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1.
大气动力学中三种Rossby波作用通量的特征差异和适用性比较 总被引:1,自引:0,他引:1
大气动力学诊断Rossby波的传播时,通常用波作用通量来表示。常用的三种波作用通量分别为Plumb波作用通量,T-N波作用通量和局地E-P通量。本文详细讨论了这三种方法的特征差异,并结合2016年1月的一次寒潮事件,比较了三种方法在该事件中的适用性。结果表明:1)Plumb波作用通量的纬向分量较大而经向分量较小,适用于振幅较小的纬向均匀的西风带Rossby长波的诊断。2)T-N波作用通量是对Plumb波作用通量的改进,经向分量得以增强,能更好地描述纬向非均匀气流中的较大振幅的西风带Rossby长波扰动。T-N波作用通量计算时,背景场取多年平均的当月气候场较合适,能更好地反映当前季节内的Rossby波传播异常。3)局地E-P通量可以诊断一段时间内天气尺度瞬变波对背景场(定常波)总的调控作用,但无法直接反映Rossby长波的逐时演变(T-N波或Plumb波作用通量则可以)。 相似文献
2.
利用ECMWF15天平均资料计算了定常波的EP通量以及波动动能和有效位能的三维分布。发现了大气中某些新的遥相关型,特别是从中纬度传播到热带地区的波列在那里发生路径转向和透射的现象。指出对流层低层向上传播的有效位能可能对维持高空定常波有一定作用。同时讨论了大气中的三维遥相关特征。 相似文献
3.
利用1980—2015年ERA-5全球再分析资料,对汉中地区典型暴雨发生前纬向风场变化及天气尺度瞬变波活动(Eliassen-Palm通量特征)进行分析。结果表明:瞬变波Eliassen-Palm(EP)通量特征分析为汉江流域暴雨潜势预报提供一个有利的参考指标;暴雨发生前,33°N附近200 h Pa有纬向风减速中心,对应200 hPa为EP通量辐散区,这种垂直分布模型是暴雨前期的有利形势,随着纬向风减速趋势加快,EP通量辐散区扩展并加强,有利于暴雨的发生;与8月相比,7月暴雨强度更强,暴雨范围更广,纬向风变化更明显,200 hPa的EP通量辐散更强。若简单地将盛夏暴雨整体进行研究,会影响对不同月份瞬变波活动及大气环流变化趋势的诊断,造成诊断偏差且难以准确反映瞬变波与暴雨的联系。因此在讨论盛夏季天气尺度瞬变波与对流层环流的相互作用时,应按月份讨论。 相似文献
4.
大气中定常行星波的Eliassen-Palm通量与波折射指数的关系 总被引:1,自引:1,他引:1
本文研究了β平面近似下波作用量守恒,得到波作用通量——Eliaaen-Palm通量的一般形式.本文还利用WKBJ方法求得球面大气中定常行星波的Eliassen-Palm通量与波折射指数的关系. 本文还用一个准地转34层球坐标模式计算了冬季北半球地形与定常热源强迫所产生的定常行星波的Eliassen-Palm通量,证明了冬季受迫定常行星波在垂直及侧向传播中存在着两支波导,从而证明了理论上所得到的关系. 相似文献
5.
利用1980-2018年ERA-5全球再分析资料,对汉江流域汉中地区典型暴雨发生前纬向风场变化及天气尺度瞬变波活动(Eliassen-Palm通量特征)进行分析。结果表明:瞬变波EP通量特征分析为汉江流域暴雨潜势预报提供一个有利的参考指标;暴雨发生前,33°N附近200hPa附近有纬向风减速中心,对应200hPa为EP通量辐散区,这种垂直分布模型是暴雨前期有利形势,随着纬向风减速趋势加强,EP通量辐散区扩展并加强,有利于暴雨的发生;7月较之8月,暴雨强度更强、暴雨范围更广、纬向风变化更明显、200hPa以上EP通量辐散更强。若简单地将盛夏暴雨整体进行研究,会影响对不同月份瞬变波活动及大气环流变化趋势的诊断,造成诊断偏差且难以准确反映瞬变波与暴雨的联系。因此在讨论盛夏季天气尺度瞬变波与对流层环流的相互作用时,应针对不同月份分开进行讨论。 相似文献
6.
本文提出了一个可以用于大气定常波数值模拟的非线性初始方程三维谱模式,模式的动力学框架与文献[1]中的线性模式是相互对应的。利用线性模式的定常解作为初值,通过Newton-Raphson迭代法求出了收敛的非线性定常解。文中给出了这一模式大气对于北半球大尺度地形和1979年1月平均非绝热加热场的响应作为计算实例,并与对应的线性响应以及观测事实进行了对比,证明在考虑了大气中波动之间的非线性相互作用之后数值模拟的结果确实比线性模式有显著的改进,尤其是对于低纬环流系统更是如此。这表明了非线性作用对于热带环流系统的极端重要性。 相似文献
7.
8.
关于北半球准定常行星波年际变化的资料分析和数值模拟 总被引:2,自引:2,他引:0
利用NCEP/NCAR再分析资料和大气环流模式(CCSR/NIES AGCM Ver.5.6), 对北半球冬季准定常行星波活动的年际变化进行了分析和模拟.基于以前对EP通量散度的遥相关分析, 作者将EP通量散度的EOF第一分量时间序列T1定义为年际变化指数.对应于T1的高指数, 在对流层和平流层低层, 准定常行星波更多地折向赤道传播, 从而在对流层出现一个EP通量散度的偶极子型异常, 这一形势主要来自2波和3波的贡献; 而折向高纬度经极地波导向上传播的行星波活动减弱了, 在高纬度产生异常辐散, 这一形势主要来自1波和2波的贡献.相关和回归分析发现, 准定常行星波的年际变化与北极涛动有密切联系, 与T1对应的纬向平均流场以及位势高度场的异常分布都与北极涛动下的异常形势非常相似.利用大气环流模式模拟的结果显示, 模式在对流层可以很好地模拟准定常行星波的年际变化以及北极涛动形势, 并且二者同样密切相关.但是模式还不能很好地模拟行星波经极地波导向平流层传播的年际变化, 对可能的成因也进行了探讨. 相似文献
9.
利用1980—2018年ERA-Interim全球再分析资料,对汉江上游汉中地区暴雨过程纬向风场及瞬变波活动Eliassen-Palm(下简称EP)通量特征进行诊断分析。结果表明:(1)尝试将瞬变波EP通量特征分析应用到汉江流域典型暴雨过程动力特征研究中,天气尺度瞬变波EP通量的辐散可以表征天气尺度扰动的强迫作用,根据热成风原理,角动量和热量的沉积耗散会进一步影响纬向环流的变化。大气中高层瞬变波活动特征可作为提前量反映汉江流域暴雨的发生。(2)暴雨发生前,30°N附近200 hPa有纬向风减速中心,对应200 hPa为EP通量辐散区,EP通量辐散区扩展加强有利于暴雨的发生,这种大气波动的垂直分布特征及其变化对暴雨发生有指示意义。 相似文献
10.
本文采用Plumb三维波活动通量和局地Eliassen-Palm通量诊断方法,利用欧洲中期天气预报中心的逐日再分析资料ERA-Interim,分析了超强厄尔尼诺背景下2016年1月下旬中国南方超级寒潮的动力学机制:瞬变波对大气长波异常的调制。前期2015年12月的北大西洋海表热通量正异常,有助于后期大西洋阻塞形势的维持。大气长波能量沿大圆路径从大西洋阻高经乌拉尔地区向东亚中低纬度传播并在此辐合,导致了乌拉尔阻高和华北横槽的经向结构,更多强冷空气聚集在异常偏南的纬向槽线附近。寒潮爆发前夕,2支瞬变波列活跃在亚欧大陆。北支瞬变波列调制了北方的大气长波,使横槽转竖;南支瞬变波列协同调控了南方的大气长波,使南支印缅槽减弱;两者共同作用,促使冷平流大举南下,直达华南沿海,南方寒潮发生。 相似文献
11.
Low-frequency phenomena in the atmosphere are intimately related to stationary waves and, in a sense, the former may even be viewed as the time-varying part of the quasi-stationary waves themselves, Much attention has been focused on nonlinear interactions in the conceptual study on stationary waves. Linear and nonlinear primitive-equation baroclinic spectral models are adopted to investigate the response of stationary waves to largescale mechanical forcing and steady-state thermal forcing, both idealized and realistic, followed by calculations of the EP fluxes and three-dimensional wave activity fluxes(Plumb, 1985) for both the linear and nonlinear solutions. Results show that when the forcing source grows intense enough to be comparable to the real one, non-linear interaction becomes very important, especially for the maintenance of tropical and polar stationary waves. Care should be taken, however, in using the EP flux and Plumb's 3-D flux for diagnostic analysis of observational data as they are highly sensitive to nonlinear interaction. 相似文献
12.
A nonlinear steady-state baroclinic primitive-equation numerical model of atmospheric forced stationarywaves is used to investigate the tropics-extratropics interactions.Newtonian cooling,Rayleigh friction andbiharmonic horizontal diffusion are included in the model.The Eliassen-Palm (EP) cross-section and three-dimensional wave activity flux,which was derived by Plumb (1985) for linear quasi-geostrophic stationarywaves on a zonal flow,are used as diagnostics for the vertical and horizontal propagation of the waves.Results of the numerical experiments and diagnostics analyses suggest that the extratropical influenceon the tropical large-scale motion is important.The mid-latitude orographic forcing,especially of the Qing-hai-Xizang Plateau,and the extratropical thermal forcing make substantial contribution to the main-tenance of the cyclonic circulation over the eastern tropical and subtropical Pacific as well as the inversecirculation over the western Pacific in the upper troposphere.In addition,the longitudinal variation ofdiabatic heating in tropics has a significant influence on the wintertime stationary waves at higher latitudes. 相似文献
13.
A three-dimensional transformed Eulerian-mean(3D TEM) equation under a non-hydrostatic and non-geostrophic assumption is deduced in this study. The vertical component of the 3D wave activity flux deduced here is the primary difference from previous studies, which is suitable to mesoscale systems. Using the 3D TEM equation, the energy propagation of the inertia–gravity waves and how the generation and dissipation of the inertia–gravity waves drive the mean flow can be examined. During the mature stage of a heavy precipitation event, the maximum of the Eliassen–Palm(EP) flux divergence is primarily concentrated at the height of 10–14 km, where the energy of the inertia–gravity waves propagates forward(eastward) and upward. Examining the contribution of each term of the 3D TEM equation shows that the EP flux divergence is the primary contributor to the mean flow tendency. The EP flux divergence decelerates the zonal wind above and below the high-level jet at the height of 10 km and 15 km, and accelerates the high-level jet at the height of 12–14 km. This structure enhances the vertical wind shear of the environment and promotes the development of the rainstorm. 相似文献
14.
The Role of Stationary and Transient Planetary Waves in the Maintenance of Stratospheric Polar Vortex Regimes in Northern Hemisphere Winter 总被引:1,自引:1,他引:0
Using 1958-2002 NCEPNCAR reanalysis data, we investigate stationary and transient planetary wave propagation and its role in wave-mean flow interaction which influences the state of the polar vortex (PV) in the stratosphere in Northern Hemisphere (NH) winter. This is done by analyzing the Eliassen-Palm (E-P) flux and its divergence. We find that the stationary and transient waves propagate upward and equatorward in NH winter, with stronger upward propagation of stationary waves from the troposphere to the stratosphere, and stronger equatorward propagation of transient waves from mid-latitudes to the subtropics in the troposphere. Stationary waves exhibit more upward propagation in the polar stratosphere during the weak polar vortex regime (WVR) than during the strong polar vortex regime (SVR). On the other hand, transient waves have more upward propagation during SVR than during WVR in the subpolar stratosphere, with a domain of low frequency waves. With different paths of upward propagation, both stationary and transient waves contribute to the maintenance of the observed stratospheric PV regimes in NH winter. 相似文献
15.
利用高分辨率的再分析资料ERA40,分析了纬向平均状态下北半球不同尺度的定常波对西风动量沿经向输送的气候态及其年变化。结果表明,对流层中定常波对西风动量输送最强的区域位于中纬度对流层的中上层,定常波在该区域长年向北输送纬向动量,且输送中心随季节有南北移动和强弱变化。此外,在高纬度地区的对流层中上层以及赤道对流层顶附近还有两个相对较弱的输送中心。前者对西风动量的输送长年向南,其垂直范围从对流层低层一直伸展到平流层下层,中心位置相对固定,强度有明显的季节变化。后者位置也相对固定,但输送方向随季节改变。平流层中定常波对西风动量的输送主要位于中高纬度的平流层中上层,定常波在该区域长年向北输送西风动量,中心位置非常稳定,而强度则随季节变化明显。行星尺度定常波的输送作用与总波动的输送作用非常一致,并在很大程度上决定了波动对动量输送强度的季节变化。天气尺度定常波和10波以上的短波的输送作用主要集中在中纬度对流层的中高层。前者与行星尺度定常波共同决定了该区域内的输送强度,并主导了输送中心的南北移动;后者的作用很小,除夏季外均可以忽略。作者给出的不同尺度定常波对西风动量输送的气候态分布不但可以作为日后研究其年际变化的基础,而且还可以为大气环流模式对大气环流模拟能力的评估提供重要的参考。 相似文献
16.
夏季西风带定常扰动对东北亚阻塞高压的影响 总被引:6,自引:4,他引:6
利用ECMWF 1980~1988年9年的格点资料,分析了定常扰动与东北亚阻塞高压之间的关系。分析结果表明:定常扰动的分布对阻塞高压维持日数有着重要的影响,定常扰动的季节变化可以很好地说明阻塞高压冬季多在太平洋和大西洋上发生和维持,而夏季多在东北亚地区发生和维持的特征。此外,从定常扰动的分布可以看到,不仅中高纬地区上空的正距平强度可以影响着阻塞高压的发生和维持,其南侧的负距平强度也同样重要地影响着阻塞高压。分析结果还表明:不仅定常扰动的水平结构对阻高有着重要影响,其垂直结构亦有着重要影响。最后,对夏季定常扰动进行了波数域分析,表明在夏季定常扰动的作用主要通过其中所包含的行星波、特别是行星波1波来实现,定常扰动中行星波部分的振幅变化是影响阻塞高压发生和维持的重要物理机制。 相似文献
17.
北半球冬季行星波的传播及其输运作用 总被引:20,自引:0,他引:20
利用变换欧拉平均方程讨论了行星波动力学。观测和模拟结果都表明,在北半球冬季准定常行星波的经向传播存在两支波导。一支为高纬度波导,另一支则为低纬度波导。这些结果与理论分析相当一致。通过对EP通量进一步的研究表明,平流层爆发性增温是沿高纬度波导传播的异常行星波与平均气流相互作用的结果。而热带风场的准两年周期振荡(QBO)是低纬度平流层下层大气纬向平均流的一个重要年际变化,它可以影响行星波沿低纬度波导的传播;此外,由一个行星波一平均流耦合模式模拟的结果表明,这个热带风场的变化还可以通过波流相互作用调制行星波沿高纬度波导的传播。 行星波对臭氧的输运作用在文中也进行了分析。行星波强迫出的剩余平均环流表明,耗散的行星波有强的输运作用;向北的涡动热量输送可以强迫出一个正的输运环流,其在低纬度上升并在高纬度下沉。同时研究还表明,热带风场的QBO对行星波传播的调制对输运环流也有重要影响,模式结果表明,在QBO的东风位相期间行星波引起的输运作用明显增强,其结果可用于解释平流层高纬度臭氧的年际变化。 相似文献
18.
Tidal processes are examined that control the water exchange between two basins of the Trondheimsfjord through a narrow channel with sills. For this purpose, a non-hydrostatic numerical model based on the laterally averaged Reynolds equations in the Boussinesq approximation was developed. The model takes into account the real vertical fluid stratification, variable bottom topography and variable cross-section of the fjord. Numerical experiments were performed to investigate tidally generated internal waves and their influence on the water exchange.The model produces both baroclinic tides and tidally generated lee waves. It was found that, for the Skarnsund strait which connects the Middle Fjord and the Beitstadfjord, the internal tides generated over the Skarnsund sills are very weak. Their amplitudes do not exceed 1 m.The intense short internal waves, which are identified as unsteady lee waves, comprise the basic input of the total internal wave field. These waves are generated by tidal currents at sill breaks, are trapped by topography in the generation area and grow by continuing feedback into large-amplitude waves. As the tidal flow slackens, they move upstream as freely propagating waves.As essentially nonlinear responses, the lee waves cause a nonlinear water transport. The detailed analysis of the residual currents produced by unsteady lee waves (which are propagating in both directions from the Scarnsund sills) has shown, in particular, that the residual currents can reach values as high as 0.27 m s−1.It was also found that such currents exert a considerable effect on the water exchange through the Skarnsund strait between the adjacent basins. This mechanism can play an important role in water renewal and formation of the Beitasdfjord waters. 相似文献
19.
Wu Rongsheng 《Acta Meteorologica Sinica》1987,1(2):143-150
The energy flux derived from the barotropic vorticity equation differs from that obtained directly from the momentum equation.We re-study this problem raised in the early 1960s.The results show that if the momentum equation is rewritten in such a way that it contains the same conditions as that for the barotropic vorticity equation,then the same form of average energy flux can be obtained for the waves with constant amplitudes.With this new momentum equation,the potential energy of Rossby wave is derived and Lagrangian of nonlinear barotropic vorticity equation can be approximately found with this potential energy.This provides a physical basis for studying the dynamics of nonlinear Rossby wave with the approach of calculus of variation. 相似文献
20.
Analysis of Stationary-Wave Nonstationarity in the Northern Hemisphere 500-hPa Height Field 
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下载免费PDF全文 ZHOU Guohu WANG Panxing SHI Ning LI Qiaoping SHE Gaojie 《Acta Meteorologica Sinica》2010,24(3):287-296
In this paper, the concept of stationary-wave nonstationarity is presented and elucidated in the framework of the Lorenz circulation decomposition. This concept indicates the relative magnitude of the zonal nonuniform abnormity to the intensity of stationary waves on the monthly mean scale. Based on the Lorenz circulation decomposition, the nonstationarity degree Ius(Ilus) of the global (local) stationary waves is defined, and then used to analyze the stationary-wave nonstationarity at 30° 60°N, where the intensity of stationary waves at 500 hPa in the Northern Hemisphere, as is well known, is very high. The following findings are obtained: (1) There exist seasonal southward and northward movements in the position of the nonstationarity zones of the global stationary waves. The steady stationary waves occur in midlatitudes (35°-55°N) in winter and in the subtropical region (south of 35°N) in summer, associated with the major troughs over East Asia and North America and the weak European trough in winter, and with the relatively steady subtropical high system in summer. A high value center of Ius is at 35°N in spring and 50°N in summer, which might be caused by the seasonal variation of stationary-wave intensity, particularly in association with the interannual variability of trough ridge positions of stationary waves on the monthly mean maps. (2) There exists obvious asymmetry in Ilus, with the steady zones always located in the areas controlled by strong troughs/ridges and the unsteady ones in the areas where the stationary-wave intensity is low. The Ilus in the subtropics (south of 35°N) is larger in winter than in summer, and vice versa in the midlatitude region (north of 35°N). The summertime distribution of Ilus on the whole shows a rather complicated structure. However, North Europe is the most unsteady area for local stationary waves, as represented by high values of Ilus in both summer and winter, while over the North American continent (about 120°E-60°W), the °Ilus is slightly less than 1 in summer, indicating that the stationary waves in this region are more steady than those over other mid and high latitude regions. (3) From North China to Northwest Pacific, there is a high value zone of Ilus in summer, with its center (45°N, 130°E) located in the east of Heilongjiang Province. This influences the summer climate of northern China, including Northeast, North, and Northwest China. It is obvious that the nonstationarity is an intrinsic attribute of stationary waves, and can be regarded as being of the same importance as the intensity and energy-spectrum structure of stationary waves in the studies of the general circulation system. 相似文献