Simulation of state-dependent high-frequency atmospheric variability associated with ENSO   总被引：1，自引：1，他引：0  

Jong-Seong Kug  K. P. Sooraj  Daehyun Kim  In-Sik Kang  Fei-Fei Jin  Yukari N. Takayabu  Masahide Kimoto 《Climate Dynamics》2009,32(5):635-648

High-frequency atmospheric variability depends on the phase of El Nino/Southern Oscillation (ENSO). Recently, there is increasing evidence that state-dependent high-frequency atmospheric variability significantly modulates ENSO characteristics. Hence, in this study, we examine the model simulations of high-frequency atmospheric variability and, further, its dependency on the El Nino phase, using atmospheric and coupled GCMs (AGCM and CGCM). We use two versions of physical packages here—with and without convective momentum transport (CMT)—in both models. We found that the CMT simulation gives rise to a large climatological zonal wind difference over the Pacific. Also, both the climate models show a significantly improved performance in simulating the state-dependent noise when the CMT parameterization is implemented. We demonstrate that the better simulation of the state-dependent noise results from a better representation of anomalous, as well as climatological, zonal wind. Our further comparisons between the simulations, demonstrates that low-frequency wind is a crucial factor in determining the state-dependency of high-frequency wind variability. Therefore, it is suggested that the so-called state-dependent noise is directly induced by the low-frequency wind anomaly, which is caused by SST associated with ENSO.  相似文献   

ENSO phase-locking to the boreal winter in CMIP3 and CMIP5 models     

Yoo-Geun Ham  Jong-Seong Kug 《Climate Dynamics》2014,43(1-2):305-318

In this study, the El Nino-Southern Oscillation (ENSO) phase-locking to the boreal winter in CMIP3 and CMIP5 models is examined. It is found that the models that are poor at simulating the winter ENSO peak tend to simulate colder seasonal-mean sea-surface temperature (SST) during the boreal summer and associated shallower thermocline depth over the eastern Pacific. These models tend to amplify zonal advection and thermocline depth feedback during boreal summer. In addition, the colder eastern Pacific SST in the model can reduce the summertime mean local convective activity, which tends to weaken the atmospheric response to the ENSO SST forcing. It is also revealed that these models have more serious climatological biases over the tropical Pacific, implying that a realistic simulation of the climatological fields may help to simulate winter ENSO peak better. The models that are poor at simulating ENSO peak in winter also show excessive anomalous SST warming over the western Pacific during boreal winter of the El Nino events, which leads to strong local convective anomalies. This prevents the southward shift of El Nino-related westerly during boreal winter season. Therefore, equatorial westerly is prevailed over the western Pacific to further development of ENSO-related SST during boreal winter. This bias in the SST anomaly is partly due to the climatological dry biases over the central Pacific, which confines ENSO-related precipitation and westerly responses over the western Pacific.  相似文献   

The Role of the Asian/Australian Monsoons and the Southern/Northern Oscillation in the ENSO Cycle     

L. Chen  R. Wu 《Theoretical and Applied Climatology》2000,65(1-2):37-47

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   

A NUMERICAL SIMULATION OF THE EFFECT OF GLOBAL SSTA ON THE LOW-LEVEL ATMOSPHERIC CIRCULATION AND PRECIPITATION ANOMALIES     

You Xingtian  Qian Weihong  Zou Yueren 《Acta Meteorologica Sinica》1998,12(3):300-310

By the numerical simulation,the sea surface temperature anomaly(SSTA)of the Pacific andIndian Oceans.being introduced into IAP AGCM,the observed anomalous circulationcharacteristics on the monthly mean 850 hPa have been confirmed:during an El Nino episode thereappears anomalous westerly flow in the low-level atmosphere over the low-latitude Pacific and theanomalous equatorward air flow over the Southeast Asia coast:during a La Nina episode thereappears anomalous easterly flow in the low-level atmosphere over the low-latitude Pacific and theanomalous off-equator air flow over the Southeast Asia coast.If we introduce only Pacific SSTAinto or take off orographic forcing from the model,the simulated anomalous air flow in the low-level atmosphere over the low latitudes will be different.The precipitation departure in conformitywith the observation over the low latitudes has been simulated with this model as well.  相似文献   

A mechanism for decadal changes of ENSO behavior: roles of background wind changes   总被引：2，自引：0，他引：2  

B. Wang  S. An 《Climate Dynamics》2002,18(6):475-486

This study explains why a number of El Nino properties (period, amplitude, structure, and propagation) have changed in a coherent manner since the late 1970s and why these changes had almost concurred with the Pacific decadal climate shift. Evidence is presented to show that from the pre-shift (1961-1975) to the post-shift (1981-1995) epoch, significant changes in the tropical Pacific are found in the surface winds and temperature, whereas changes in the thermocline are uncertain. Numerical experiments with the Cane and Zebiak model demonstrate that the decadal changes in the surface winds qualitatively reproduce the observed coherent changes in El Nino properties. The fundamental factor that altered the model's El Nino is the decadal changes of the background equatorial winds and associated upwelling. The annual cycle is also necessary for the mean state to modulate El Nino. From the pre- to post-shift epoch, the changes in the background winds and upwelling modify the structure of the coupled mode (eastward displacement of the equatorial westerly anomalies) by reallocating anomalous atmospheric heating and SST gradient along the equator. This structural change amplifies the ENSO cycle and prolongs the oscillation period by enhancing the coupled instability and delaying transitions from a warm to a cold state or vice versa. The changes in the mean currents and upwelling reduce the effect of the zonal temperature advection while enhance that of the vertical advection; thus, the prevailing westward propagation is replaced by eastward propagation or standing oscillation. Our results suggest a critical role of the atmospheric bridge that rapidly conveys the influences of extratropical decadal variations to the tropics, and the possibility that the Pacific climate shift might have affected El Nino properties in the late 1970s by changing the background tropical winds and the associated equatorial upwelling.  相似文献   

三类厄尔尼诺事件对东亚大气环流及中国东部次年夏季降水的影响          下载免费PDF全文

李丽平  宋哲  吴楠 《大气科学学报》2015,38(6):753-765

利用全球海表温度(SST)资料、ONI(Oceanic Nino Index)序列以及中国160站逐月降水资料,研究了不同类型El Nino事件的主要特征及其对东亚大气环流及中国东部次年夏季逐月及季节降水的影响。结果表明:1)据El Nino事件期间SST最大正异常所在区域,将El Nino事件分为Nino3、Nino4和Nino3.4型。2)El Nino事件次年6月,Nino3型时降水显著正异常区主要位于鄱阳湖和洞庭湖流域,Nino4型时位于鄱阳湖流域、桂粤湘三省交界及广西西部,Nino3.4型时位于洞庭湖流域。7月Nino3型降水显著正异常区北移至长江流域,8月则呈西多东少反相分布。从次年6月至8月,Nino4型降水显著正异常区逐渐北移,Nino3.4型降水显著正异常区则从南到北再移向东北。3)在整个次年夏季,Nino3、Nino4和Nino3.4型降水显著正异常区在中国东部呈自南向北分布。无论逐月或季节降水,均是Nino4型降水正异常最强、Nino3.4型最弱。4)不同类型事件次年夏季和各月环流特征存在一定差异,总体而言,对于南亚高压,Nino3型、Nino4型事件后呈偏强、东伸和北抬的特点,且后者较前者时更强;Nino3.4型事件后主要呈减弱、西退特征。对于西太平洋副热带高压,Nino3型、Nino4型事件后主要呈偏强、西伸、北抬特征,后者较前者更强,西伸、北抬也更明显;Nino3.4型后,副高以东撤、北抬特征为主。  相似文献   

The Role of the Halted Baroclinic Mode at the Central Equatorial Pacific in El Nino Event     

孙即霖  Peter CHU  刘秦玉 《大气科学进展》2006,(1)

The role of halted "baroclinic modes" in the central equatorial Pacific is analyzed. It is found that dominant anomaly signals corresponding to "baroclinic modes" occur in the upper layer of the equatorial Pacific, in a two-and-a-half layer oceanic model, in assimilated results of a simple OGCM and in the ADCP observation of TAO. A second "baroclinic mode" is halted in the central equatorial Pacific corresponding to a positive SST anomaly while the first "baroclinic mode" propagates eastwards in the eastern equatorial Pacific. The role of the halted second "baroclinic mode" in the central equatorial Pacific is explained by a staged ocean-atmosphere interaction mechanism in the formation of El Nino: the westerly bursts in boreal winter over the western equatorial Pacific generate the halted second "baroclinic mode" in the central equatorial Pacific, leading to the increase of heat content and temperature in the upper layer of the central Pacific which induces the shift of convection from over the western equatorial Pacific to the central equatorial Pacific; another wider, westerly anomaly burst is induced over the western region of convection above the central equatorial Pacific and the westerly anomaly burst generates the first "baroclinic mode" propagating to the eastern equatorial Pacific, resulting in a warm event in the eastern equatorial Pacific. The mechanism presented in this paper reveals that the central equatorial Pacific is a key region in detecting the possibility of ENSO and, by analyzing TAO observation data of ocean currents and temperature in the central equatorial Pacific, in predicting the coming of an El Nino several months ahead.  相似文献   

How well do current climate models simulate two types of El Nino?     

Yoo-Geun Ham  Jong-Seong Kug 《Climate Dynamics》2012,39(1-2):383-398

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   

国家气候中心两个CMIP6模式模拟的东亚夏季风的季节内演变     

张潇潇  薛峰  董啸  林壬萍 《气候与环境研究》2022,27(6):729-746

分析了国家气候中心两个参加第六次国际耦合模式比较计划（CMIP6）的模式BCC-CSM2-MR和BCC-ESM1对东亚夏季风季节内演变的模拟情况,包括气候态特征以及在ENSO（El Ni?o and Southern Oscillation）循环不同位相下的特征。本文同时对比分析了观测海温海冰驱动大气环流模式试验（AMIP试验）以及耦合模式的历史气候模拟试验（Historical试验）的结果。结果表明,模式能够合理地模拟出东亚夏季风环流和降水的气候态特征。相比大气模式,耦合模式能够明显改善对气候态的模拟,特别是耦合模式能够较好地模拟出副热带高压从6～8月向北以及向东移动的季节内演变特征。对于El Ni?o衰减年和La Ni?a年合成来说,大气模式能够在一定程度上模拟出El Ni?o衰减年（La Ni?a年）副高偏西（东）、对流减弱（增强）的特征,但是对于位置和强度的模拟存在偏差,特别是对于其季节内尺度的演变。耦合模式相比大气模式来说,并没有改善对于ENSO循环影响东亚夏季风季节内演变的模拟,这可能和耦合模式模拟的ENSO本身的偏差有关。因此要想改善对于东亚夏季风季节内演变及其年际差异的模拟,除了考虑海气相互作用之外,还需要改进模式对于ENSO的模拟效果。  相似文献   

CMIP5模式对春季北极涛动影响后期冬季ENSO不对称性的模拟能力分析     

郑玉琼  陈文  陈尚锋 《大气科学》2020,44(2):435-454

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   

Impact of Surface Sensible Heating over the Tibetan Plateau on the Western Pacific Subtropical High: A Land–Air–Sea Interaction Perspective   总被引：3，自引：0，他引：3  

Anmin DUAN  Ruizao SUN  Jinhai HE 《大气科学进展》2017,34(2):157-168

The impact of surface sensible heating over the Tibetan Plateau(SHTP) on the western Pacific subtropical high(WPSH)with and without air–sea interaction was investigated in this study. Data analysis indicated that SHTP acts as a relatively independent factor in modulating the WPSH anomaly compared with ENSO events. Stronger spring SHTP is usually followed by an enhanced and westward extension of the WPSH in summer, and vice versa. Numerical experiments using both an AGCM and a CGCM confirmed that SHTP influences the large-scale circulation anomaly over the Pacific, which features a barotropic anticyclonic response over the northwestern Pacific and a cyclonic response to the south. Owing to different background circulation in spring and summer, such a response facilitates a subdued WPSH in spring but an enhanced WPSH in summer. Moreover, the CGCM results showed that the equatorial low-level westerly at the south edge of the cyclonic anomaly brings about a warm SST anomaly(SSTA) in the equatorial central Pacific via surface warm advection.Subsequently, an atmospheric Rossby wave is stimulated to the northwest of the warm SSTA, which in turn enhances the atmospheric dipole anomalies over the western Pacific. Therefore, the air–sea feedbacks involved tend to reinforce the effect of SHTP on the WPSH anomaly, and the role of SHTP on general circulation needs to be considered in a land–air–sea interaction framework.  相似文献   

Sensitivity of ENSO characteristics to a new interactive flux correction scheme in a coupled GCM     

J��rgen Kr?ger  Fred Kucharski 《Climate Dynamics》2011,36(1-2):119-137

A fast coupled global climate model (CGCM) is used to study the sensitivity of El Ni?o Southern Oscillation (ENSO) characteristics to a new interactive flux correction scheme. With no flux correction applied our CGCM reveals typical bias in the background state: for instance, the cold tongue in the tropical east Pacific becomes too cold, thus degrading atmospheric sensitivity to variations of sea surface temperature (SST). Sufficient atmospheric sensitivity is essential to ENSO. Our adjustment scheme aims to sustain atmospheric sensitivity by counteracting the SST drift in the model. With reduced bias in the forcing of the atmosphere, the CGCM displays ENSO-type variability that otherwise is absent. The adjustment approach employs a one-way anomaly coupling from the ocean to the atmosphere: heat fluxes seen by the ocean are based on full SST, while heat fluxes seen by the atmosphere are based on anomalies of SST. The latter requires knowledge of the model??s climatological SST field, which is accumulated interactively in the spin-up phase (??training??). Applying the flux correction already during the training period (by utilizing the evolving SST climatology) is necessary for efficiently reducing the bias. The combination of corrected fluxes seen by the atmosphere and uncorrected fluxes seen by the ocean implies a restoring mechanism that counteracts the bias and allows for long stable integrations in our CGCM. A suite of sensitivity runs with varying training periods is utilized to study the effect of different levels of bias in the background state on important ENSO properties. Increased duration of training amplifies the coupled sensitivity in our model and leads to stronger amplitudes and longer periods of the Nino3.4 index, increased emphasis of warm events that is reflected in enhanced skewness, and more pronounced teleconnections in the Pacific. Furthermore, with longer training durations we observe a mode switch of ENSO in our model that closely resembles the observed mode switch related to the mid-1970s ??climate shift??.  相似文献   

Interdecadal Modulation of AMO on the Winter North Pacific Oscillation-Following Winter ENSO Relationship     

Shangfeng CHEN  Linye SONG  Wen CHEN 《大气科学进展》2019,36(12):1393-1403

It is known that the wintertime North Pacific Oscillation (NPO) is an important extratropical forcing for the occurrence of an El Ni?o?Southern Oscillation (ENSO) event in the subsequent winter via the “seasonal footprinting mechanism” (SFM). This study reveals that the Atlantic Multidecadal Oscillation (AMO) can notably modulate the relationship between the winter NPO and the following winter ENSO. During the negative AMO phase, the winter NPO has significant impacts on the following winter ENSO via the SFM. In contrast, the influence of the winter NPO on ENSO is not robust at all during the positive AMO phase. Winter NPO-generated westerly wind anomalies over the equatorial western Pacific during the following spring are much stronger during negative than positive AMO phases. It is suggested that the AMO impacts the winter NPO-induced equatorial westerly winds over the western Pacific via modulating the precipitation climatology over the tropical central Pacific and via modulating the connection of the winter NPO with spring sea surface temperature in the tropical North Atlantic.  相似文献   

ENSO teleconnections in projections of future climate in ECHAM5/MPI-OM   总被引：1，自引：1，他引：0  

W. A. Müller  E. Roeckner 《Climate Dynamics》2008,31(5):533-549

The teleconnections of the El Niño/Southern Oscillation (ENSO) in future climate projections are investigated using results of the coupled climate model ECHAM5/MPI-OM. For this, the IPCC SRES scenario A1B and a quadrupled CO₂ simulation are considered. It is found that changes of the mean state in the tropical Pacific are likely to condition ENSO teleconnections in the Pacific North America (PNA) region and in the North Atlantic European (NAE) region. With increasing greenhouse gas emissions the changes of the mean states in the tropical and sub-tropical Pacific are El Niño-like in this particular model. Sea surface temperatures in the tropical Pacific are increased predominantly in its eastern part and redistribute the precipitation further eastward. The dynamical response of the atmosphere is such that the equatorial east–west (Walker) circulation and the eastern Pacific inverse Hadley circulation are decreased. Over the subtropical East Pacific and North Atlantic the 200 hPa westerly wind is substantially increased. Composite maps of different climate parameters for positive and negative ENSO events are used to reveal changes of the ENSO teleconnections. Mean sea level pressure and upper tropospheric zonal winds indicate an eastward shift of the well-known teleconnection patterns in the PNA region and an increasing North Atlantic oscillation (NAO) like response over the NAE region. Surface temperature and precipitation underline this effect, particularly over the North Pacific and the central North Atlantic. Moreover, in the NAE region the 200 hPa westerly wind is increasingly related to the stationary wave activity. Here the stationary waves appear NAO-like.  相似文献   

On the Mechanism of the Locking of the El Nino Event Onset Phase to Boreal Spring     

YAN Bangliang 《大气科学进展》2005,22(5):741-750

The mechanism of the locking of the E1 Nino event onset phase to boreal spring （from April to June） in an intermediate coupled ocean-atmosphere model is investigated. The results show that the seasonal variation of the zonal wind anomaly over the equatorial Pacific associated with the seasonal variation of the ITCZ is the mechanism of the locking in the model. From January to March of the E1 Nino year, the western wind anomaly over the western equatorial Pacific can excite the downwelling Kelvin wave that propagates eastward to the eastern and middle Pacific by April to June. From April to December of the year before the E1 Nifio year, the eastern wind anomaly over the equatorial Pacific forces the downwelling Rossby waves that modulate the ENSO cycle. The modulation and the reflection at the western boundary modulate the time of the transition from the cool to the warm phase to September of the year before the E1 Nifio year and cause the strongest downwelling Kelvin wave from the reflected Rossby waves at the western boundary to arrive in the middle and eastern equatorial Pacific by April to June of the E1 Nino year. The superposition of these two kinds of downwelling Kelvin waves causes the El Nino event to tend to occur from April to June.  相似文献   

赤道印度洋—太平洋海面经向风的年际低频振荡   总被引：1，自引：0，他引：1       下载免费PDF全文

丁一汇吕竞夕  高士英 《应用气象学报》1990,1(1):2-11

通过对COADS1950—1979年海面经向风和海温资料的分析，本文探讨了印度洋—太平洋近赤道地区经向风的长期变化特征及其与厄尼诺发生发展间的关系。结果表明:（1）热带太平洋辐合带系统与海温具有相同的季节变化趋势，冬季赤道辐合带和高海温位于南半球，夏季位于北半球。厄尼诺年经向风发生异常，近赤道地区出现强烈的经向风辐合。（2）近赤道经向风存在准2年（QBO），准3.5年（SO）和准5年（FYO）3种年际低频振荡。QBO对厄尼诺年经向风异常起着重要作用，SO对厄尼诺年和冷水年的经向风变化均十分重要，这两种振荡可以很好的拟合经向风的实际变化，FYO则起着加强的作用。（3）经向风年际低频振荡起源于印度洋—海洋大陆和东太平洋沿岸地区，南北半球冬季风异常和东太平洋沿岸地区信风异常是其主要原因。（4）季风—信风（V）相互作用表现为当异常经向风扰动从季风区东传到信风区时明显增幅，这与信风区海气系统之间时间尺度约1年的自我正反馈有关。  相似文献   

Low Frequency Characteristics of Tropical Pacific Wind Stress Anomalies in Observations and Simulations from a Simple and a Comprehensive Models     

Ni Yunqi  Zhang Qin 《大气科学进展》1996,13(4):445-460

Low frequency characteristics of tropical Pacific wind stress anomalies in observation and simulations; from the CZ simple atmospheric model and COLA R15 AGCM are analyzed. The results show that ENSO event may be a multi-scale process, that is, ENSO time scale has the period longer than three yean; biennial oscillation and annual variability Dynamical characteristics are involved in the evolution process of wind stress anomaly with ENSO time scale: 1) the development and eastward movement of a cyclonic anomaly circulation in subtropical northwestern Pacific and weakening of Southern Oscillation result in the eastward propagation of westerly anomaly along the equator, there?fore, interactions between flows in subtropics and in tropics play an important role in the evolution of wind stress anomaly with ENSO time scale; 2) easterly and westerly anomalies with ENSO time scale are one kind of propagating wave, which differs from Barnett’s (1991). It is interesting that the evolution of observed and simulated wind stress anomalies with biennial time scale bears a strong resemble to that with ENSO time scale although their period it dif?ferent. Observed annual variability it weak during 1979-1981 and intensified after 1981, especially it reaches to max?imum during 1982-1984, and the spatial structure of the first mode is the ENSO-like pattern.  相似文献   

On the Mechanism of the Locking of the El Nio Event Onset Phase to Boreal Spring     

严邦良 《大气科学进展》2005,(5)

1. Introduction The observed facts show that the ENSO cycle has obvious phase-locking and oscillates irregularly (An and Wang, 2001; Kaplan et al., 1998). Based on Zibiak and Cane's (1987) model (hereafter, the Z-C model) and simple, coupled ocean-atmosph…  相似文献   

Modulation of Intraseasonal (25–70 Day) Processes by theSuperimposed ENSO Cycle Across the Pacific Basin     

J. M. Schrage  D. G. Vincent  A. H. Fink 《Meteorology and Atmospheric Physics》1999,70(1-2):15-27

Summary  Although variability is a fundamental aspect of the climate system, the interaction of different time scales of variability remains difficult to assess and verbalize. Two well-documented examples of tropical variability on different time scales are the El Ni?o/Southern Oscillation (ENSO) and the Madden-Julian Oscillation (MJO). Using the fifteen-year ECMWF Re-analysis (ERA) data archive and outgoing longwave radiation (OLR) data, some of the ENSO modulations of the intraseasonal MJO are examined. During El Ni˜o years, the MJO convection is able to propagate farther eastward into the central Pacific than it typically does during normal years. The corresponding intraseasonal circulation anomalies are similarly translated farther east. However, not all changes are this straight forward; for example, MJO convection is found to occur within westerly wind bursts during the Normal years, but somewhat ahead of the winds during El Ni˜o. ENSO-induced changes to the large-scale upper-tropospheric state provide different environments for outflow from MJO convection across the North Pacific. During the El Ni?o years, the eastward shift of the local Hadley circulation means that MJO convection must propagate farther east to reach an environment in which its meridional outflow can produce an appropriate Rossby wave source for the extension of the east Asian jet and subsequent midlatitude height falls. Received December 1, 1998  相似文献   

从有效位能变化来分析ElNino的年代际变化   总被引：4，自引：2，他引：4       下载免费PDF全文

罗连升  杨修群 《气象科学》2003,23(1):1-11

利用近50a的美国Maryland大学全球海洋同化分析资料和NCEP全球大气再分析资料，分析了与ElNino相联系的热带太平洋有效位能（APE）的时空演变过程，从有效位能变化角度揭示了50年来ElNino的年代际变化特征。结果表明，热带太平洋ElNino年代际变化特征主要表现为在20世纪70年代末期以前与其后的显著不同。在有效位能异常变化的振幅和频率方面，20世纪70年代末期以后，振荡的振幅显著增,大直频率变慢。在有效位能异常变化的振幅和频率方面，70年代末期以前，ElNino事件的先兆是有效位能先在热带西太平洋异常积累，然后这些积累的有效位能沿赤道快速向东传播并释放能量，使得东太平洋出现能量的异常，东太平洋的有效位能减少，产生ElNino事件；70年代末期以后，ElNino事件的建立没有表现异常的有效位能在热带西太平洋的积累，其建立表现为赤道中太平洋直接出现的局地有效位能的异常，然后表现为不稳定海气耦合模态增幅性地缓慢向东传播，使得东太平洋的有效位能减少，发生ElNino事件。  相似文献