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为了分析热带海气耦合系统中不稳定扰动究竟由哪种自由波占主导地位,根据本文第I部分提出的热带海气耦合模式,讨论了取耦合系统中不同的径向模时耦合波的性质,即分别讨论了大气长Rossby波和海洋长Rossby波、大气Kelvin波和海洋长Rossby波、大气长Rossby波和海洋Kelvin波的耦合波以及考虑了大气和海洋中所有这些波动时耦合波的性质。结果指出,这些耦合波对海气耦合模式中参数的取值很敏感,不同的参数可以产生性质不同的耦合波。本文的结果也说明了海气耦合系统的性质与热带大气的性质和结构有很大关系。 相似文献
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全球热带海气耦合距平模式及其数值模拟 总被引:1,自引:1,他引:1
用观测海温距平对一个中等分辨率的细网格大气模式和观测 FSU假风应力对全球热带三大洋距平海洋模式分别进行强迫试验。结果表明 :无论是大气模式还是海洋模式均在一定程度上较好地模拟了观测事实 ,热带大西洋的模拟效果好于热带印度洋。对大气模式而言 ,经向风距平的模拟要好于纬向风距平 ,热带大西洋西部好于东部 ,热带印度洋东部好于西部 ,赤道南侧好于北侧。对海洋模式而言 ,热带大西洋模拟最好的区域是赤道中东部 ,对赤道东印度洋的暖事件及偶极子事件年际变率模拟也较好。在此基础上 ,用和海气耦合模式同样的耦合方式将两者耦合起来 ,构成了一个中等复杂程度的全球热带海气耦合模式 ,这是进一步研究全球热带海气相互作用的基础 相似文献
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本文在简单的热带气耦合方程组中,引进基本风场和平均海流的作用以后,对热带海气耦合Kelvin波的不稳定性进行了讨论,得到其耦合不稳定的判据条件,并且分析了它的传播结构特征。 相似文献
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中低纬海气相互作用的耦合模态变化研究 总被引:2,自引:0,他引:2
利用1948—2003年的NCEP再分析资料和英国气象局Hadley气候预测和研究中心的海表面温度资料,从整体分析地球中低纬三大洋海气耦合系统的角度出发,使用SVD方法研究中低纬海气相互作用的耦合变化。结果表明,中低纬海气相互作用是一个有机的耦合整体,其变化不管从年际还是年代际上都存在耦合相关性,这一点给我们提出了一个新的研究全球范围海气耦合变化的思路。提取的海气耦合基本模态的正、负异常年份的海温和风场异常合成分析结果显示,当赤道东太平洋的海水偏暖时,热带印度洋和热带大西洋的海水也偏暖,热带西太平洋直至中纬度太平洋的海温总体偏冷。就印度洋而言非洲大陆以南30~50 °S的大片海区存在明显的海温负异常。北美洲大陆的东岸30 °N以北和南美洲大陆的东岸30 °S以南的海区都为明显的海温负异常。当赤道东太平洋的海水偏冷时各大海区的海温分布情况反之。 相似文献
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利用中等复杂程度的2.5层海洋模式和大气环流模式ECHAM4组成的海气耦合模式,模拟分析了热带太平洋和印度洋的气候变化以及年际变化特征。该模式较好地模拟了ENSO现象的空间分布及其不规则的周期变化特征,以及热带印度洋的主要变化特征。通过数值试验,初步研究了太平洋耦合过程对印度洋年际变化的影响。结果显示,当存在太平洋耦合过程时,模拟的印度洋偶极子(IOD)正(负)事件的发生频率比无太平洋耦合情形时有所减少(增加)。该变化是太平洋耦合变量通过海气耦合过程对印度洋海表面平均风场进行调整,进而引起热带印度洋温跃层深度东西梯度改变的结果。 相似文献
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在分析研究太平洋海气耦合经向模(Pacific Meridional Mode——PMM)和西北太平洋生成热带气旋频数变化关系的基础上,利用NCAR的大气环流模式CAM3模拟研究了太平洋海气耦合经向模态对西北太平洋生成热带气旋的影响。结果表明,海气耦合的经向模态通过影响热带气旋生成的大尺度环境从而影响热带气旋的频数和强度。在模式中当增加了PMM的海温强迫后,纬向风切变变小,对流层中低层相对湿度变大,热带西太平洋对流层低层出现西风异常,在西北太平洋地区形成一个异常的气旋性环流,并且匹配有较大的正涡度异常;对流层高层出现赤道东风异常和一个与低层气旋性环流相匹配的反气旋性环流,有利于对流活动的发展,从而有利于热带气旋的生成和发展。在增加了PMM的海温强迫的试验中,热带气旋中心的海平面最低气压降低,850 hPa中心附近最大切向风速增加,气旋中高层的暖心强度增强。热带气旋强度总体增加。数值模拟结果与资料分析相互映证,揭示了太平洋经向模态对西北太平洋热带气旋有重要影响。 相似文献
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利用简单海气耦合模式,分析了经向风应力和纬向风应力对热带太平洋不稳定海气耦合模态的相对贡献。结果表明:在局地热力平衡假设下,海气相互作用导致了海洋Kelvin波的不稳定,该不稳定模态发生在一定波长范围内,只有纬向风应力对其作出贡献;在海温仅由平流过程决定的假设下,海气相互作用导致了海洋Rossby波的不稳定,该不稳定模态在整个波长范围内都有发生,波长越大,不稳定越强,经向风应力与纬向风应力都可以对海洋Rossby波的不稳定作出贡献,但是前者贡献较小;不稳定Rossby波比不稳定Kelvin波的增长率要小;由于无论哪一种不稳定模态,都是纬向风应力在海气耦合中起着绝对的主导作用,所以在研究热带太平洋海气耦合动力学对ENS0不稳定发展的贡献时,采用忽略经向风应力作用的近似是合理可行的。 相似文献
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利用发展的包含海洋表面边界展和大气辐合反馈过程的热带太平洋海气耦合距平模式,对ENSO循环进行了模拟。通过30a积分,用合模式所展示的热带太平洋海气耦合系统的ENSO循环的水平结构演变特征和观测事实甚为一致,成功地模拟出了ENSO循环的冷暖态的发生发展、衰亡及相互转换等各个位相的动力和热力场的水平结构及其对季节循环的依赖性特征。本文数值模拟结果表明,ENSO循环的主要动力学过程可由热带海气相互作用系统自身所确定。ENSO循环的正确模拟是揭示其形成机制的前提。 相似文献
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Zhang Xiangdong 《Acta Meteorologica Sinica》1992,6(3):287-298
The propagation features, stabilities and dynamical characteristic structures of coupled Kelvin inner modes andsecond order Rossby inner modes are studied using a simple tropical coupled air-sea model in this paper. It is shownthat there is mechanism of selecting scale and frequency in the tropical air-sea system. The effects of air-sea couplingare mainly on the large-scale modes and nonuniform. These effects make the frequency of Kelvin modes decrease andeven excite the eastward propagating Rossby inner modes. These effects make the unstable development of Kelvinmodes and result in the decay of Rossby modes. The effects of atmospheric damp are opposite to those of air-sea coup-ling. The oceanic damp only make the wave amplitudes decay. Simutaneously, this paper shows the dynamical character-istic structures of air-sea coupled system and the phase relations between the atmospheric and the oceanic wave compo-nent. 相似文献
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Recent advances in studies of the interaction between the East Asian winter and summer monsoons and ENSO cycle 总被引:26,自引:5,他引:21
Recent advances in studies on the interaction between the East Asian monsoon and the ENSO cycle are reviewed in this paper. Through the recent studies, not only have the responding features and processes of the East Asian winter and summer monsoon circulation anomalies and summer rainfall anomalies in East Asia to the ENSO cycle during its different stages been understood further, but also have the thermal and dynamic effects of the tropical western Pacific on the ENSO cycle been deeply analyzed from the observational facts and dynamic theories. The results of observational and theoretical studies showed that the dynamical effect of the atmospheric circulation and zonal wind anomalies in the lower troposphere over the tropical western Pacific on the ENSO cycle may be through the excitation of the equatorial oceanic Kelvin wave and Rossby waves in the equatorial Pacific. These studies demonstrated further that the ENSO cycle originates from the tropical western Pacific. Moreover, these recent studies also showed that the atmospheric circulation and zonal wind anomalies over the tropical western Pacific not only result from the air-sea interaction over the tropical western Pacific, but are also greatly influenced by the East Asian winter and summer monsoons. Additionally, the scientific problems in the interaction between the Asian monsoon and the ENSO cycle which should be studied further in the near future are also pointed out in this paper. 相似文献
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In this study a coupled air–sea–wave model system, containing the model components of GRAPES-TCM, ECOM-si and WAVEWATCH III, is established based on an air–sea coupled model. The changes of wave state and the effects of sea spray are both considered. Using the complex air–sea–wave model, a set of idealized simulations was applied to investigate the effects of air–sea–wave interaction in the upper ocean. Results show that air–wave coupling can strengthen tropical cyclones while air–sea coupling can weaken them; and air–sea–wave coupling is comparable to that of air–sea coupling, as the intensity is almost unchanged with the wave model coupled to the air–sea coupled model. The mixing by vertical advection is strengthened if the wave effect is considered, and causes much more obvious sea surface temperature (SST) decreases in the upper ocean in the air–sea coupled model. Air–wave coupling strengthens the air–sea heat exchange, while the thermodynamic coupling between the atmosphere and ocean weakens the air–sea heat exchange: the air–sea–wave coupling is the result of their balance. The wave field distribution characteristic is determined by the wind field. Experiments are also conducted to simulate ocean responses to different mixed layer depths. With increasing depth of the initial mixed layer, the decrease of SST weakens, but the temperature decrease of deeper layers is enhanced and the loss of heat in the upper ocean is increased. The significant wave height is larger when the initial mixed layer depth increases. 相似文献
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利用1951-2000年北太平洋海温和副高特征量资料,探讨夏半年副高与前期海温的关系,发现影响副高活动的海温关键区赤道东太平洋前期信息最明显,从前期秋季持续至春季都保持与夏半年各月副高强度、西伸脊点位置的高相关;ENS0事件的形成超前于副高强度的转折约半年时间;El Nino年副高持续偏强偏西,La Nina年则相反,脊线位置也有所反映,但不如强度与西伸显著。在此基础上进一步分析表明,福建雨季降水、副高强度与Nino 3区海温存在着大约相一致的年代际振荡与突变时间;雨季降水分布的异常直接受到副高活动的影响,而副高活动又明显受ENS0循环的制约,因而关注赤道东太平洋海温异常及ENS0信息对福建雨季降水分布趋势的预测旦有重要意义。 相似文献
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1INTRODUCTIONAsshowninobservationalfacts,theevolutionofElNi駉displaysastheamplitudeexpansionandmigrationofanomalousdisturbancesinair-seacouplingsystems.Theoreticaladdressofthephenomenonhasbeenattemptedfromtheaspectofcouplingdynamics.Theresultsshowthattheair-seainteractionsystemincludesakindofunstablemode,whichispropagatingindirectionsdeterminedbyfactorsgoverningSSTchanges.Withanair-seacouplingmodel,Lau[1]wasamongtheearliestpeoplewhodiscoveredunstablestationarywavemodesintheair-seaintera… 相似文献
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The westerly anomalies over the tropical pacific and their dynamical effect on the enso cycles during 1980–1994 总被引:3,自引:0,他引:3
In this paper, the zonal wind anomalies in the lower troposphere over the tropical Pacific during 1980–1994 are analyzed by using the observed data. The results show that during the formation of the 1982/83, 1986/87 and 1991 / 92 ENSO events, there were the larger westerly anomalies in the lower troposphere over the equatorial Pacific. Moreover, it is explained by using the correlation analyses that the westerly anomalies over the equatorial Pacific could cause the warm episodes of the equatorial central and eastern Pacific. A simple air-sea coupled model is used to discuss theoretically the dynamical effect of the observed westerly anomalies of wind stress near the sea surface of the equatorial Pacific on the ENSO cycle occurred in the period of 1981–1983. It is shown by using the theoretical calculations of the equatorial oceanic Kelvin wave and Rossby waves responding to the forcing of the observed anomalies of zonal wind stress near the sea surface of the equatorial Pacific that the westerly anomalies of wind stress near the sea surface of the equatorial Pacific make significant dynamical effect on the ENSO cycles occurred in the period of 1982–1983. 相似文献
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DIAGNOSIS OF LOW FREQUENCY COMPONENT OF ENSO VARIABILITY-PART Ⅰ:GLOBAL-SCALE DYNAMIC CHARACTERISTICS OF THE COMPONENT 
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下载免费PDF全文 Composite investigation is performed of global dynamic characteristics of 3-4-year period low-frequency oscillation in ENSO variability of air-sea coupling in the context of monthly mean wind and SSTA.Evidence suggests that the horizontal(vertical) anomaly circulation at tropical latitudes (equatorial)exhibits their evolution to be,in substance,a kind of low-frequency wave slowly travelling eastward,featured by wave number 2 moving along the equator and zonal wind swiftly decaying off the equator in relation to divergence/convergence:the time that the low-frequency wave takes to move around the equator in its halfway is precisely the period of the ENSO low-frequency component (LFC) (approximately 4 years);the ocean also displays corresponding response to the component. 相似文献
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The influence of El Nio-Southern Oscillation (ENSO) on the convectively coupled Kelvin waves over the tropical Pacific is investigated by comparing the Kelvin wave activity in the eastern Pacific (EP) El Nio, central Pacific (CP) El Nio, and La Nia years, respectively, to 30-yr (1982-2011) mean statistics. The convectively coupled Kelvin waves in this study are represented by the two leading modes of empirical orthogonal function (EOF) of 2-25-day band-pass filtered daily outgoing longwave radiation (OLR), with the estimated zonal wavenumber of 3 or 4, period of 8 days, and eastward propagating speed of 17 ms-1 . The most significant impact of ENSO on the Kelvin wave activity is the intensification of the Kelvin waves during the EP El Nios. The impact of La Nia on the reduction of the Kelvin wave intensity is relatively weaker, reflecting the nonlinearity of tropical deep convection and the associated Kelvin waves in response to ENSO sea surface temperature (SST) anomalies. The impact of the CP El Nio on the Kelvin waves is less significant due to relatively weaker SST anomalies and smaller spatial coverage. ENSO may also alter the frequency, wavelength, and phase speed of the Kelvin waves. This study demonstrates that low-frequency ENSO SST anomalies modulate high-frequency tropical disturbances, an example of weather-climate linkage. 相似文献