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1.
两类ENSO事件前期的热带太平洋海温距平场 总被引:7,自引:2,他引:7
分析了1956年以来两类ENSO事件热带太平洋海温距平场的特征。结果指出,东部型ElNino事件前期为LaNina事件年,热带中东太平洋为强的海温负距平,东部型LaNina事件前期为ElNino事件年,热带中不太平洋为强的海温正距平,中部型ElNino事件前期热带中西太平洋多为明显的海温正距平,中部型LaNina事件前期热带东太平洋多为明显的海渐负距平。两类ENSO事件前期海温距平场特殊基本相反。 相似文献
2.
根据观测资料的研究指出春季北极涛动(Arctic Oscillation, AO)对随后冬季厄尔尼诺-南方涛动(El Nino–Southern Oscillation, ENSO)的影响具有明显不对称性。春季AO处于正位相时,它对随后冬季厄尔尼诺(El Nino)事件的影响显著,然而春季AO负位相对随后冬季拉尼娜(La Nina)的影响不明显。本研究分析了30个来自CMIP5的耦合模式对春季AO与随后冬季ENSO不对称性关系的模拟能力。30个CMIP5耦合模式中,只有CNRM-CM5和GISS-E2-H-CC模式能较好地抓住春季AO与冬季ENSO的联系。进一步分析这两个模式中春季AO与冬季ENSO的不对称性关系,发现CNRM-CM5模式能较好地再现春季AO与冬季ENSO的非对称关系,即春季AO正(负)位相会导致赤道中东太平洋出现El Nino(La Nina)型海表温度增暖(冷却)。然而,GISS-E2-H-CC模式的模拟结果显示,春季AO对随后冬季ENSO的影响是对称的。本文随后解释了CNRM-CM5(GISS-E2-H-CC)模式能(不能)模拟出春季AO与冬季ENSO不对称关系的原因。对于CNRMCM5模式,在春季AO正位相年,副热带西北太平洋上空存在明显的异常气旋和正降水异常,正降水异常通过Gill型大气响应对赤道西太平洋异常西风的形成和维持起着重要作用,异常西风通过激发向东传播的暖赤道Kelvin波对随后冬季El Nino事件的发生产生显著的影响;然而,在春季AO负位相年,副热带北太平洋的异常反气旋和负降水异常较弱,导致赤道西太平洋的异常东风不明显,因此,春季AO负异常对随后冬季La Nina的影响不显著。所以,CNRM-CM5模式能够较好地抓住春季AO对随后冬季ENSO事件的非对称性影响。相比之下,对于GISS-E2-H-CC模式,春季AO正(负)位相年副热带西北太平洋上存在显著的正(负)降水异常,通过Gill型大气响应在赤道西太平洋激发出明显的异常西(东)风从而影响随后冬季的El Nino(La Nina)事件。因此,在GISS-E2-H-CC模式中,春季AO对随后冬季ENSO具有对称性影响。另外,模式捕捉春季AO对随后冬季ENSO非对称性影响的能力与模式对春季AO空间结构的模拟能力有一定的联系。 相似文献
3.
利用热带太平洋地区 2层区域海洋模式和再分析资料探讨了大气 /海洋的季节背景对ENSO时间尺度上海温异常的增幅或减幅作用。结果表明 :不论什么季节背景下 ,就海洋变化而言 ,El Nino/La Nina事件均可存在 ,说明 El Nino/La Nina事件的存在和维持并没有季节性选择 ;模式海洋的西太平洋赤道地区次表层海水温度异常变化位相明显超前于东太平洋SSTA且在空间上自西向东传播 ,同时有位相超前的量还包括模式第 1层厚度异常及热容量异常 ,这些对 ENSO的预测和机制研究具有重要意义。 SSTA的振幅在不同的季节背景下可受到不同的调节。以春季为背景 ,同样的异常风应力作用于海洋 ,可使 NINO3区 SSTA较正常季节背景下该区的 SSTA振幅明显增大 ;而在冬季背景下可使 SSTA受到一定程度的减幅 ,这说明 El Nino/L a Nina现象的发生和消亡有季节选择倾向。与春季背景下 NINO 3区SSTA的增幅倾向相反 ,模式第 1层厚度异常的振幅则受到削弱。而西太平洋赤道地区 ,模式海洋混合层的厚度异常则有所增强。这种与 SSTA增 /减幅反相关的现象需要进一步研究 相似文献
4.
5.
利用1955-2000年热带、副热带太平洋地区次表层温度距平资料,构造了温度距平极值深度分布曲面图,它很接近20°温度面的深度分布,因此有理由认为这一深度曲面很接近热带温跃层的深度面。在温度距平极值深度曲面上,分析了20世纪60年代后期以来所有El Nino/La Nina事件正/负海温距平信号的分布和传播“轨迹”,发现如果以暖池次表层作为起点,则一般来说,暖水或冷水先是沿赤道极值深度面向东、向上传播或运动,到达赤道东太平洋海盆边界附近后,在那里停留几个月,然后转北运动,在北纬10度左右再折向西运动到西太平洋转向南返回到暖池,即在赤道北侧形成闭合回路。温度距平运动一圈需时2-4年。如果暖(冷)水的温度距平都很强,就会在2-4年的时间上出现两次相邻的El Nino(La Nina)事件,但可能是由于大气或海洋环境条件不合适,温度距平的强度在运动过程中有时会减弱,就不能形成El Nino(La Nina)事件,但暖(冷)水运动的“轨迹”仍可辨认。由于暖、冷水绕环路的运动交替出现,El Nino(La Nina)爆发前,在赤道西太平洋出现正(负)距平信号的同时,在东太平洋北纬10度左右会有负(正)距平信号出现,并且当正(负)距平信号向东传播时,负(正)距平信号向西传播,在赤道上表现为2-4年间隔的El Nino(La Nina)交 相似文献
6.
The data analyses indicated that the occurrence of EL Nino event is closely related to intraseasonal oscillation (ISO) in the tropical atmosphere: The intraseasonal oscillation is very strong in tile tropics (particularly over the equatorial western Pacific) prior to the occurrence of El Nino; But the ISO is evidently reduced and the quasistationary system is enhanced after the outbreak of El Nino. A simple air-sea coupled model study shows that the periodical self-excited oscillation can be produced in the air-sea-coupled system, but the pattern is different from the observed ENSO mode. When there is external (atmospheric) forcing with interannual time scale, a coupled mode, which looks like the ENSO mode, will be excited in the air-sea system. Synthesizing the results in data analyses and the theoretical investigation. the mechanism of ISO in the tropical atmosphere exciting the El Nino event can be suggested : The interannual anomalies (variations) of the tropical ISO play an important role in the exciting El Nino event through the air-sea interaction. 相似文献
7.
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
8.
热带西太平洋海温变化及其与赤道东太平洋海温变化的关系 总被引:2,自引:0,他引:2
利用1951-1988年10°S-50°N太平洋的SST资料对热带西太平洋海表温度的变化及其与赤道东太平洋海表温度变化的关系进行了分析,发现热带西太平洋SST存在准两年周期的变化。这种变化与ENSO活动相联系:El Nino年的SST距平值位于谷值;反El Nino年的SST距平值位于峰值。热带西太平洋与赤道东太平洋的SST变化存在弱的反相关关系。两者间存在位相差,前者的变化比后者超前几个月甚至1 相似文献
9.
Complex Singular Value Decomposition(CSVD)analysis technique was applied to study theQuasi Four year Oscillation(QFO)of air sea interaction and its coupled pattern evolution duringdifferent phases.Results show that:(1)CSVD method can better reveal phase relation betweentwo physical fields:(2)Not only northerly anomalies from Northern Hemisphere but alsosoutherly anomalies from Southern Hemisphere contribute to EI Nino.They converge in westernequatorial Pacific,leading to outburst of strong equatorial westerly anomalies,and result in strongEl Nino event onset:(3)An abnormal subtropical anticyclone circulation appears overnorthwestern Pacific while El Nino developing.It favors transitions from the warm SST(EINino)to the cold SST(La Nina),just as the tropical westerly anomalies produced by abnormalcyclone during a decaying La Nina.which encourage the development of El Nino:(4)Thewesterly anomalies in equatorial Pacific are mainly induced by eastward abnormal subtropicalcyclone pairs,which are located in north and south Pacific respectively,and are not the eastwardwesterly anomalies from equatorial Indian Ocean. 相似文献
10.
RELATIONSHIP BETWEEN WEST PACIFIC SUBTROPICAL HIGH AND ENSO AND ITS INFLUENCE ON RAINFALL DISTRIBUTION OF RAINY SEASON IN FUJIAN 总被引:1,自引:1,他引:1
1INTRODUCTIONInsummarizingclimotologicalfactorsforprecipitationintherainingseasonsofChina,Lietal.presentedfiveanomaliesthatcouldaffecttheseasonalprecipitation,namely,SSTintheequatorialeasternPacific,thermalconditionsovertheQinghai-TibetanPlateau,Asianmonsoon,mid-latitudeblockinghighandWestPacificsubtropicalhigh.NotonlysubjecttothedirecteffectofmaritimethermalconditionsoftheWestPacific,thesubtropicalhighisalsoinfluencedbythegeneralcirculationandunderlyingsurfacefromtheotherfourfactors… 相似文献
11.
Abstract Teleconnections between sea surface temperature (SST) anomalies over the Pacific and the dominant patterns of wintertime Northern Hemisphere 500‐hPa height are examined by applying statistical techniques such as rotated principal component analysis and composite analysis. It is shown that the Pacific/North American (PNA) patterns in December through March are correlated most significantly with the ENSO‐related SST anomalies in the previous October, while the western Pacific (WP) patterns in December through February are most closely linked to the ENSO‐related SST anomalies in the same season. In addition, the PNA response to the ENSO signal during La Niña events is more significant than that during El Niño events, while the WP response is stronger during El Niño events than during La Niña events. A composite analysis shows that in the El Niño winters the North Pacific centre of the PNA pattern is located about 10 degrees east of its normal position, leading to a less significant correlation between the ENSO signal and the PNA pattern in these winters. The ENSO‐related SST anomalies include a large centre of action over the tropical Pacific and an oppositely signed anomaly centre over the North Pacific. The North Pacific centre appears to the west of the dateline in September and October. This ENSO‐related seed of SST anomalies slowly moves eastward in the following months, gradually cutting off its connection with SST anomalies over the tropical Pacific and being coupled with the PNA pattern. It is pointed out that, although the wintertime SST anomaly over the North Pacific may appear as a mode linearly independent of the ENSO signal in the same season, it is partially related to the ENSO signal in the preceding autumn. Possible dynamical explanations of the above results are discussed. It is suggested that the WP pattern can be linked to the tropical Pacific heat source via advection of vorticity by the upper‐tropospheric divergent/convergent flow, and the intensification of vorticity gradients associated with a stronger east Asian jet is likely to be responsible for a more significant WP pattern response to the ENSO signal in the El Niño winters. On the other hand, the ENSO‐related PNA pattern could be considered a manifestation of the eastward extension (El Niño) or westward withdrawal (La Niña) of the east Asian jet stream due to the local Hadley cell over the Pacific. In addition, the ENSO‐related seed of extratropical SST anomaly over the western Pacific in autumn may also play an important role in the development of the PNA pattern in the following winter. 相似文献
12.
Complex Singular Value Decomposition(CSVD)analysis technique was applied to study the Quasi Four year Oscillation(QFO)of air sea interaction and its coupled pattern evolution during different phases.Results show that:(1)CSVD method can better reveal phase relation between two physical fields:(2)Not only northerly anomalies from Northern Hemisphere but also southerly anomalies from Southern Hemisphere contribute to EI Nino.They converge in western equatorial Pacific,leading to outburst of strong equatorial westerly anomalies,and result in strong El Nino event onset:(3)An abnormal subtropical anticyclone circulation appears over northwestern Pacific while El Nino developing.It favors transitions from the warm SST(EINino)to the cold SST(La Nina),just as the tropical westerly anomalies produced by abnormal cyclone during a decaying La Nina.which encourage the development of El Nino:(4)The westerly anomalies in equatorial Pacific are mainly induced by eastward abnormal subtropical cyclone pairs,which are located in north and south Pacific respectively,and are not the eastward westerly anomalies from equatorial Indian Ocean. 相似文献
13.
热带太平洋西风异常对ENSO事件发生的作用 总被引:6,自引:5,他引:6
本文从观测资料对80年代两次ENSO事件产生过程中,热带太平洋西风异常及其对赤道中、东太平洋表层海温增暖的作用进行了分析和比较。分析结果表明:在这两次ENSO事件的产生过程中,赤道西太平洋上空均有较大的西风异常,并且它由赤道西太平洋向赤道中、东太平洋传播,随着西风异常从西向东传播,赤道中、东太平洋的表层相继增温。分析还表明,1982/1983年ENSO事件发生过程中,热带太平洋西风异常的强度要比1986/1987年热带太平洋西风异常强得多,这使得1982/1983 ENSO事件的强度比1986/1987_ENSO事件强得多。为了说明热带西太平洋西风异常对赤道中、东太平洋ENSO事件发生的作用,本文还利用IAP太平洋环流模式对西风异常在ENSO事件产生过程中的作用进行了数值模拟。模拟的结果说明了热带太平洋的西风异常对赤道太平洋暖水的向东传播和赤道中、东太平洋的增温起了很重要作用,这与观测事实分析一致。 相似文献
14.
Harry H. Hendon Eun-Pa Lim Julie M. Arblaster David L. T. Anderson 《Climate Dynamics》2014,42(5-6):1155-1174
In 2010 eastern Australia received its highest springtime (September–November) rainfall since 1900. Based on historical relationships with sea surface temperatures (SST) and other climate indices, this record rainfall in 2010 was shown to be largely commensurate with the occurrence of a very strong La Niña event and an extreme positive excursion of the SAM. The pattern and magnitude of the tropical SST anomalies in austral spring 2010 were diagnosed to be nearly perfect to produce high rainfall across eastern Australia. Key aspects of this SST pattern were the strong cold anomaly in the central equatorial Pacific, and the strong warm anomalies in the eastern Indian Ocean and the far western Pacific to the north of Australia. Although the recent upward trend in SSTs in the western Pacific/eastern Indian Ocean warm pool accounted for about 50 % of the SST anomaly surrounding northern Australia in 2010, the contribution by the warming trend in these SSTs to the Australian rainfall anomaly in 2010 was assessed to be relatively modest. The strong positive swing in SAM was estimated to have accounted for upwards of 40 % of the regional anomaly along the central east coastal region and about 10 % of the area mean anomaly across eastern Australia. This contribution by the SAM suggests that a significant portion of the rainfall in 2010 may not have been seasonally predictable. However, predictability arising from the promotion of high SAM by the extreme La Nina event can not be ruled out. 相似文献
15.
In the summers of 2003 and 2007, eastern China suffered similar climate disasters with
severe flooding in the Huaihe River valley and heat waves in the southern Yangtze River delta and
South China. Using SST data and outgoing longwave radiation (OLR) data from NOAA along with
reanalysis data from NCEP/NCAR, the 2002/03 and 2006/07 El Nino episodes in the central Pacific
and their delayed impacts on the following early summertime climate anomalies of eastern China
were analyzed. The possible physical progresses behaved as follows: Both of the moderate El Nino
episodes matured in the central equatorial Pacific during the early winter. The zonal wind anomalies
near the sea surface of the west-central equatorial Pacific excited equatorial Kelvin waves
propagating eastward and affected the evolution of the El Ni\~no episodes. From spring to early
summer, the concurring anomalous easterly winds in the central equatorial Pacific and the end
of upwelling Kelvin waves propagating eastward in the western equatorial Pacific, favored the
equatorial warm water both of the SST and the subsurface temperature in the western Pacific.
These conditions favored the warm state of the western equatorial Pacific in the early summer
for both cases of 2003 and 2007. Due to the active convection in the western equatorial Pacific
in the early summer and the weak warm SST anomalies in the tropical western Pacific from spring
to early summer, the convective activities in the western Pacific warm pool showed the pattern
in which the anomalous strong convection only appeared over the southern regions of the tropical
western Pacific warm pool, which effects the meridional shift of the western Pacific subtropical
high in the summer. The physical progress of the delayed impacts of the El Ni\~no episodes in the
central equatorial Pacific and their decaying evolution on the climate anomalies in eastern China
were interpreted through the key role of special pattern for the heat convection in the tropical
western Pacific warm pool and the response of the western North Pacific anomalous anticyclone. 相似文献
16.
关于ENSO本质的进一步研究 总被引:28,自引:5,他引:23
基于ENSO是热带太平洋海气相互作用产物的科学观点,一系列的分析研究表明:赤道太平洋次表层海温异常(SOTA)有明显的年际变化(循环),并且与ENSO发生密切相关;ENSO的真正源区在赤道西太平洋暖池,赤道西太平洋暖池正(负)SOTA沿赤道温跃层东传到东太平洋,导致El Nino(La Nina)的爆发;在暖池正(负)SOTA沿赤道温跃层东传的同时,将有负(正)SOTA沿10°N和10°S两个纬度带向西传播,从而构成SOTA的循环;热带太平洋SOTA年际循环的驱动者主要是由异常东亚季风所引起的赤道西太平洋纬向风的异常.进而,可以提出关于ENSO本质的一种新理论,即ENSO实质上主要是由异常东亚季风引起的赤道西太平洋异常纬向风所驱动的热带太平洋次表层海温距平的年际循环.
相似文献
17.
Summary In this paper, we first examine the relationship of El Nino and La Nina events with the westerly wind anomalies over the
western Pacific warm pool. On this basis, the roles of the Asian and Australian winter monsoons in the formation and progress
of the westerly wind anomalies are studied. Finally, we analyze the associations of the Asian and Australian winter monsoons,
the westerly wind anomalies and the El Nino and La Nina alternations with the propagating anomalies of the Southern and Northern
Oscillation.
The results show that the westerly wind bursts are frequent over the Maritime Continent and western Pacific, only those which
can further intensify and propagate eastward are accompanied by an El Nino event. It is identified that the establishment
and eastward propagation of westerly wind bursts are related to enhanced East Asian and Australian winter monsoon, respectively.
The activities of the East Asian and Australian winter monsoon, the variation of the Pacific westerly and trade winds and
the alternate appearance of El Nino and La Nina events should be internally connected. The main agents of this relationship
are the eastward propagation of alternate positive and negative height anomalies associated with the Southern and Northern
Oscillation on a 3–5 year time scale over the south and north tropical Pacific.
Received January 4, 1998/Revised January 19, 1999 相似文献
18.
太阳活动11年周期对ENSO事件海温异常演变和东亚降水的影响 总被引:5,自引:3,他引:2
本文利用美国NCEP/NCAR再分析资料、海温、降水和反映太阳活动强弱的太阳10.7 cm射电流量资料,研究了1952~2010年太阳活动11年周期对ENSO年海温异常演变以及与之相联系的东亚降水的影响,在此基础上着重分析了ENSO发展期秋季东亚地区降水异常对太阳射电流量高(HS)/低(LS)的不同响应以及相关的物理过... 相似文献
19.
Interannual variations of the Bay of Bengal summer monsoon (BOBSM) onset in association with El Ni?o?Southern Oscillation (ENSO) are reexamined using NCEP1, JRA-55 and ERA20C atmospheric and Hadley sea surface temperature (SST) reanalysis datasets over the period 1900?2017. Decadal changes exist in the dependence of the BOBSM onset on ENSO, varying with the Pacific Decadal Oscillation (PDO). A higher correlation between the BOBSM onset and ENSO arises during the warm PDO epochs, with distinct late (early) onsets following El Ni?o (La Ni?a) events. In contrast, less significant correlations occur during the cold PDO epochs. The mechanism for the PDO modulating the ENSO?BOBSM onset relationship is through the variations in SST anomaly (SSTA) patterns. During the warm PDO epochs, the superimpositions of the PDO-related and ENSO-related SSTAs lead to the SSTA distribution of an El Ni?o (La Ni?a) event exhibiting significant positive (negative) SSTAs over the tropical central?eastern Pacific and Indian Ocean along with negative (positive) SSTAs, especially over the tropical western Pacific (TWP), forming a strong zonal interoceanic SSTA gradient between the TWP and tropical Indian Ocean. Significant anomalous lower tropospheric easterlies (westerlies) together with upper-tropospheric westerlies (easterlies) are thus induced over the BOB, favoring an abnormally late (early) BOBSM onset. During the cold PDO epochs, however, the superimpositions of PDO-related SSTAs with El Ni?o-related (La Ni?a-related) SSTAs lead to insignificant SSTAs over the TWP and a weak zonal SSTA gradient, without distinct circulation anomalies over the BOB favoring early or late BOBSM onsets. 相似文献
20.
Cross-season relation of the South China Sea precipitation variability between winter and summer 总被引:3,自引:1,他引:2
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