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1.
热带太平洋次表层海温异常年代际变率及其对中国气候异常的影响 总被引:4,自引:0,他引:4
利用近50年月平均的SODA海洋同化资料和NCEP大气再分析资料,研究了热带太平洋次表层海温异常(SOTA)年代际变率主要分布型以及与之相关的亚洲-北太平洋-北美地区上空异常大气环流场,并揭示了类ENSO模态与中国气候异常之间的联系.得到主要结果:(1)热带太平洋SOTA年代际变率有两种类ENSO模态.第一模为类ENSO事件成熟期热带太平洋年代际SOTA状态;第二模为类ENSO过渡期热带太平洋年代际SOTA状态.二者组合构成类ENSO事件40年左右及其背景下13年左右的周期振荡.(2)类ENSO事件对亚洲-北太平洋-北美上空中高纬和副热带大气系统年代际变化具有重要影响.类El Ni(n)o成熟期间冬季,中高纬地区大气环流经向型发展,贝加尔湖高压脊加强,西太平洋副高偏强、位置偏西,蒙古高原为较强的异常反气旋环流.类El Ni(n)o衰退期(类La Ni(n)a发展期)夏季,贝加尔湖低压槽加深,乌拉尔山高压脊加强,西太平洋副高偏弱,新疆-河套地区为较强的异常反气旋环流距平.类La Ni(n)a事件时相反.(3)热带太平洋类ENSO事件通过影响中高纬和副热带大气系统,造成中国北部地区上空南风距平的年代际变化,进而导致东亚季风和中国气候异常.类El Ni(n)o事件成熟期,中国北部地区上空多异常偏北风,东亚季风弱,华北少雨,长江中、下游多雨;类El Ni(n)o衰退(类La Ni(n)a发展)期,中国北部地区上空亦为异常偏北气流,东亚季风较弱,华北少雨.中国气候异常型主要取决于类ENSO第一模态,而第二模态主要视位相异同来加强或减弱第一模态.两个类ENSO模态的共同作用导致1978年前后中国气候跃变和华北地区持续20余年的干旱.近期类ENSO模的振荡从1998年左右开始转为类La Ni(n)a模态,大致在2018年左右结束.在此期间,华北降水有望增加,长江中、下游降水可能减少. 相似文献
2.
用全球海气耦合气候模式和海洋模式进行各种敏感性试验,研究东亚冬季风异常对El Ni(n)o事件形成的作用.结果表明东亚冬季风异常对于海洋热状态起了很大的作用.强冬季风年冬季所对应的海温距平为La Ni(n)a型,但在与冬季风异常相对应的风应力作用下,通过海气相互作用,由于赤道西太平洋西风异常和海温正距平的东传,可以使海温向着El Ni(n)o型分布发展;弱冬季风年冬季所对应的海温距平为El Ni(n)o型,后期则会转成La Ni(n)a型.冬季风异常的偏北风分量及赤道西风分量对海温所产生的影响各有差异,前者更多地影响太平洋西岸及暖池区,后者则对整个赤道太平洋热状态特别是El Ni(n)o形成起了重要的作用.在El Ni(n)o发展过程中起决定作用的主要不是风应力的强度,更关键的是异常风应力的持续时间.由于风应力的持续作用,El Ni(n)o发展特征更加显著.与冬季风异常相对应的纬向风分量特别是西风异常在El Ni(n)o发展中起主导作用;在单纯的海洋模式中经向风异常只能改变局地的西太平洋海温,并不能使东太平洋海温产生响应,即没有出现赤道暖水的东传过程.试验表明,海气耦合模式较单纯的海洋模式能更好地反映海气相互作用及El Ni(n)o的形成. 相似文献
3.
ENSO 年冬季北半球平流层大气环流异常特征分析 总被引:9,自引:8,他引:1
利用1957-2002年欧洲中心的再分析资料和Hadley气候预测和研究中心的全球海表温度资料,对ENSO年冬季的平流层环流进行了合成分析,分别从暖事件和冷事件年的温度场、高度场和风场,分析研究了平流层大气环流的异常特征.分析结果表明,对应El Ni(n)o年冬季,在赤道东太平洋的温度场、高度场和纬向风场都有由大气低层的正距平转变为平流层负距平的特征;与之相反,在El Ni(n)a年冬季,赤道东太平洋大气低层的负距平到了高层变为正距平.同时,在纬向平均垂直剖面图中, El Ni(n)o年冬季北半球高纬地区从对流层顶到平流层温度场和高度场为正距平,而La Ni(n)na年出现相反的情况.在热带平流层,El Ni(n)o年冬季高空纬向风场在50 hPa到15 hPa左右为负距平,从15 hPa到1 hPa为正距平;而El Ni(n)a年则相反.在El Ni(n)o年冬季100 hPa以上的北半球高纬度地区存在一个类偶极子结构的异常高度场和风场,El Ni(n)o年在极区主要为正距平,El Ni(n)a年在极区主要为负距平. 相似文献
4.
异常东亚冬季风对赤道西太平洋纬向风异常的影响 总被引:7,自引:2,他引:7
ENSO由于经常带来大范围的气候异常而倍受关注,赤道西太平洋的纬向风异常对ENSO的发生起着重要作用.首先对赤道西太平洋纬向风异常的发生进行研究,其结果清楚地表明它同东亚冬季风的异常有密切关系.异常强(弱)的东亚冬季风不仅能激发产生赤道西太平洋的西(东)风异常,而且还将在菲律宾以东的西太平洋上导致一个气旋性(反气旋性)环流的形成.研究还表明,上述异常流型产生的物理过程是异常东亚冬季风所造成的气压形势的动力影响,因为在强(弱)东亚冬季风影响下,赤道西太平洋地区会形成向西(东)的气压梯度,即( )p/( )x<0(( )p/( )x>0)的异常气压形势.通过赤道太平洋的海-气相互作用,赤道西太平洋的持续西(东)风异常则将进一步导致El Nino(La Ni(n)a)事件的发生. 相似文献
5.
两个典型ENSO季节演变模态及其与我国东部降水的联系 总被引:2,自引:0,他引:2
本文根据1950~2014年月平均海温和大气环流资料以及中国160站降水等资料,利用扩展经验正交函数(EEOF)分析、相关分析以及合成分析等方法,分析了太平洋海温季节演变的主导模态,并探讨了各模态与中国东部降水和东亚环流季节变异的关系及其联系的物理过程。结果表明,ENSO(El Ni?o/Southern Oscillation)季节演变存在2个主导模态,包含4种类型:El Ni?o持续型、La Ni?a持续型、La Ni?a转El Ni?o型和El Ni?o转La Ni?a型。发现不同模态和类型的ENSO季节变化过程我国东部降水距平的分布和强度都有明显差异。El Ni?o持续型和El Ni?o转La Ni?a型,冬春季和初夏均处在El Ni?o背景下,降水异常分布存在一定共性,但盛夏和秋季分别受El Ni?o和La Ni?a影响,降水异常分布差异十分明显,前者雨带北跳慢、位置偏南而后者雨带北跳快、位置偏北。La Ni?a持续型和La Ni?a转El Ni?o型也是如此,冬春季和初夏降水异常分布大致相似,但盛夏和秋季分别受La Ni?a和El Ni?o影响,前者雨带北跳快、位置偏北而后者雨带北跳慢、位置偏南。因此,利用ENSO做我国降水的气候预测时,不能只着眼于前期冬季El Ni?o或La Ni?a事件,还应考虑其未来演变所属的可能模态和类型。对他们之间联系的物理过程分析表明,不同ENSO季节演变模态和类型主要通过影响西太平洋副热带高压以及西风带经向型/纬向型环流调整及伴随的低纬暖湿水汽输送以及中高纬冷空气活动变化来影响我国东部降水。其中,西太平洋菲律宾群岛附近异常反气旋(或气旋)、赤道Walker环流和北半球Hadley环流分别是联系ENSO与西太平洋副热带高压活动和东亚西风带经向型/纬向型环流的重要环节。 相似文献
6.
纬向风应力在厄尔尼诺-南方涛动(ENSO)事件演变过程中起到了至关重要的作用,但是迄今为止对赤道太平洋区域纬向风应力年际变率的模拟能力及其模拟偏差的全面比较和分析尚不多见。本文对第五次国际耦合模式比较计划(CMIP5)中大气模式纬向风应力的模拟能力进行了全面评估,发现模式集合平均模拟的El Ni?o与La Ni?a时期的纬向风应力异常均比观测结果弱,其中El Ni?o时期的误差更为显著;进一步分析发现,El Ni?o时期的模拟误差可能主要与AMIP模式模拟的东印度洋较弱的降水负异常有关:通过Gill模态响应,东印度洋降水偏差在中西太平洋引起东风异常,这在一定程度上抵消了El Ni?o事件引发的西风异常,最终导致El Ni?o时期AMIP模拟的纬向风应力对SST正异常的响应偏弱。 相似文献
7.
8.
Zebiak-Cane数值模式的可预报性分析 总被引:1,自引:0,他引:1
用Zebiak-Cane(ZC)模式关于热带太平洋海表温度距平(SSTA)的预报资料,从预报误差发展的角度,考察了该模式关于El Ni(n)o/La Ni(n)a事件生长期和衰减期以及正常年份SSTA的预报技巧.结果表明,ZC模式关于ENSO预报的一个最突出的特征是:El Ni(n)o事件生长期SSTA的预报误差存在着明显的季节依赖性,最大预报误差增长通常出现在春季和夏初(AMJ),存在显著的春季可预报性障碍(SPB);对于El Ni(n)o事件的衰减期、La Ni(n)a事件的生长期和衰减期以及正常年份,SSTA预报误差没有明显的季节依赖性.作者比较了ZC模式关于ENSO事件不同发展阶段(生长期和衰减期)以及正常年份SSTA的可预报性.结果表明,La Ni(n)a生长期SSTA的预报最困难;在El Ni(n)o事件、La Ni(n)a事件和正常年份3种情形中,ZC模式关于La Ni(n)a事件的预报技巧最低.用上述动力学方法,进一步考察了ZC模式预报技巧的年代际变化.结果表明,ZC模式在20世纪80年代SPB现象相对较弱,有较高的预报技巧;而在70和90年代,ZC模式预报技巧明显低于80年代,同时伴有显著的SPB现象. 相似文献
9.
利用1971~2000年逐月SODA (Simple Ocean Data Assimilation) 同化资料 (Carton等, 2004)、 1980~2000年逐月NCEP/NCAR再分析资料 (Kalnay等, 1996) 探讨中部型 (暖海水首先出现在120°W以西) 和东部型 (暖海水首先出现在120°W以东) El Ni(n)o事件赤道纬向风应力及洋流的异常变化与暖海水信号的传播特征.研究指出: (1) 中部型和东部型El Ni(n)o事件发生时, 太平洋上赤道海表最大西风应力距平在西太平洋地区都有显著的东传现象, 但中部型El Ni(n)o事件西风应力距平强度强, 造成西太平洋赤道表层的东向流可达东太平洋地区, 这类El Ni(n)o事件强度偏强.(2) 中部型El Ni(n)o事件, 赤道表层洋流辐合区及其下沉运动由西太平洋向东太平洋传播, 辐合下沉运动抑制了深层冷海水上翻, 西太平洋暖水能够传到东太平洋与西太平洋赤道表层洋流辐合区及其下沉运动的东移有关.(3) 东部型El Ni(n)o事件西太平洋赤道表层洋流辐合区及其下沉运动没能直接传到东太平洋地区, 东太平洋暖水形成与局地 (120°W以东) 辐合下沉运动抑制深层冷海水上翻有关; 东部型El Ni(n)o事件暖池次表层的暖水, 不是沿着西太平洋赤道次表层向东传播到东太平洋地区, 而是由南太平洋西边界流将暖池海水带到40°S左右的西风漂流区, 再由西风漂流平流到东太平洋. 相似文献
10.
ENSO机理及其预测研究 总被引:19,自引:0,他引:19
资料分析研究表明ENSO(El Ni?o和La Ni?a)实际上是热带太平洋次表层海温距平的循环,而次表层海温距平的循环是赤道西太平洋异常纬向风所驱动的,赤道西太平洋的异常纬向风又主要由异常东亚冬季风所激发。因此可以将ENSO的机理视为主要是由东亚季风异常造成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循环。同时分析还表明,热带西太平洋大气季节内振荡(ISO)的明显年际变化,作为一种外部强迫,对ENSO循环起着十分重要的作用;El Ni?o的发生同大气ISO的明显系统性东传有关。资料分析也表明,El Ni?o持续时间的长短与大气环流异常有密切关系。 用非线性最优化方法研究El Ni?o-南方涛动(ENSO)事件的可预报性问题,揭示了最容易发展成ENSO事件的初始距平模态,即条件非线性最优扰动(CNOP)型初始距平;找出能够导致显著春季可预报性障碍(SPB),且对ENSO预报结果有最大影响的一类初始误差——CNOP型初始误差,进而探讨耦合过程的非线性在SPB研究中的重要作用,提出了关于ENSO事件发生SPB的一种可能机制;用CNOP方法揭示了ENSO强度的不对称现象,探讨ENSO不对称性的年代际变化问题,提出ENSO不对称性年代际变化的一种机制;建立了关于ENSO可预报性的最大可预报时间下界、最大预报误差上界和最大允许初始误差下界的三类可预报性问题,分别从三个方面揭示ENSO事件的春季可预报性障碍现象,比较有效地量化了模式ENSO事件的可预报性。 利用中国科学院大气物理研究所地球流体力学数值模拟国家重点实验室的ENSO预测系统,研究了海洋资料同化在ENSO预测中的应用,该系统可以同时对温、盐剖面资料和卫星高度计资料进行同化。并且在模式中采用次表层上卷海温的非局地参数化方法,可有效地改进ENSO模拟水平。采用集合卡曼滤波(Ensemble Kalman Filter,EnKF)同化方法以及在集合资料同化中“平衡的”多变量模式误差扰动方法为集合预报提供更加精确和协调的初始场,ENSO预报技巧得到提高。 相似文献
11.
In this study the observed non-linearity in the spatial pattern and time evolution of El Niño Southern Oscillation (ENSO) events is analyzed. It is shown that ENSO skewness is not only a characteristic of the amplitude of events (El Niños being stronger than La Niñas) but also of the spatial pattern and time evolution. It is demonstrated that these non-linearities can be related to the non-linear response of the zonal winds to sea surface temperature (SST) anomalies. It is shown in observations as well as in coupled model simulations that significant differences in the spatial pattern between positive (El Niño) versus negative (La Niña) and strong versus weak events exist, which is mostly describing the difference between central and east Pacific events. Central Pacific events tend to be weak El Niño or strong La Niña events. In turn east Pacific events tend to be strong El Niño or weak La Niña events. A rotation of the two leading empirical orthogonal function modes illustrates that for both El Niño and La Niña extreme events are more likely than expected from a normal distribution. The Bjerknes feedbacks and time evolution of strong ENSO events in observations as well as in coupled model simulations also show strong asymmetries, with strong El Niños being forced more strongly by zonal wind than by thermocline depth anomalies and are followed by La Niña events. In turn strong La Niña events are preceded by El Niño events and are more strongly forced by thermocline depth anomalies than by wind anomalies. Further, the zonal wind response to sea surface temperature anomalies during strong El Niño events is stronger and shifted to the east relative to strong La Niña events, supporting the eastward shifted El Niño pattern and the asymmetric time evolution. Based on the simplified hybrid coupled RECHOZ model of ENSO it can be shown that the non-linear zonal wind response to SST anomalies causes the asymmetric forcings of ENSO events. This also implies that strong El Niños are mostly wind driven and less predictable and strong La Niñas are mostly thermocline depth driven and better predictable, which is demonstrated by a set of 100 perfect model forecast ensembles. 相似文献
12.
Observations indicate that the Atlantic zonal mode influences El Ni?o Southern Oscillation (ENSO) in the Pacific, as already suggested in previous studies. Here we demonstrate for the first time using partial coupled experiments that the Atlantic zonal mode indeed influences ENSO. The partial coupling experiments are performed by forcing the coupled general circulation model (ECHAM5/MPI-OM) with observed sea surface temperature (SST) in the Tropical Atlantic, but with full air-sea coupling allowed in the Pacific and Indian Ocean. The ensemble mean of a five member simulation reproduces the observational results well. Analysis of observations, reanalysis, and coupled model simulations all indicate the following mechanism: SST anomalies associated with the Atlantic zonal mode affect the Walker Circulation, driving westward wind anomalies over the equatorial Pacific during boreal summer. The wind stress anomalies increase the east-west thermocline slope and enhance the SST gradient across the Pacific; the Bjerknes positive feedback acts to amplify these anomalies favouring the development of a La Ni?a-like anomalies. The same mechanisms act for the cold phase of Atlantic zonal mode, but with opposite sign. In contrast to previous studies, the model shows that the influence on ENSO exists before 1970. Furthermore, no significant influence of the Tropical Atlantic on the Indian Monsoon precipitation is found in observation or model. 相似文献
13.
Warm and cold phases of El Nino–Southern Oscillation (ENSO) exhibit a significant asymmetry in their decay speed. To explore the physical mechanism responsible for this asymmetric decay speed, the asymmetric features of anomalous sea surface temperature (SST) and atmospheric circulation over the tropical Western Pacific (WP) in El Nino and La Nina mature-to-decay phases are analyzed. It is found that the interannual standard deviations of outgoing longwave radiation and 850 hPa zonal wind anomalies over the equatorial WP during El Nino (La Nina) mature-to-decay phases are much stronger (weaker) than the intraseasonal standard deviations. It seems that the weakened (enhanced) intraseasonal oscillation during El Nino (La Nina) tends to favor a stronger (weaker) interannual variation of the atmospheric wind, resulting in asymmetric equatorial WP zonal wind anomalies in El Nino and La Nina decay phases. Numerical experiments demonstrate that such asymmetric zonal wind stress anomalies during El Nino and La Nina decay phases can lead to an asymmetric decay speed of SST anomalies in the central-eastern equatorial Pacific through stimulating di erent equatorial Kelvin waves. The largest negative anomaly over the Nino3 region caused by the zonal wind stress anomalies during El Nino can be threefold greater than the positive Nino3 SSTA anomalies during La Nina, indicating that the stronger zonal wind stress anomalies over the equatorial WP play an important role in the faster decay speed during El Nino. 相似文献
14.
Interdecadal variability of the relationship between the East Asian winter monsoon and ENSO 总被引:2,自引:0,他引:2
W. Zhou X. Wang T. J. Zhou C. Li J. C. L. Chan 《Meteorology and Atmospheric Physics》2007,98(3-4):283-293
Summary The authors examine relationships between the East Asian winter monsoon and the ENSO, particularly on the interdecadal timescales.
Based on the analyses of SLP data from 1899 to 1997, the East-Asian winter monsoon index (WMI) is defined as the zonal difference
of SLP between ∼120° E and ∼160° E. It is found that 18 out of 28 strong winter monsoon years are either before the development
of an El Ni?o or during the decaying La Ni?a event, 12 out of 28 weak winter monsoon are before the development of a La Ni?a
or during the decaying El Ni?o event. There is a significant positive correlation coefficient value of about 0.49 between
the normalized 11-yr running mean of WMI and ENSO index, however, the WMI-ENSO relationship is not consistently highly correlated.
The temporal evolution of correlation between WMI and ENSO indices in both 11-yr and 21-yr moving window shows that the WMI-ENSO
relationship clearly undergo low-frequency oscillation. Obviously, both observational and IPSL air-sea coupled modeling WMI
index has a near-decadal peak with PDO timescales and internal peaks with ENSO timescales by applying the Multitaper method.
Moreover, the cross wavelet and wavelet coherence analysis of WMI/ENSO indicate that there is a larger significant sections
with an in phase behavior between WMI and ENSO at period of 20–30 yrs, suggesting that the interdecadal variation of the WMI-ENSO
relationship might exist. 相似文献
15.
《大气科学进展》2021,(1)
It has been suggested that a warm(cold) ENSO event in winter is mostly followed by a late(early) onset of the South China Sea(SCS) summer monsoon(SCSSM) in spring. Our results show this positive relationship, which is mainly determined by their phase correlation, has been broken under recent rapid global warming since 2011, due to the disturbance of cold tongue(CT) La Ni?a events. Different from its canonical counterpart, a CT La Ni?a event is characterized by surface meridional wind divergences in the central-eastern equatorial Pacific, which can delay the SCSSM onset by enhanced convections in the warming Indian Ocean and the western subtropical Pacific. Owing to the increased Indian-western Pacific warming and the prevalent CT La Ni?a events, empirical seasonal forecasting of SCSSM onset based on ENSO may be challenged in the future. 相似文献
16.
The space-time features of major vorticity disturbances over the western North Pacific during the 1997-98 El Nino ranked as one of the strongest events on record was investigated in this study. We distinguished the different roles that these disturbances had on different timescales in causing the reversal or turnabout of the El Nino event. Remarkable differences in the various disturbances of synoptic, intraseasonal, and interannual timescales were found in the time evolution, propagation, and in their contributions to the changes in nearequatorial zonal flow, which was crucial to the demise of the warm sea surface temperature anomalies in the central-eastern Pacific. It is hypothesized that the westward-traveling synoptic and intraseasonal oscillations in the western North Pacific might be considered as a self-provided negative feedback from the El Nino and played an additional role in its reversal in comparison with other interannual internal and external forcings. In this case, the off-equatorial synoptic and intraseaonal fluctuations served as a stochastic forcing for the tropical ocean and gave rise to the aperiodicity or irregularity of the El Nino-Southern Oscillation. 相似文献
17.
This study uses linear regression and composite analyses to identify a pronounced asymmetric connection of sea surface temperature (SST) in the Tasman Sea with the two opposite phases of El Ni?o-Southern Oscillation (ENSO) during austral summer. In El Ni?o years, the SST anomalies (SSTAs) in the Tasman Sea exhibit a dipolar pattern with weak warmth in the northwest and modest cooling in the southeast, while during La Ni?a years the SSTAs exhibit a basin-scale warmth with greater amplitude. Investigations into the underlying mechanism suggest that this asymmetry arises from a mechanism related to oceanic heat transport, specifically the anomalous Ekman meridional heat transport induced by the zonal wind stress anomalies, rather than the surface heat fluxes on the air-sea interface. Further analysis reveals that the asymmetry of oceanic heat transport between El Ni?o and La Ni?a years is driven by the asymmetric atmospheric circulation over the Tasman Sea stimulated by the asymmetric diabatic heating in the tropical Pacific between the two opposite ENSO phases. 相似文献
18.
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
19.
This study investigated the relationship between the asymmetry in the duration of El Ni?o and La Ni?a and the length of their decaying phases. The results suggested that the duration asymmetry comes from the long decaying ENSO cases rather than the short decaying ones. The evolutions of short decaying El Ni?o and La Ni?a are approximately a mirror image with a rapid decline in the following summer for the warm and cold events. However, a robust asymmetry was found in long decaying cases, with a prolonged and re-intensified La Ni?a in the following winter. The asymmetry for long decaying cases starts from the westward extension of the zonal wind anomalies in a mature winter, and is further contributed to by the air-sea interaction over the tropical Pacific in the following seasons. 相似文献