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1.
《干旱气象》2019,(5)
利用1961—2016年NOAA海表温度、NCEP/NCAR再分析资料以及山东降水资料,对比不同类型El Niňo事件次年夏季山东逐月降水异常分布和环流异常特征。结果表明:不同类型El Niňo事件对山东次年夏季各月降水影响不同,但三种分布类型事件次年6月山东降水异常均较7、8月弱,且极值分布较为集中。Niňo3型事件次年夏季山东降水以偏少为主,其中6、8月降水偏少,7月降水偏多;Niňo4型事件次年夏季山东降水以偏多为主,其中6月全省降水显著偏多,7月降水异常呈东西少、中间多的分布,8月降水异常呈东南多、西北少的分布;Niňo3.4型事件次年夏季山东降水基本呈现北多南少的异常分布,6月降水偏少,7月降水大部地区偏多,8月降水呈现东南少、西北多的异常分布。降水异常分布主要由不同类型El Niňo事件次年夏季各月500 hPa环流形势、水汽输送及其辐合等决定,而环流异常则受海温影响显著。 相似文献
2.
利用1979—2007年NOAA重建海温逐月资料和中国160站夏季降水资料,使用扩展奇异值分解(extended singular value decomposition,ESVD)方法,研究了冬季热带太平洋海温异常与次年夏季中国降水异常季节内演变型之间的关系,指出前冬El Nino事件是与次年夏季中国降水季节内变化相联系的最重要的热带太平洋海温异常模态。相应的降水异常季节内变化情况为:6月在长江以南为正异常,江淮流域有负异常;7月在华南沿海有负降水异常,而正异常北进到长江流域,华北地区也出现正降水异常;8月在长江南北分别为少雨和多雨。进一步研究前冬El Nino事件与次年春夏印度洋、太平洋海温异常、对流层低层风场异常以及副热带高压等的联系,结果表明:El Nio事件发生的次年春夏,热带西太平洋周边存在东负西正的海温异常分布;西太平洋反气旋异常较强;副高在6月、7月偏西偏北,但在8月迅速南退。虽然与El Nino事件相联系的6月与7月、8月的降水型不同,但是西太平洋反气旋异常带来的充沛水汽造成7月长江流域雨季多雨,8月副高迅速南退带来的又一次长江流域降水,造成了El Nino事件发生次年夏季长江流域涝而华南沿海旱的夏季平均降水异常型。 相似文献
3.
不同类型El Nino事件及其与我国夏季气候异常的关系 总被引:4,自引:1,他引:3
详细讨论了不同类型El Nino事件与东亚夏季风(east Asian summer monsoon,EASM)和夏季降水的关系。结果表明,在西部型和驻波型El Nino事件的发展年,EASM都是偏弱的,而东部型的EASM偏强;在西部型和驻波型El Nino事件的衰减年,EASM偏强,而东部型的EASM正常。对于我国夏季降水,在西部型的发展年,华北、黄河中上游、洞庭湖与鄱阳湖流域以及华南部分地区降水偏少,而江淮流域降水偏多;在衰减年则相反。在驻波型的发展年,长江流域和华北北部降水显著偏少,华南、华北中部等地区降水偏多;在衰减年,四川盆地、华南等地区降水偏少,而长江流域、华北中部等地区降水偏多。在东部型的发展年,我国以少雨为主要特征,多雨区主要集中在四川盆地、黄淮流域;在衰减年,我国降水仍以干旱少雨为主要特征,多雨区主要位于华南、华北部分区域。 相似文献
4.
《高原气象》2020,(3)
采用西南120站逐月夏季降水,美国CPC年逐月Nino3.4指数,NCEP/NCAR逐月环流等资料,分析了ENSO事件的季节演变对西南夏季降水的影响及其机制。结果表明,ENSO事件衰减对西南降水有重要影响,这种影响主要由赤道中东太平洋海温影响菲律宾对流活动进而持续调制西太平洋副热带高压(简称西太副高)实现,与ENSO事件的结束季节有重要关联。在El Nino(La Nina)衰减年,随着事件结束时间从冬季向春、夏季推迟,赤道中东太平洋海温释放能量增大(减弱),西太副高向大强西南(小弱东北)的方向发展,加强(抑制)南海的水汽输送,影响着孟加拉湾水汽输送,从而影响西南降水异常分布,其显著区域随着事件结束季节的推迟而扩大,在El Nino衰减次年更为突出。依据能量累积释放效应,从前一年9月开始的逐月Nino3.4区累积海温能更好指示夏季西太副高的强弱和大小,当4-5月的累积海温超过±0.5时,与夏季副高面积、强度指数的符号一致率为100%。因此,能够依据累积海温判断夏季西太副高强弱、大小,从而判断西南夏季降水的异常趋势。 相似文献
5.
利用1979—2007年NOAA重建海温逐月资料和中国160站夏季降水资料,使用扩展奇异值分解(extended singular value decomposition,ESVD)方法,研究了冬季热带太平洋海温异常与次年夏季中国降水异常季节内演变型之间的关系,指出前冬El Nio事件是与次年夏季中国降水季节内变化相联系的最重要的热带太平洋海温异常模态。相应的降水异常季节内变化情况为:6月在长江以南为正异常,江淮流域有负异常;7月在华南沿海有负降水异常,而正异常北进到长江流域,华北地区也出现正降水异常;8月在长江南北分别为少雨和多雨。进一步研究前冬El Nio事件与次年春夏印度洋、太平洋海温异常、对流层低层风场异常以及副热带高压等的联系,结果表明:El Nio事件发生的次年春夏,热带西太平洋周边存在东负西正的海温异常分布;西太平洋反气旋异常较强;副高在6月、7月偏西偏北,但在8月迅速南退。虽然与El Nio事件相联系的6月与7月、8月的降水型不同,但是西太平洋反气旋异常带来的充沛水汽造成7月长江流域雨季多雨,8月副高迅速南退带来的又一次长江流域降水,造成了El Nio事件发生次年夏季长江流域涝而华南... 相似文献
6.
根据El Nino事件中正的海表面温度异常(sea surface temperature anomaly,简称SSTA)首先出现的区域及其传播特征,将El Nino事件分成3种类型,即东部型、西部型和驻波型.为了研究不同类型El Nino事件物理机制的差异,首先利用高分辨率全球海洋环流模式OPA9,对这3种不同类型的El Nino事件进行模拟.在逐月海表面风应力和热通量的驱动下,模式模拟出了1950-2005年问全球海温演变.模拟结果表明,模式可以很好地模拟出海洋的气候态,并且对El Nino事件期间的正SSTA首先出现的区域以及对正SSTA的传播特征都做出了很好的模拟,成功地模拟了不同El Nino事件的发展类型. 相似文献
7.
El Nio事件与番禺降水的相关性分析 总被引:9,自引:9,他引:0
采用X^2检验方法,统计分析番禺地面气象站1961~2006年的逐月降水资料与El Nino现象的关系。结果表明:两类El Nino事件与番禺年降水量有密切关系,Ⅰ类El Nino事件与番禺年降水量呈强的正相关,降水增加量平均为26.63%,而Ⅱ类El Nino事件与番禺年降水量呈负相关,降水减少量平均为11.46%。从季节分布来看,两类El Nino事件对锋面降水和季风过渡季节降水影响较小,而对汛期降水影响较大。两类事件对降水影响的差异主要通过西太平洋副高脊线位置的差异表现出来:Ⅰ类El Nino事件影响年,4~6月副高脊线位置较常年偏南,7、8月偏北;Ⅱ类El Nino事件影响年,4~6月副高脊线位置较常年偏北,7、8月偏南。 相似文献
8.
利用Godas的逐月混合层深度(MLD)和中国160站逐月降水资料,分析热带太平洋混合层深度的季节变化及年际异常特征,初步探讨混合层深度异常与中国夏季降水异常的相关关系。结果表明:(1)赤道地区,东太平洋区域混合层最浅,中太平洋区域最深,且北半球秋冬季混合层比春夏季深;热带西北和西南太平洋在冬半球混合层深,夏半球浅。(2)赤道中、西太平洋混合层深度的年际异常终年都为大值区,北半球春(秋)季的热带西北太平洋(西南太平洋)也为年际异常大值区;7月年际异常最弱。(3)1、4和10月热带太平洋混合层深度年际异常与ENSO事件关系密切,在El Nio事件期间,热带太平洋东部及东北部混合层深度加深,西部及西南部减小。(4)热带太平洋混合层深度异常与中国夏季降水异常关系密切,这一关系也反映了El Nio事件与中国夏季降水的关系。即当秋冬季节发生El Nio事件时,来年El Nio事件衰减期的夏季长江中下游以南特别是洞庭湖、鄱阳湖的降水将显著偏多,江淮、华南南部降水偏少。 相似文献
9.
10.
ENSO与青藏高原积雪的关系及其对我国夏季降水异常的影响 总被引:5,自引:2,他引:3
文章利用1979 2005年Nino3区海温时间序列资料和中国雪深时间序列资料,分析了Nino3区海温与青藏高原积雪之间的关系,两者对我国夏季降水的影响以及两者共同作用下对我国夏季降水的影响。分析结果表明:当前期冬春季Nino3区SST为强暖(强冷)事件与高原积雪显著偏多(显著偏少)共同作用的配置下,我国东部夏季雨带往往偏南(偏北)。从月时间尺度方面,揭示了前期冬春季ENSO和冬春季青藏高原积雪对我国长江以南地区降水异常的影响在夏季各月是不一致的,前期冬春季逐月Nino3区SST和冬春季逐月高原积雪对长江以南地区6月的降水都为正相关,而对8月的降水都为反相关,并且春季逐月Nino3区SST和冬春季逐月高原积雪对长江以南地区7月的降水也都为正相关,另外,春季Nino3区SST和春季高原积雪对长江以南地区6月和7月降水更为重要。 相似文献
11.
Numerical simulations of anomalies of precipitation and surface air temperature in china in the summer of 1997 总被引:1,自引:0,他引:1
1.IntroductionStatisticalstudiesdemonstratedthatinEINinoyearstheprecipitationinsummerintheChangjiangRiverandHuaiheRiverBasinsisprobablyabovethenormalwhileitispossiblybelowthenormalinthenorthernChinaandtheHetao(theGreatBendoftheHuangheRiver)region.ThetemperatureinsummerisusuallylowerthannormalinEastAsia,especiallyinNortheastChina.Therewere6yearswithseverelowtemperaturesince1951,andtheyare1954,1957,1964,1972,1976and1983,whichareallrelatedtotheEINinoyears(seeHuangetal.,1989,1992;Xiangand… 相似文献
12.
El Nio可通过海—气相互作用遥相关型影响东亚季风,进而影响中国气候,是中国短期气候最重要的预测指标之一。典型的El Nio事件通常在春、夏季开始,在秋、冬季成熟,在下一年的春、夏季消退,考虑到海—气作用的滞后效应,El Nio事件甚至可以在消退时期对东亚大气环流系统造成影响。因此,利用中国160站的逐月降水资料、NCEP/NCAR再分析资料以及美国NOAA提供的全球海温数据,对比分析了2015/2016年和1997/1998年典型El Nio衰减年我国夏季降水和东亚环流特征的差异,并讨论了造成差异的可能原因。结果表明:1)2016年和2008年夏季降水都大范围偏多,2016年夏季降水异常更为集中,但降水强度不及1998年。2)2016年降水的季节推进特征不明显。1998年6—8月的降水逐渐从南向北推进,与传统的季风降水演变进程较为一致。3)2016年和2008年我国夏季降水的差异与副热带高压的变化有直接的关系。1998年6—7月副热带高压较2016年同期偏西偏南,而2016年8月副热带高压更为偏西并明显比气候平均偏北。4)1997/1998年El Nio事件中的赤道西太平洋异常冷海温比较强盛,而2015/2016年基本表现为偏暖,可能是造成1998年6—7月副热带高压较2016年同期偏西偏南的原因。 相似文献
13.
In this study, we evaluate the fidelity of current climate models in simulating the two types of El Nino events using the pre-industrial output in CMIP3 archives. It is shown that a few climate models simulate the two types of El Nino events to some extent, while most of the models have serious systematic problems in simulating distinctive patterns of sea-surface temperature (SST) and precipitation anomaly associated with the two types of El Nino; that is, they tend to simulate a single type of El Nino. It is shown that the ability of climate models in simulating the two types of El Nino is related to the sensitivity of the atmospheric responses to the SST anomaly patterns. Models whose convective location is shifted to the east (west) as the SST anomaly center moves to the east (west) tends to simulate the two types of El Nino events successfully. On the other hand, models whose location of convective anomaly is confined over the western or central Pacific tends to simulate only the single type of El Nino event. It is also shown that the confinement of the convective anomaly over the western or central Pacific is closely linked to the dry bias and the associated cold bias over the eastern Pacific. That is, because positive El Nino SST anomalies over the eastern Pacific cannot increase local convection effectively when the total SSTs are still too cold due to a cold bias. This implies that the realistic simulation of climatology, especially over the equatorial eastern Pacific, is essential to the successful simulation of the two types of El Nino. 相似文献
14.
利用1979—2017年美国国家海洋和大气管理局(NOAA)重建海温逐月资料(ERSST V5)、气候预报中心(CPC)的Ni?o3.4指数、NCEP/NCAR再分析风场资料以及CMAP降水资料,将1979—2017年Ni?o3.4指数超过2 ℃的El Ni?o事件,定义为超强El Ni?o事件。根据超强El Ni?o事件的定义,从近40年(1979—2017年)选取出三个超强El Ni?o事件(1982—1983年、1997—1998年和2015—2016年)。首先运用海温距平资料,分析超强El Ni?o事件的多样性特征,然后根据这三个超强El Ni?o事件发生年与次年的夏季降水距平,讨论东亚夏季风降水对超强El Ni?o事件多样性的响应差异。研究表明,即使是同为超强的El Ni?o事件,由于其不同的分布特征,东亚夏季风降水的响应场表现出明显的不同。在此基础上,从环流异常、850 hPa风场异常以及副高的变化等方面讨论了这两者之间的联系。 相似文献
15.
利用1981-2017年云南125个站逐日降水观测资料和NCEP再分析资料,对比分析了两类El Nino事件期间云南冬季的降水差异,发现东部型El Nino有利于冬季云南大部地区降水显著偏多,而中部型El Nino的影响却不明显。进一步从两类事件相应的大气环流等方面分析了造成降水差异的物理原因。研究表明:(1)东部型El Nino年,Walker环流在西太平洋为异常强的下沉气流,西太平洋副热带高压偏强偏西,Hadley环流在20°N为异常上升气流,造成云南水汽输送和辐合加强,中高纬度巴尔喀什湖和贝加尔湖脊发展,冷空气沿高原东侧南下影响云南,冷暖空气在云南频繁交汇,导致云南冬季降水日数明显偏多,相应降水偏多;(2)中部型El Nino年,Walker环流在西太平洋下沉支强度较东部型弱,相应的西太平洋副热带高压较东部型偏弱偏东,Hadley环流在20°N为下沉气流,对云南区域水汽输送影响较弱,同时中高纬度环流不利于冷空气南下影响云南,除对应冬季云南东部降水日数偏少外,对其他地区降水的影响不明显。 相似文献
16.
The anomalous behavior of the western Pacific subtropical high (WPSH) in El Niño developing summer is studied based on the composite results of eight major El Niño events during 1979-2013. It is shown that the WPSH tends to retreat eastwards with weak intensity during the developing summer. The anomaly exhibits an intraseasonal variation with a weaker anomaly in June and July and a stronger anomaly in August, indicating that different underlying physical mechanisms may be responsible for the anomalous WPSH during early and late summer periods. In June and July, owing to the cold advection anomaly characterized as a weak northerly anomaly from high latitudes, geopotential height in East Asia is reduced and the WPSH tends to retreat eastwards slightly. By contrast, enhanced convection over the warm pool in August makes the atmosphere more sensitive to El Niño forcing. Consequently, a cyclonic anomaly in the western Pacific is induced, which is consistent with the seasonal march of atmospheric circulation from July to August. Accordingly, geopotential height in the western Pacific is reduced significantly, and the WPSH tends to retreat eastwards remarkably in August. Different from the developing summer, geopotential height in the decaying summer over East Asia and the western Pacific tends to enhance and extend northwards from June to August consistently, reaching the maximum anomaly in August. Therefore, the seasonal march plays an important role in the WPSH anomaly for both the developing and decaying summer. 相似文献
17.
VARIATIONS IN THE TELECONNECTION INTENSITY INDICES AND THEIR REMOTE RESPONSE TO THE EL NINO EVENTS IN THE NORTHERN HEMISPHERE* 
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下载免费PDF全文 In this study,the monthly and seasonal teleconnection intensity indices of the Pacific/North American(PNA),Western Atlantic(WA),Western Pacific(WP),Eastern Atlantic(EA) and Eurasian(EU) patterns for the period from 1951 through 1990 are calculated.On this basis,their climatic variations and the relationship between the five teleconnection intensity indices and the El Nino events are examined.It is noted that when El Nino is at its mature stage(winter),the weak WP pattern is mainly characteristic of the circulation and the strong PNA pattern is the next.In summer when El Nino occurs and develops,the strong EU,weak WP and weak WA patterns are the main characteristics without the PNA circulation anomalies.Finally,by the nonlinear mapping method a nonlinear mapping diagram is established for diagnosing El Nino using three summer teleeonuection intensity indices and May and August Southern Oscillation Indices(SOIs).Thus,the El Nino phenomenon occurring in 1991 is diagnosed.Besides,the winter atmospheric circulation of the 1991/1992 El Nino is found to be the weak WP pattern and the PNA pattern is also weak. 相似文献
18.
By using data of serially numbered typhoons in northwestern Pacific and NOAA OLR data and
NCEP/NCAR reanalysis data of wind field, based on the statistics and study of the relationship between the
calendar years with more (or fewer) summer typhoons and ENSO events, we compared the composites of OLR
eigenvectors and tropical summer wind fields during El Nino and La Nina events with more or fewer than
normal summer typhoons, respectively. The results show that, in summer, without remarkable systematic
anomalies of Mascarene High and Australia High in South Hemisphere, the anomaly of Walker circulation will
dominate and follow the rule of ENSO impacts to atmospheric circulation and typhoon frequency. Otherwise,
when systematic anomalies of Australia High appear during the El Nino events, circulation anomalies in the
South Hemisphere will dominate, and many more typhoons will occur. In 1999, which is a special year of La
Nina events, northward and eastward monsoon was induced by the stronger Mascarene High, and fewer
typhoons arose. The typhoon source are regions where weak vertical wind shear, warm pool in western Pacific
and the area with monsoon troughs are overlapping with each other. Finally, this paper analyzes and compares
the source locations and ranges of more (fewer) typhoons in the events of El Nino and La Nina, respectively. 相似文献
19.
The relationship between summer rainfall anomalies in northeast China and two types of El Ni?o events is investigated by using observation data and an AGCM. It is shown that, for different types of El Ni?o events, there is different rainfall anomaly pattern in the following summer. In the following year of a typical El Ni?o event, there are remarkable positive rainfall anomalies in the central-western region of northeast China, whereas the pattern of more rainfall in the south end and less rainfall in the north end of northeast China easily appears in an El Ni?o Modoki event. The reason for the distinct differences is that, associated with the different sea surface temperature anomalies (SSTA) along the equatorial Pacific, the large-scale circulation anomalies along east coast of East Asia shift northward in the following summer of El Ni?o Modoki events. Influenced by the anomalous anticyclone in Philippine Sea, southwesterly anomalies over eastern China strengthens summer monsoon and bring more water vapor to Northeast China. Meanwhile, convergence and updraft is strengthened by the anomalous cyclone right in Northeast China in typical El Ni?o events. These moisture and atmospheric circulation conditions are favorable for enhanced precipitation. However, because of the northward shift, the anomalous anticyclone which is in Philippine Sea in typical El Ni?o cases shifts to the south of Japan in Modoki years, and the anomalous cyclone which is in the Northeast China in typical El Ni?o cases shifts to the north of Northeast China, leading to the “dipole pattern” of rainfall anomalies. According to the results of numerical experiments, we further conform that the tropical SSTA in different types of El Ni?o event can give rise to observed rainfall anomaly patterns in Northeast China. 相似文献