂流区关键区海温的异常变化,对东南沿海3月降水具有很好的指示意义。当前期1月赤道东太平洋关键区海温偏高,前期2月西风漂流区关键区海温偏低时,东南沿海3月降水偏多;反之,东南沿海3月降水则偏少。  相似文献   

西北太平洋秋季热带气旋发生规律分析     

石蓉蓉  雷媛  胡波 《浙江气象》2008,29(3)

针对2007年秋季热带气旋异常偏多的情况,从拉尼娜现象、南方涛动特征指数（SOI）、夏季风和海温等方面进行原因分析,对秋季热带气旋的发生规律进行初步的探讨和研究,发现在拉尼娜现象开始年秋季热带气旋生成偏多,在拉尼娜延续年生成个数偏少的规律,以及8—11月SOI偏高、海温偏高或秋季夏季风偏强均有利于秋季热带气旋的生成。  相似文献   

2022年秋季我国气候异常特征及成因分析北大核心CSCD     

洪洁莉  陈丽娟  王悦颖  章大全 《气象》2023,(4):495-505

2022年秋季,全国气候总体呈现暖干的特征,其中南方大部出现持续高温干旱。秋季平均气温为1961年以来历史同期最高。秋季降水季节内变率大,9月全国大部降水偏少,10月降水总体呈现南北少、中间多,11月我国中东部大部降水偏多而西部大部降水偏少。9—10月环流异常特征显示我国南方上空为偏北风距平,来自南海和西北太平洋的水汽输送条件极差,西北太平洋副热带高压偏强偏西,我国南方受下沉运动控制,有利于大部地区降水偏少、气温偏高,出现持续干旱。海温外强迫影响分析显示,2022年秋季印度-太平洋暖池异常偏暖,热带太平洋中东部偏冷,赤道印度洋西部偏冷,对应赤道印度洋上空纬向季风环流和太平洋上空Walker环流之间为显著的耦合特征。热带印度洋偶极子(TIOD)显著影响区域为江南西部和西南地区东南部,厄尔尼诺-南方涛动显著影响区域是江南大部和华南北部。即2022年秋季我国南方降水异常偏少受到TIOD负位相和拉尼娜状态的协同影响。  相似文献   

1961—2018年九江夏季降水的年际变化特征及其可能原因          下载免费PDF全文

潘爱军  田敬生 《气象与减灾研究》2019,42(2):83-88

采用1961—2018年中国160站降水资料、NOAA海面温度资料及NCEP/NCAR再分析资料,利用回归分析等方法,对九江夏季降水的年际变化特征及其可能原因进行分析。结果表明：九江夏季降水具有明显的年际变化特征,存在准4 a的变化周期;九江夏季降水与中国105°E以东的长江中下游及以南地区夏季降水呈显著正相关关系;中国邻近海域的西北太平洋（140°—150°E,15°—25°N）为影响九江夏季降水的海面温度关键区。西北太平洋海温异常与九江夏季降水异常的对应关系为：当西北太平洋夏季海温偏高时,西北太平洋副热带高压偏强偏南、贝加尔湖阻塞高压偏活跃、东亚副热带夏季风偏弱,长江中下游及以南有异常南、北风交汇,且水汽充沛、垂直运动旺盛。这种环流配置有利于长江中下游及以南地区包括九江的夏季降水偏多;反之亦然。  相似文献   

2016年秋季中国南方降水异常的环流特征及海温影响     

蒋子瑶  徐海明  马静 《大气科学》2021,45(5):1023-1038

本文利用中国气象台站观测降水、英国Hadley中心海温和NCEP/NCAR再分析数据集等资料,研究了2016年秋季中国南方降水异常偏多的环流特征及其海温影响。结果表明,2016年秋季东亚副热带西风急流偏强,我国南方地区位于急流入口区的右侧,有利于产生上升运动;同时西太平洋副热带高压强度偏强、面积偏大、位置偏北偏西,对应副高西南侧的东南风将热带太平洋的暖湿气流向我国南方输送,有利于降水偏多。另外,2016年秋季登陆我国的台风异常偏多,频繁活动的台风给我国南方带来了大量降水,也是导致我国南方降水异常偏多的原因之一。进一步研究表明,2016年秋季南方降水异常偏多主要与同期赤道西太平洋和东南太平洋海温异常偏高有关,上述海区的海温异常通过激发向下游传播的遥相关波列或通过Gill响应对东亚环流产生影响,进而有利于中国南方降水增多。通过CAM5.3（Community Atmosphere Model Version 5.3）一系列的敏感性试验,验证了上述的结果。  相似文献   

影响中国东部夏季降水的前期海温关键区   总被引：5，自引：1，他引：4  

滕莺  朱乾根 《南京气象学院学报》2000,23(1):55-62

使用 1 95 1～ 1 994年的全球海温和中国降水资料 ,利用反复求相关的方法 ,确定了前期 3月北太平洋海区 ( 42 .5～ 5 2 .5°N,1 70°E～ 1 70°W)为影响后期中国夏季降水的海温关键区 ,给出了前期 3月海温关键区海温通过影响前期大气环流遥相关波列影响中国夏季降水的可能途径。前期北太平洋海温关键区海温与中国夏季降水的相关性很高且比较稳定 ,不受 1 978年发生的海温年代际变化的影响。  相似文献   

太平洋秋季SSTA与西北地区春季降水的耦合性研究     

李耀辉  李栋梁  赵庆云 《干旱气象》1998,(1)

利用中国西北五省（区）和内蒙古西部的共１０６个测站的１９６０～１９９０年３～５月的月、季总降水量和太平洋１０°Ｓ～５０°Ｎ,１２０°Ｅ～８０°Ｗ范围内２８６个格点（５°×５°）的秋季（９～１１月）的平均海表温度,通过ＥＯＦ、ＲＥＯＦ、ＳＶＤ及交叉谱分析等方法,对秋季太平洋海温的异常特性及其与我国西北干旱半干旱地区后期春季降水之间的空间地域遥相关耦合特征进行了分析研究。结果表明,秋季太平洋海温差异常存在６个关键区域,其中赤道东太平洋地区是最敏感的异常信号区;西北干旱半干旱地区春季降水与前期秋季赤道东太平洋海温异常之间有着清晰的遥相关。当海温异常偏高,即有ＥＬ－Ｎｉｎｏ现象时,西北地区的降水普遍偏少,并以高原东侧青、甘、宁交界地区及渭水流域的偏少为主;Ｌａ－Ｎｉｎａ时的情况正好相反,内蒙西部的春季降水变化趋势与我国西北地区基本一致。  相似文献   

2019年12月吉林省降水异常偏多成因分析     

李天宇  张丽  付冬雪  李晓帆  刘宁 《气象与环境学报》2021,37(6):20-26

本文从大尺度大气环流和海温异常方面对2019年12月吉林省降水异常成因进行分析,并探究前期秋季日本附近关键区海温异常对吉林省12月降水异常的可能影响。结果表明：1981—2019年吉林省12月降水有明显增多的趋势,在降水年代际偏多的气候背景下,2019年12月吉林全省降水量为常年同期的227.5%,居1981年以来同期多雨雪第4位。前期秋季日本附近关键区海温异常偏暖是12月吉林省降水异常偏多的驱动条件之一,在前期海温异常偏暖年：鄂霍茨克海至日本上空为异常反气旋,阻塞高压活跃,贝加尔湖附近地区为负高度距平,东亚冬季风系统减弱,局地海温的异常升高使其上空的水汽含量增加,配合东亚冬季风异常为吉林省上空带来了充足的水汽;另一方面,由于中纬度45°N附近为西风距平,为东北地区带来冷空气,在槽前正涡度平流作用下,有上升运动,为降水提供了动力条件。在前期海温异常偏冷年：中国东北地区盛行西风,东亚冬季风偏强,中国东部沿海有北风异常,西伯利亚高压偏强,吉林省降水的水汽和动力条件不足,降水异常偏少。  相似文献   

江淮北区6～7月降水异常与北太平洋海温的SVD分析   总被引：2，自引：6，他引：2  

陈科艺  王谦谦  毛文书  马慧 《高原气象》2006,25(3):539-544

REOF结果表明,江淮地区6~7月降水可以分为南、北两个区;江淮北区6~7月降水和海温的SVD分析结果表明:影响江淮北区6~7月降水异常的海温关键区(关键区)是北太平洋海域,关键时段是当年的1~2月;当年1~2月北太平洋关键区海温异常偏高(偏低),同年6~7月中国的江淮、华南、东北地区降水偏多(少),华北、西北、西南呈降水偏少(多),其中江淮北区相关系数绝对值最大,通过0.05的Monte-Carlo显著性水平检验。  相似文献   

江南雨季降水与前期西太平洋暖池热含量异常的关系及其可能机制          下载免费PDF全文

任倩  祁莉  詹丰兴  何金海 《大气科学学报》2018,41(6):762-774

利用日本气象厅提供的历史海温资料、Hadley环流中心逐月海表温度(Sea Surface Temperature,简称SST)资料、美国NCEP/NCAR再分析资料以及江南地区逐旬降水资料,研究江南地区4—6月(江南雨季,亦泛称为华南前汛期)降水与前期暖池热含量异常的关系,并对可能的影响机制进行分析。研究结果表明,前期暖池热含量与江南雨季降水有密切的负相关关系,前期7—8月暖池关键区(130. 5°～150. 5°E,3. 5°～11. 5°N)热含量高(低)可以作为预报江南雨季旱(涝)的一个很好的指标。前期暖池热含量异常对4—6月环流和降水有重要影响。冷水年,菲律宾异常反气旋导致副高西伸加强,显著加强了其西侧暖湿气流向江南地区输送,高层辐散抽吸作用导致江南地区对流上升运动增强,暖水年相反,表明冷(暖)水年江南雨季降水偏多(少)。就影响机制而言,在前期夏季,关键区南侧存在异常强西风,导致在秋末形成了菲律宾异常反气旋,以及关键区附近(东侧)有冷(暖)海表温度异常发展,在当年春季和夏初该反气旋移到菲律宾以北。直到4月,次表层冷水团上传导致冷SST异常维持并加强了该异常反气旋,其西侧西南暖湿气流将水汽从南海和菲律宾海地区源源不断地向江南地区输送。同时,西印度洋暖海温和赤道印度洋东风异常也逐渐发展增强,在热带印度洋形成东西向异常垂直环流,其下沉支始终在西太平洋维持,导致了菲律宾异常反气旋的维持,并进一步引起江南地区的水汽辐合和上升运动。同时,副热带西风急流轴南压引起的高空强辐散,也有利于上升运动和对流活动在江南地区发展。正是上述过程和机制,导致了前期热含量异常偏低(高)时,我国江南雨季降水偏多(少)。  相似文献   

Interannual Variability of Autumn Precipitation over South China and its Relation to Atmospheric Circulation and SST Anomalies   总被引：5，自引：0，他引：5  

NIU Ning  LI Jianping 《大气科学进展》2008,25(1):117-125

The interannual variability of autumn precipitation over South China and its relationship with atmospheric circulation and SST anomalies are examined using the autumn precipitation data of 160 stations in China and the NCEP-NCAR reanalysis dataset from 1951 to 2004. Results indicate a strong interannual variability of autumn precipitation over South China and its positive correlation with the autumn western Pacific subtropical high （WPSH）. In the flood years, the WPSH ridge line lies over the south of South China and the strengthened ridge over North Asia triggers cold air to move southward. Furthermore, there exists a significantly anomalous updraft and cyclone with the northward stream strengthened at 850 hPa and a positive anomaly center of meridional moisture transport strengthening the northward warm and humid water transport over South China. These display the reverse feature in drought years. The autumn precipitation interannual variability over South China correlates positively with SST in the western Pacific and North Pacific, whereas a negative correlation occurs in the South Indian Ocean in July. The time of the strongest lag-correlation coefficients between SST and autumn precipitation over South China is about two months, implying that the SST of the three ocean areas in July might be one of the predictors for autumn precipitation interannual variability over South China. Discussion about the linkage among July SSTs in the western Pacific, the autumn WPSH and autumn precipitation over South China suggests that SST anomalies might contribute to autumn precipitation through its close relation to the autumn WPSH.  相似文献   

Cross-season relation of the South China Sea precipitation variability between winter and summer   总被引：3，自引：1，他引：2  

Renguang Wu  Gang Huang  Zhencai Du  Kaiming Hu 《Climate Dynamics》2014,43(1-2):193-207

The present study reveals cross-season connections of rainfall variability in the South China Sea (SCS) region between winter and summer. Rainfall anomalies over northern South China Sea in boreal summer tend to be preceded by the same sign rainfall anomalies over southern South China Sea in boreal winter (denoted as in-phase relation) and succeeded by opposite sign rainfall anomalies over southern South China Sea in the following winter (denoted as out-of-phase relation). Analysis shows that the in-phase relation from winter to summer occurs more often in El Niño/La Niña decaying years and the out-of-phase relation from summer to winter appears more frequently in El Niño/La Niña developing years. In the summer during the El Niño/La Niña decaying years, cold/warm and warm/cold sea surface temperature (SST) anomalies develop in tropical central North Pacific and the North Indian Ocean, respectively, forming an east–west contrast pattern. The in-phase relation is associated with the influence of anomalous heating/cooling over the equatorial central Pacific during the mature phase of El Niño/La Niña events that suppresses/enhances precipitation over southern South China Sea and the impact of the above east–west SST anomaly pattern that reduces/increases precipitation over northern South China Sea during the following summer. The impact of the east–west contrast SST anomaly pattern is confirmed by numerical experiments with specified SST anomalies. In the El Niño/La Niña developing years, regional air-sea interactions induce cold/warm SST anomalies in the equatorial western North Pacific. The out-of-phase relation is associated with a Rossby wave type response to anomalous heating/cooling over the equatorial central Pacific during summer and the combined effect of warm/cold SST anomalies in the equatorial central Pacific and cold/warm SST anomalies in the western North Pacific during the mature phase of El Niño/La Niña events.  相似文献   

Diversity of the Coupling Wheels in the East Asian Summer Monsoon on the Interannual Time Scale: Challenge of Summer Rainfall Forecasting in China     

Congwen ZHU  Boqi LIU  Kang XU  Ning JIANG  Kai LIU 《大气科学进展》2021,38(4):546-554

Two types of three-dimensional circulation of the East Asian summer monsoon(EASM) act as the coupling wheels determining the seasonal rainfall anomalies in China during 1979–2015. The first coupling mode features the interaction between the Mongolian cyclone over North Asia and the South Asian high(SAH) anomalies over the Tibetan Plateau at 200 hPa. The second mode presents the coupling between the anomalous low-level western Pacific anticyclone and upperlevel SAH via the meridional flow over Southeast Asia. These two modes are responsible for the summer rainfall anomalies over China in 24 and 7 out of 37 years, respectively. However, the dominant SST anomalies in the tropical Pacific, the Indian Ocean, and the North Atlantic Ocean fail to account for the first coupling wheel's interannual variability, illustrating the challenges in forecasting summer rainfall over China.  相似文献   

春季青藏高原感热对中国东部夏季降水的影响和预测作用   总被引：1，自引：0，他引：1  

李秀珍  唐旭紫  李施华  简茂球  温之平 《气象学报》2018,76(6):930-943

利用1980-2012年青藏高原中、东部71个站点观测资料、全中国756站的月降水资料、哈得来中心提供的HadISST v1.1海温资料以及ERA-Interim再分析资料,综合青藏高原的感热加热以及全球海温,研究了春季青藏高原感热对中国东部夏季降水的影响,并建立预报方程,探讨了青藏高原春季感热对中国降水的预报作用。结果表明,青藏高原春季感热与中国东部降水关系密切,青藏高原春季感热异常增强伴随着长江流域中下游同期降水增多,后期夏季长江流域整流域降水也持续偏多,华南东部降水偏少。春季青藏高原感热的增强与环北半球中高纬度的罗斯贝波列密切相关,扰动在北太平洋形成的反气旋环流向西南方向延伸至西北太平洋,为长江流域输送大量的水汽,有利于降水的发生。夏季,伴随着前期青藏高原感热的增强,南亚高压位置偏东,西北太平洋副热带高压（西太副高）位置偏西偏南,西太副高北侧为气旋式环流异常。在西太副高的控制下,华南东部降水减少;西太副高西侧的偏南气流为长江流域带来大量水汽,并与来自北部气旋式环流异常西侧的偏北风发生辐合,降水增多。青藏高原春季感热异常是华南和长江流域夏季降水异常的重要前兆信号。加入青藏高原春季感热后,利用海温预报的华南、长江流域夏季降水量与观测值的相关系数有所提高,预报方程对区域降水的解释方差提高约15%。   相似文献   

Persistent Heavy Rainfall over South China During May-August：Subseasonal Anomalies of Circulation and Sea Surface Temperature   总被引：1，自引：0，他引：1  

HONG Wei  REN Xuejuan 《Acta Meteorologica Sinica》2013,27(6):769-787

This study investigates the relationship between subseasonal variations of the circulation and sea surface temperature（SST） over the South China–East Asian coastal region（EACR） in association with the persistent heavy rainfall（PHR） events over South China during May–August through statistical analysis. Based on the intensity threshold and duration criterion of the daily rainfall, a total of 63 May–June（MJ） and 59July–August（JA） PHR events are selected over South China from 1979 to 2011. The lower-level circulation anomalies on subseasonal timescale exhibit an anomalous cyclone over South China and an anomalous anticyclone shaped like a tongue over the South China Sea（SCS） during the PHR events for MJ group.The anomalous cyclone over South China in MJ originates from low-value systems in the mid-high latitudes before the rainfall. The anomalous anticyclone over the SCS is due to the westward extension of the western Pacific subtropical high（WPSH） and the southeastward propagation of the anomalous anticyclone from South China before the rainfall. For JA group, the lower-level anomalous circulation pattern is similar to that for MJ over the South China–EACR, but with di？erent features of propagation. The subseasonal anomalous anticyclone is also related to the westward stretch of the WPSH, while the anomalous cyclone is traced back to the weak anomalous cyclone over the Philippine Sea several days before the rainfall events.Positive SST anomaly（SSTA） is observed over the SCS and the Philippine Sea during the MJ PHR events on the subseasonal timescale. It is closely linked with the variation of local anomalous anticyclone. In contrast, negative SSTA occupies the South China coastal region for the JA PHR events, and it is driven by the anomalous cyclone which propagates northwestward from the Philippine Sea. The subseasonal positive（negative） SSTAs are generated via the local processes of above（below）-normal incident solar radiation and below（above）-normal latent heat fluxes. The possible role of the subseasonal SSTA in the local convective instability is also analyzed in this study.  相似文献   

Intraseasonal variations of the Yangtze rainfall and its related atmospheric circulation features during the 1991 summer   总被引：5，自引：0，他引：5  

Jiangyu Mao  Guoxiong Wu 《Climate Dynamics》2006,27(7-8):815-830

The intraseasonal variations of the Yangtze rainfall over eastern China and its related atmospheric circulation characteristics during the 1991 summer are examined based on the gauge-observed rainfall and the NCEP/NCAR reanalysis data. Wavelet analysis shows that during the 1991 summer, the active and break sequences of rainfall over the middle and lower Yangtze Basin are mainly regulated by an oscillatory mode with a period of 15–35 days. An investigation of the circulation features suggests that the 15–35-day oscillation is associated with an anomalous low-level cyclone (anticyclone) appearing alternatively over the northern South China Sea (SCS) and the Philippine Sea, and related to a northeastward (southwestward) shift of the western Pacific subtropical anticyclone over the SCS, leading to a lower tropospheric divergence (convergence) over the Yangtze Basin. In the upper troposphere, the 15–35-day oscillation exhibits a dipole anomaly characterized by an anomalous cyclone (anticyclone) over eastern China and an anomalous anticyclone (cyclone) over the northern Tibetan Plateau, resulting in a southwestward shrinking (northeastward extending) of the South Asian anticyclone, and forming a convergence (divergence) over eastern China. Such a coupled anomalous flow pattern between the lower and upper troposphere favors large-scale descending (ascending) motion, and hence reduced (enhanced) rainfall over the Yangtze Basin. Dynamically, the intraseasonal variations in the Yangtze rainfall are mainly determined by the coupling between the low-level relative vorticity and the upper-level divergence. In the middle troposphere, the 15–35-day oscillation of the subtropical high is originated over the central North Pacific north of Hawaii, then propagates westward to the SCS-Philippine Sea, and finally modulates the intraseasonal variations of the Yangtze rainfall.  相似文献   

长江中下游严重旱涝时期大气环流以及热源和水汽汇的异常   总被引：6，自引：0，他引：6  

Yang Hui 《大气科学进展》2001,18(5):972-983

利用 1980-1997年 6-8月 NECP／NCAR月平均资料，计算了大气热源和水汽汇，研究了我国长江中下游夏季严重旱涝时期大气环流以及大气热源和水汽汇的异常特征，主要结果如下： 在对流层中下层，来自于孟加拉湾和南海的南风异常和长江流域以北的北风异常在长江中下游辐合。这两股异常气流分别与西太平洋上反气旋异常系统（中心位于22°N，140°E）和气旋异常系统（中心位于日本海）有关。在对流层高层，反气旋异常系统中心位于23°N，105°E，气旋异常系统中心位于朝鲜，两异常系统之间的西北异常气流在长江中下游辐散。而在印度西南季风区为偏东风异常，表示西南季风的减弱； 长江中下游严重干旱时，在对流层中下层，长江以北南风异常和长江以南北风异常从长江流域辐散，在以东的洋面上形成东风异常气流。这两股异常气流分别与酉太平洋上气旋异常系统（中心位于23°N，135°E）和西北太平洋上反气旋异常系统有关。在对流层高层，气旋异常系统中心位于南海，反气旋异常系统中心位于日本海，两异常系统之间的偏东异常气流在长江中下游辐合。 热源异常的最主要特征是长江中下游严重洪涝时从西太平洋到南海热源异常为负，表示热源偏弱；正热源异常位于长江流域。而长江中下游严重干旱时热源异常正好相反。垂直  相似文献   

The asymmetric effects of El Niño and La Niña on the East Asian winter monsoon and their simulation by CMIP5 atmospheric models          下载免费PDF全文

Zhun Guo  Tianjun Zhou  Bo Wu 《Acta Meteorologica Sinica》2017,31(1):82-93

El Niño–Southern Oscillation (ENSO) events significantly affect the year-by-year variations of the East Asian winter monsoon (EAWM). However, the effect of La Niña events on the EAWM is not a mirror image of that of El Niño events. Although the EAWM becomes generally weaker during El Niño events and stronger during La Niña winters, the enhanced precipitation over the southeastern China and warmer surface air temperature along the East Asian coastline during El Niño years are more significant. These asymmetric effects are caused by the asymmetric longitudinal positions of the western North Pacific (WNP) anticyclone during El Niño events and the WNP cyclone during La Niña events; specifically, the center of the WNP cyclone during La Niña events is westward-shifted relative to its El Niño counterpart. This central-position shift results from the longitudinal shift of remote El Niño and La Niña anomalous heating, and asymmetry in the amplitude of local sea surface temperature anomalies over the WNP. However, such asymmetric effects of ENSO on the EAWM are barely reproduced by the atmospheric models of Phase 5 of the Coupled Model Intercomparison Project (CMIP5), although the spatial patterns of anomalous circulations are reasonably reproduced. The major limitation of the CMIP5 models is an overestimation of the anomalous WNP anticyclone/cyclone, which leads to stronger EAWM rainfall responses. The overestimated latent heat flux anomalies near the South China Sea and the northern WNP might be a key factor behind the overestimated anomalous circulations.  相似文献   

南疆夏季降水异常的环流和青藏高原地表潜热通量特征分析   总被引：4，自引：0，他引：4  

杨莲梅  张庆云 《高原气象》2007,26(3):435-441

利用1980—2004年NCEP/DOE新再分析月平均资料及我国225个测站1980—2004年月降水量资料,通过诊断分析,研究了南疆夏季降水异常的环流和高原地表潜热通量特征。结果表明:南疆夏季降水偏少年,南亚高压西部偏强,西风急流位置偏北,500 hPa中高纬环流经向度减弱,伊朗高压偏北、偏东,西太平洋副热带高压偏西、偏南;降水偏多年则相反。南疆夏季降水偏少年,高原北部和南疆地区为下沉的垂直环流距平,Ferrell环流增强;降水偏多年则相反。南疆夏季降水偏少年和偏多年的前期冬春季开始孟加拉湾、青藏高原和南疆地区地表潜热通量具有相反的变化,南疆夏季降水与高原北部地表潜热通量呈显著正相关,与南部地表潜热通量呈反相关关系。  相似文献