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1.
蒸发-风反馈机制的进一步研究 总被引:6,自引:2,他引:4
对蒸发-风反馈的作用进行了简单动力学研究。结果表明,蒸发-风反馈不能像波动-CISK那样改变热带大气波动的性质(减缓移速),不可能单独成为激发热带大气季节内振荡的动力学机制。在积云对流加热和蒸发-风反馈的共同作用下,CISK-Kelvin波和CISK-Rossby波可以不稳定发展,共同作用比单独的积云对流加热反馈作用能更全面合理地解释热带大气季节内振荡的活动。因此,蒸发-风反馈对于热带大气季节内振荡也有重要作用。 相似文献
2.
蒸发—风反馈机制的进一步研究 总被引:2,自引:0,他引:2
对蒸发-风反馈的作用进行了简单动力学研究。结果表明,蒸发-风反馈不能像波动-CISK那样改变热带大气波动的性质,不可能单独成为激发热带大气内振荡的动力学机制。在积云对流加热的蒸发-风反馈的共同作用下,CISK-Kelvin波和CISK-Rossby波可以不稳定发展,共同作用比单独和积云对流加热反馈作用能更全面合理地解释热带大气内振荡的活动。 相似文献
3.
赤道以外热带大气中30—50天振荡的一个动力学研究 总被引:11,自引:6,他引:11
本文的动力学分析和模式大气的计算结果表明,在积云对流加热的反馈作用下,热带大气可以产生一种CISK-Rossby型波动。这种波与经典的热带Rossby波不同,它既可以向西也能向东移动,而且在热带大气通常的加热情况下其相速度同热带30—50天振荡的活动相一致。同时,CISK-Rossby型波动具有频散特性,其能量频散可以说明30—50天大气振荡的二维Rossby波列特征。因此可以认为,CISK-Rossby型波动是赤道以外热带大气30—50天振荡的主要激发和驱动机制。 相似文献
4.
CISK、蒸发-风反馈机制和热带大气30-60天振荡 总被引:1,自引:1,他引:1
建立一个包含CISK机制和蒸发-风反馈机制(Evaporation-WindFeedbackMechanism,简写为:EWFM)的热带大气运动的无耗散、线性斜压半地转模式,引入反映CISK的无量纲凝结潜热参数η和反映EWFM的无量纲参数α,并求得模式系统的解析解。动力学分析和模式大气的计算结果进一步说明了CISK和EWFM的共同作用是激发和驱动热带大气低频振荡的重要物理过程。 相似文献
5.
热带大气季节内振荡激发El Nino的机制 总被引:15,自引:1,他引:15
资料分析了表明,热带大气季节内振荡同El Nino发生有密切的关系。在El Nino事件发生之前,热带大气(尤其是赤道西太平洋地区)季节内振荡异常加强;伴随着El Nino的发生,热带大气季节内振荡动能明显增加。简单海-气耦合模式的分析表明,只有在年陵时间尺度大气外强迫作用下,海-气系统才可以产生类似ENSO模的耦合波。资料和理论模式分析和结果相结合,说明热带大气季节内振荡激发El Nino的机制 相似文献
6.
本文利用一个包含有Wave-CISK和蒸发-风反馈机制的斜压半地转模式来讨论低纬大气运动,其中引入了反映CISK机制的无量纲对流凝结加热参数η和反映蒸发-风反馈机制的无量纲参数α_0,求得了η=0情况下的解析解及η≠0情况下的一级近似解,对η≠0情况下向东传播的类似于低频振荡的波动进行了讨论,从理论上指出了蒸发及非均匀加热对低频振荡的维持所起的重要作用. 相似文献
7.
从热带大气波动的频率方程出发,详细分析了过去给出的低频Rossby波的近似频率公式ω=-βκ/[(2n+1)β/c0+κ^2],发现其对热带Rossby波的性质有一定程度的歪曲。针对这一问题,经分析得到一个能更精确地表征热带Rossby波性质的近似频散公式ω=-βκ/[(2n+1)β/c0+4n(n+1)/(2n+1)^2k^2],还简要地比较了热带线性Rossby波和孤立Rossby波两者的频散 相似文献
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9.
ENSO及热带海-气相互作用动力学研究的新进展 总被引:16,自引:1,他引:16
本文回顾了最近几年关于ENSO事件及热带海-气相互作用动力学方面研究的最新成就及新发现的观测事实,还指出热带西太平洋海-气相互作用对北半球大气环流异常的作用。 相似文献
10.
为了揭示80年代以来发生ElNino事件形成的机制,利用一个两层半的热带海洋模式进行数值试验.结果表明:在特定的西向流场背景条件下,热带大气季节内时间尺度振荡强迫激发的赤道第二斜压模态的波动可以在向东传播的过程中出现停驻.波动传播停驻与多普勒效应有密切的关系.由于波动停驻海区海表面温度(SST)正异常增大,可促进其上空大气对流运动的发展,导致赤道中、西太平洋出现大范围西风异常,在赤道海洋中激发起第一斜压模态的Kelvin波.基于上述事实和数值试验结果,文章提出了一个阶段性海气相互作用激发ElNino事件发生的机制,热带中太平洋波动传播停驻导致的SST正异常在这个发生机制中起着关键的作用. 相似文献
11.
FURTHER STUDIES ON EVAPORATION-WIND FEEDBACK 总被引:1,自引:0,他引:1
李崇银 《热带气象学报(英文版)》1997,3(1):11-17
The results from simple dynamic studies on the evaporation-wind feedback show that the effect cannot change the nature of tropical atmospheric waves (by retarding the speed), so that the evaporation-wind feedback alone cannot be an exciting mechanism of intraseasonal oscillation in the tropical atmosphere. This is different from that of the wave-CISK mechanism. With combined effect of the cumulus convection heating and evaporation-wind feedback, the CISK-Kelvin waves and CISK-Rossby waves will develop unstably, explaining the dynamic mechanism of tropical intraseasonal oscillation in a more complete and reasonable way than the convection heating alone. Therefore, the evaporation-wind feedback is also important to the intraseasonal oscillation in the tropical atmosphere. 相似文献
12.
While recent observational studies have shown the critical role of atmospheric transient eddy (TE) activities in midlatitude unstable air-sea interaction, there is still a lack of a theoretical framework characterizing such an interaction. In this study, an analytical coupled air-sea model with inclusion of the TE dynamical forcing is developed to investigate the role of such a forcing in midlatitude unstable air-sea interaction. In this model, the atmosphere is governed by a barotropic quasi-geostrophic potential vorticity equation forced by surface diabatic heating and TE vorticity forcing. The ocean is governed by a baroclinic Rossby wave equation driven by wind stress. Sea surface temperature (SST) is determined by mixing layer physics. Based on detailed observational analyses, a parameterized linear relationship between TE vorticity forcing and meridional second-order derivative of SST is proposed to close the equations. Analytical solutions of the coupled model show that the midlatitude air-sea interaction with atmospheric TE dynamical forcing can destabilize the oceanic Rossby wave within a wide range of wavelengths. For the most unstable growing mode, characteristic atmospheric streamfunction anomalies are nearly in phase with their oceanic counterparts and both have a northeastward phase shift relative to SST anomalies, as the observed. Although both surface diabatic heating and TE vorticity forcing can lead to unstable air-sea interaction, the latter has a dominant contribution to the unstable growth. Sensitivity analyses further show that the growth rate of the unstable coupled mode is also influenced by the background zonal wind and the air–sea coupling strength. Such an unstable air-sea interaction provides a key positive feedback mechanism for midlatitude coupled climate variabilities.
相似文献13.
一种新的ENSO循环负反馈机制 总被引:5,自引:0,他引:5
本文利用包含海洋表面边界层和大气辐合反馈过程的热带太平洋海气耦合异常模式的30年模拟结果,通过对模式ENSO循环演变特征和正负反馈机制的细致分析揭示出了ENSO循环形成的一种新的负反馈过程。指出:ENSO循环的正反馈机制是不稳定海气相互作用过程,且这一不稳定过程的发展在暖态中明显强于冷态;ENSO循环的负反馈机制在冷暖态中表现不同,在冷态消亡过程中,这种负反馈过程主要表现为暖的西传Rossby波经西边界反射产生的暖的东传Kelvin波来抑制冷位相不稳定发展的,但在暖态消亡过程中,不存在类似的纬向波作用过程,其负反馈过程主要表现为在海气耦合不稳定充分发展时伴随的赤道两侧冷水上翻过程的加强以及非线性过程的衰减作用共同抑制了不稳定的发展,并最终使系统从暖态恢复至冷态。本文得出的ENSO循环暖位相中的负反馈机制和近年来国外提出的“时滞振子”理论明显不同。 相似文献
14.
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
15.
有关全球变暖对热带大气季节内振荡特征的影响及其数值模拟的研究 总被引:9,自引:6,他引:9
首先用资料诊断分析了全球变暖前后,热带大气低频振荡特征变化。研究发现,全球变暖前后,热带低频振荡的强度、分布、传播及周期等发生了一系列变化:ISO活跃区及强度范围均有不同程度的增大,气候变暖有缩小ISO强度季节差异趋势;气候变暖后,纬向东传波的大气季节内振荡能量增加,而西传波的能量相对减少;偏暖阶段,ISO振荡主周期相对分散,特别是较长周期的小波能量明显增大。然后利用动力学分析及数值模拟进一步探讨了热带低频振荡与海温的联系,对热带ISO的数值模拟进一步发现,大气模式与海洋模式耦合时,所模拟的热带季节内振荡较强;热带低频振荡的变化可能与全球变暖后海温场发生的变化有关。 相似文献
16.
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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18.
In this study, we investigate the interaction between the tropical Intraseasonal Oscillation (ISO) and midlatitude atmospheric low-frequency variability, using observational data and numerical models, with a special emphasis on the role of the synoptic eddy feedback. A statistical closure for the synoptic eddy-to-low frequency flow feedback is constructed, based on a singular value decomposition (SVD) method with observational data. Applying this statistical closure to a barotropic model and a baroclinic 2½-layer model, we study the role of the synoptic eddy feedback in the midlatitude response to the tropical ISO forcing. Both observational and modeling studies show that the strongest synoptic eddy forcing appears at the Pacific and Atlantic storm-track regions, and the synoptic eddy exerts a positive feedback to the midlatitude low-frequency flow induced by tropical ISO forcing. Our numerical experiments demonstrate the possible role of midlatitude disturbance forcing in the ISO initiation at the equator. The signal of the midlatitude perturbations propagates southeastward in the form of a Rossby wave package. It may reach the equator within several days under either easterly or westerly basic flow regimes. The response at the equator has observed ISO-like structure and eastward propagation characteristics. 相似文献
19.
In this paper, the tropical air-sea interaction is discussed by using a simple air-sea coupled model, in which the inertia-gravity waves are filtered off and only the equatorial Rossby waves are reserved in both the atmosphere and the ocean. There exist two kinds of air-sea interaction waves in the coupled model, that is, the high-frequency fast waves and the low-frequency slow waves. The phase speed of the fast waves is westward and the frequencies are close to those of the equatorial Rossby waves in the atmosphere. The slow waves propagate westward in the part of short wavelengths and eastward in that of long wavelengths. There exist instabilities for both the westward and eastward propagating slow waves. If the fast waves are filtered off, there is little effect on the slow waves which have great in-fluence on the long range process in the tropical air-sea coupled system. According to the tropical air-sea interaction waves we obtain here, a possible explanation to the propagating process of ENSO events is given. 相似文献
20.
A GLOBAL COUPLED OCEAN-ATMOSPHERE MODEL OF SHALLOW WATER WAVE AND ITS NUMERICAL EXPERIMENTS 总被引:2,自引:0,他引:2 
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下载免费PDF全文 A global coupled air-sea model of shallow water wave is developed based on coupled ocean-atmospheredynamics.The coupling is realized through the air-sea interaction process that the atmosphere acts on theocean by wind stress and the ocean acts on the atmosphere with heating proportional to sea surface temperature(SST)anomaly.The equation is harotropic primitive one.Response experiments of coupling system arealso carried out SSTA in two categories of intensities.Compared with the results of AGCM simulation ex-periment in which only the dynamic change of air system is considered,it demonstrates that the air-seainteraction between the tropical ocean and the global atmosphere plays a very important role in the evolutionof climate system.The results of numerical simulation show that it is encouraging. 相似文献