共查询到20条相似文献,搜索用时 31 毫秒
1.
In the context of 1982-1994 NCEP/NCAR wind at 12-level isobaric surfaces on a global basis calculation is made of the barotropic(mass-weighed vertical mean) and baroclinic components(difference between the actual wind at each level and barotropic component) of atmospheric flow fields,followed by dealing with the distribution features of barotropic and baroelinie patterns globally in winter and summer,alongside with the classification of global monsoons according to the surface barotropic/baroclinic patterns.Evidence suggests that the seasonal variation of both components will lead to the reversal of a prevailing wind between winter and summer,thus causing a related monsoon:the baroclinie flow pattern is indicative of a thermal circulation driven by atmospheric inhomogeneous heating chiefly from land-sea thermal contrast whilst the barotropic counterpart represents the result mainly from dynamic effects,which is helpful to the understanding of monsoon nature.And further study shows that the classical monsoon regions in tropical Asia,Africa and South America fall into a baroclinic category,those in the bi-hemispheric subtropical Pacific into a barotropic type and the East Asian subtropical monsoon generated underthe joint action of both the patterns falls into a mixed category. 相似文献
2.
管兆勇 《南京气象学院学报》2000,23(3):313-322
使用NCEP/NCAR40年(1958~1997年)月平均再分析资料,通过动力学论断研究了大气斜压/正压运动动能的变化及其相互转换,分析了亚洲季风变动与这两种动能变化的联系。指出:季风区大气运动动能的组成和变化具有独特的特征。冬季风时期大气斜压运动动能与正压运动动能具有正相关线性关系,斜压运动能向正压运动动能转换;春、秋季无论是东亚还是印度季风区斜压运动动能与正压运动动能之间转换都处于极小值,只是 相似文献
3.
应用正、斜压涡度拟能方程,对1998年6月3~11日发生在鄂霍次克海的一次阻塞环流进行诊断。结果表明:阻塞区内总涡度拟能和正压涡度拟能具有显著的变化,它清楚地揭示了阻塞过程中酝酿、维持和崩溃阶段中的不同特征,而正、斜压动能所显示的阻塞过程的变化特征则不明显。正、斜压涡度拟能场相互转换及阻塞区内外正、斜压涡度拟能场的净通量机制是鄂霍次克海阻塞环流建立和维持的两项主要因子。其过程是:首先通过斜压涡度拟能净通量机制,使斜压涡度拟能增长;又通过正斜压涡度拟能场的转换机制将增长的斜压涡度拟能转为正压涡度拟能;与此同时,通过正压涡度拟能净通量机制使正压涡度拟能增长。这两种不同的机制相互结合,从而使正压涡度拟能增长和维持,形成阻塞环流。而斜压涡度拟能增长甚微。 相似文献
4.
Changes in the normal mode energetics of the general atmospheric circulation are assessed for the northern winter season (DJF) in a warmer climate, using the outputs of four climate models from the Coupled Model Intercomparison Project, Phase 3. The energetics changes are characterized by significant increases in both the zonal mean and eddy components for the barotropic and the deeper baroclinic modes, whereas for the shallower baroclinic modes both the zonal mean and eddy components decrease. Significant increases are predominant in the large-scale eddies, both barotropic and baroclinic, while the opposite is found in eddies of smaller scales. While the generation rate of zonal mean available potential energy has globally increased in the barotropic component, leading to an overall strengthening in the barotropic energetics terms, it has decreased in the baroclinic component, leading to a general weakening in the baroclinic energetics counterpart. These global changes, which indicate a strengthening of the energetics in the upper troposphere and lower stratosphere (UTLS), sustained by enhanced baroclinic eddies of large horizontal scales, and a weakening below, mostly driven by weaker baroclinic eddies of intermediate to small scales, appear together with an increased transfer rate of kinetic energy from the eddies to the zonal mean flow and a significant increase in the barotropic zonal mean kinetic energy. The conversion rates between available potential energy and kinetic energy, C, were further decomposed into the contributions by the rotational (Rossby) and divergent (gravity) components of the circulation field. The eddy component of C is due to the conversion of potential energy of the rotational adjusted mass field into kinetic energy by the work realized in the eddy divergent motion. The zonal mean component of C is accomplished by two terms which nearly cancel each other out. One is related to the Hadley cell and involves the divergent component of both wind and geopotential, while the other is associated to the Ferrel cell and incorporates the divergent wind with the rotationally adjusted mass field. Global magnitude increases were found in the zonal mean components of these two terms for the warmer climate, which could be the result of a strengthening and/or widening of both meridional cells. On the other hand, the results suggest a strengthening of these conversion rates in the UTLS and a weakening below, that is consistent with the rising of the tropopause in response to global warming. 相似文献
5.
In this work, we have investigated the evolution of the summer air–sea interaction in the North Atlantic Ocean and the physical
processes involved using reanalysis data and model simulation. It is found that an atmosphere disturbance over the North Atlantic
Ocean in the preceding winter favors the build-up of a North Atlantic horseshoe-like sea surface temperature anomaly (SSTA)
pattern in the summer through modifying the northeast trade winds and changing ocean upwelling and downwelling. The changed
ocean condition (SSTA, upwelling, and downwelling) further intensifies the atmosphere disturbance as a positive feedback.
The thermal advection of the atmosphere disturbance weakens the SSTA pattern in the following autumn and winter. The anomalous
circulation associated with the air–sea interaction in the observations is characterized by a barotropic structure in the
middle and high latitudes of the North Atlantic Ocean. The baroclinic component is enhanced in the model simulation, particularly
in the seasons from summer to winter. The life cycle of the air–sea interaction is about 1 year in both the observations and
simulations. 相似文献
6.
东亚副热带夏季风环流指数及其与中国气候的关系 总被引:3,自引:1,他引:3
采用大气环流正、斜压分解方法,从东亚副热带夏季风为正、斜压混合型季风观点出发,定义并计算了1958-1997年东亚副热带夏季风环流指数。该环流指数与1961-1995年中国160站夏季降水、气温的相关分析表明,它与中国东部夏季降水和气温的关系密切:强季风年,以河套地区为中心的黄河流域及华北地区多雨,长江流域少雨,华南和东南沿海多雨,以长江流域为中心的全国绝大部分地区气温偏高。弱季风年情况相反。此外,还将该环流指数与目前常用的4种东亚夏季风指数进行了对比分析。 相似文献
7.
This study aims to explore the interdecadal variation of South Asian High (SAH) and its relationship with SST (Sea surface temperature) of the tropical and subtropical regions by using the NCEP/NCAR monthly reanalysis data from 1948 to 2012, based on the NCAR CAM 3.0 general circulation model. The results show that: 1) the intensity of SAH represents a remarkable interdecadal variation characteristic, the intensity of SAH experienced from weak to strong at the late 1970s, and after the late 1970s , its strength is enhanced and the area is expanded in the east-west direction. The expansion degree is greater westward than eastward, while it is opposite in summer. 2) Corresponding to the interdecadal variation of SAH intensity, after the late 1970s, the divergent component of wind field has two ascending and three descending areas. Of the two ascending areas, one is located in the East Pacific, the other location varies with the season from the Indian Ocean in winter to the South China Sea and West Pacific in summer. Three descending areas are located in the north-central Africa, the East Asia and the Middle Pacific region respectively. 3) Corresponding to the interdecadal variation of SAH intensity, the rotational component of wind field at the lower level is an anomalous cyclone over the South China Sea and West Pacific in summer, while in winter, it is an anomalous cyclone over the Indian Ocean, and an anomalous anticyclone over the equatorial Middle Pacific. 4) Numerical simulations show that the interdecadal variation of SAH is closely related to the SST of the tropical and subtropical regions. The SST of Indian Ocean plays an important role in winter, while in summer, the SST of the South China Sea and West Pacific plays an important role, and the SST of the East Pacific also plays a certain role. 相似文献
8.
采用1979~1994年NCEP/NCAR再分析风场资料和OLR资料,研究了热带对流的变化特征,讨论了热带对流年际变化与东亚夏季风的关联。指出:夏季热带对流存在以西太平洋暖池附近和赤道中太平洋附近中心的年际变化方差大值区,且这两个中心的充变化呈偶极型反位相振荡,这种偶极型对流活动与东亚夏季风有密切关系。当暖池附近对流偏强(弱),赤道中太平洋附近对流偏弱(强)时,东亚夏季风偏强(弱),雨带偏北(南) 相似文献
9.
正、斜压涡度拟能相互作用对乌拉尔阻塞过程的影响 总被引:1,自引:0,他引:1
研究表明,正压涡度拟能的增强和减弱是乌拉尔山上空阻塞过程的重要特征,正压涡度拟能增强的主要机制是斜压涡度拟能向正压涡度拟能的转换,而斜压涡度拟能的来源则是阻塞区外斜压涡度拟能向阻塞区的净输送和阻塞区内斜压涡度拟能的净生成。正压涡度拟能减弱的主要机制足耗散机制和β效应。因此。阻塞过程是正、斜压涡度拟能相互作用的结果。纬向斜压风对斜压涡度的输送在阻塞的维持和崩溃中具有重要的作用,经向斜压风对斜压涡度的输送在阻塞环流的建立中具有重要的作用,经向正压风对正压涡度拟能的净输送和斜压风对涡度拟能的净输送也具有重要贡献。 相似文献
10.
本文利用多年月平均资料计算了北半球中高纬月平均环流正压、斜压动能的年变化特征。结果表明无论正压、斜压动能都具有明显的年变化,而且两者的变化趋势也是一致的,但是正压动能要比斜压动能对总动能的贡献大得多。环流异常具有相当正压的垂直结构。有关结论可为长期数值预报模式的简化提供依据。 相似文献
11.
东亚冬季风异常与全球大气环流变化 I. 强弱冬季风影响的对比研究 总被引:19,自引:6,他引:13
利用ECMWF资料挑选出一个强冬季风年(1986年)和一个弱冬季风年(1980年),通过个例分析对各种气象要素场及中高纬度大尺度环流在强弱冬季风年的差异特征进行比较。分析结果表明:东亚冬季风是全球大气环流的一个重要组成部分,冬季风异常关联着全球环流的异常;这种异常不仅在中高纬度环流中表现出来,而且在热带地区大尺度流场上也尤为显著。强弱冬季风所对应的长波槽脊分布、低纬对流特征、三维流场结构都是截然不同的。冬季风异常不但造成了同期环流形势的差异,而且对后期环流和天气状况也有影响。 相似文献
12.
In this paper, the dynamic disturbances to various basic zonal currents caused by the Tibetan Plateau are simulated by means of a three-level primitive equation model, in which σ is used as the vertical coor-dinate. Four types of currents have been used, i. e. the barotropic homogeneous current, barotropic jet stream, baroclinic current and the zonal mean current in summer. The results are helpful to understand the dynamic effects of the Tibetan Plateau on the general circulation over East Asia. 相似文献
13.
从含非绝热项的准地转运动方程组出发,分析了青藏高原大尺度热力作用下非绝热Rossby波的一些性质,从理论上证明当背景西风气流为正压时,冬季高原冷却作用有利于Rossby波的经向传播,夏季高原大尺度热力作用不利于波动的经向传播。非绝热Rossby波的频率方程说明冬季高原的热力作用是中纬季节内振荡的重要激发机制。同时,在背景西风气流为纯斜压条件下,求解了高原热力作用下非绝热Rossby波的频率,并由频率方程说明冬季高原热力作用有利于波动向不稳定方向发展,而夏季高原的大尺度热力作用对波动稳定性的影响存在临界值。 相似文献
14.
西风槽与强热带风暴配置下动力正、斜压性对暴雨影响研究 总被引:2,自引:2,他引:0
用加密气象站降水资料、NCEP再分析资料以及WRF模式的精细化模拟产品资料,对2011年6月24日20时-25日20时,由强热带风暴“米雷”与西风槽结合造成的江淮区域暴雨过程进行分析和诊断.结果表明:西风槽温压场斜压性显著,强热带风暴温压场正压性显著,构成了有利于中小尺度系统和暴雨发生发展的环流背景.由强热带风暴携带而来的水汽,路程近、速度快,在暴雨区形成深厚的水汽层.暴雨区具有两个上下叠置的垂直上升运动中心,保持对水汽的深厚强抬升,维持暴雨环流系统的强度.暴雨区环境大气流场动力正、斜压分解显示,此次暴雨过程大气流场的斜压成分占显著的主导地位;暴雨开始阶段,正压动能向斜压动能的转换迅速增强,各分项和总项都达到最大值;其后的暴雨阶段,转换强度逐渐减弱,暴雨结束时各项都接近0值,甚至出现弱的斜压动能向正压动能的转换. 相似文献
15.
We discuss the nonlinear transfers possible in a quasigeostrophic fluid with a basic stratification taken from oceanic data. The energy and enstrophy conservation laws imply a cascade of energy to larger total scale (including both the horizontal scale, defined as wavelength/2π, and the deformation radius of the vertical mode). The triplet interactions among components with various horizontal scales and vertical structures, represented by the vertical mode numbers, are considered in detail for exchanges involving the barotropic and first three baroclinic modes. The initial transfer rates from one component into the other two are estimated and the most rapid transfers described as a function of the initial scale and mode number. These results suggest that barotropic motions will cascade to larger-scale barotropic motions, first baroclinic small-scale motions will transfer to first baroclinic larger scales, and first baroclinic large-scale motions will cascade to barotropic and first baroclinic motions at the deformation scale. Second and third mode motions prefer to transfer energy into small-scale (second or third mode deformation radius) first and third baroclinic mode motions.We also show the relationship of these triplet interactions to Rossby wave instabilities and resonant triads. For the latter motions, the weakness of the nonlinearity adds additional constraints which impty that the motions will tend to become zonal. 相似文献
16.
In a general baroclinic atmosphere,when the basic state includes meridional circulation,the sta-tionary waves might not only pass through the equatorial easterlies,but also strengthen significantly.The orographic forcing in the Northern Hemisphere mid-latitude might cause marked responses in thelow latitude atmosphere.This suggests that the meridional circulation plays an important role in theconnection of stationary responses in mid and low latitudes,and so does the heating forcing in theNorthern Hemisphere mid-latitude.Forced by the heating forcing in the Northern Hemisphere mid-latitude,the features similar to the Northern Hemisphere summer monsoon circulation can be ob-tained.It appears that the meridional circulation plays certain role in the formation of summer mon-soon circulation.The heating anomaly forcing located at the eastern equatorial Pacific makes the sta-tionary waves present PNA(Pacific-North America)pattern in the winter hemisphere,but it doesnot in the summer hemisphere.It suggests that the meridional circulation has a marked influence onthe route of stationary wave propagation both in the winter and summer hemispheres. 相似文献
17.
Using diagnostic analyses and an AGCM simulation, the detailed mechanism of Indian Ocean Dipole (IOD) influence on the early winter Tibetan Plateau snow cover (EWTPSC) is clarified. In early winter of pure positive IOD years with no co-occurrence of El Ni?o, the anomalous dipole diabatic heating over the tropical Indian Ocean excites the baroclinic response in the tropics. Since both baroclinic and barotropic components of the basic zonal wind over the Arabian Peninsula increase dramatically in early winter due to the equatorward retreat of the westerly jet, the baroclinic mode excites the barotropic Rossby wave that propagates northeastward and induces a barotropic cyclonic anomaly north of India. This enables the moisture transport cyclonically from the northern Indian Ocean toward the Tibetan Plateau. The convergence of moisture over the plateau explains the positive influence of IOD on the EWTPSC. In contrast, the basic zonal wind over the Arabian Peninsula is weak in autumn. This is not favorable for excitation of the barotropic Rossby wave and teleconnection, even though the IOD-related diabatic heating anomaly in autumn similar to that in early winter exists. This result explains the insignificant (significant positive) partial correlation between IOD and the autumn (early winter) Tibetan Plateau snow cover after excluding the influence of ENSO. The sensitivity experiment forced by the IOD-related SST anomaly within the tropical Indian Ocean well reproduces the baroclinic response in the tropics, the teleconnection from the Arabian Peninsula, and the increased moisture supply to the Tibetan Plateau. Also, the seasonality of the atmospheric response to the IOD is simulated. 相似文献
18.
冬夏东亚季风环流对太平洋热状况的响应 总被引:9,自引:3,他引:6
冬夏隔季韵律关系一直是我国长期天气预报和短期气候预测的一个重要依据,然而迄今为止对它们之间的物理过程及成因机理并不十分清楚。利用NCEP/NCAR全球2.5°×2.5°网格月平均再分析资料,研究1951~2000年冬夏东亚季风环流异常变化与太平洋海面温度(SST)的关系及对关键海温区响应机理。研究指出:冬夏东亚季风环流隔季韵律关系及其年际变化与赤道东太平洋海面温度异常(SSTA)变化密切相关,冬季赤道东太平洋出现La Ni~na(El Ni~no)型的SST分布,有利冬、夏东亚季风环流加强(减弱),其影响过程通过赤道Walker环流强(弱)以及东亚地区Hadley环流强(弱)过程完成。冬季赤道东太平洋海温变化是冬、夏东亚环流季节以及年际变化的一个重要外强迫因子。 相似文献
19.
20.
Analysis of the Simulated Climatic Characters of the South Asia High with a Flexible Coupled Ocean-Atmosphere GCM 总被引:1,自引:0,他引:1
The ability of a climate model to reproduce the climatic characters of the South Asia High (SAH) is assessed by analyzing the 110-yr output of a Flexible Coupled GCM, version 0 (FGCM-0). Comparing the results of FGCM-0 with the NCEP/NCAR reanalysis data, the major findings show that FGCM-0 has better results in simulation of the geopotential height field at 100 hPa, and reproduces fairly the main atmospheric circulation centers. However, there are still some differences in the simulated results compared with the reanalysis data. The coupled model also successfully reproduces the mean seasonal variation of the SAH, that is, it moves from the Pacific Ocean to the Asian continent, remaining over the Tibetan Plateau from winter to summer, and then withdraws from the Tibetan Plateau to the Pacific Ocean from summer to winter. However, such observed relationships between the SAH positions and the summer precipitation patterns cannot be fairly reproduced in the FGCM-0. 相似文献