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1.
Huang Ronghui 《大气科学进展》1985,2(1):81-92
In this paper, a quasi-geostrophic, 34-level spherical coordinate model with Rayleigh friction, New-tonian cooling and the horizontal eddy thermal diffusivity is used to simulate the three-dimensional teleconnection in the summer circulation over the Northern Hemisphere.The computed results show that the change of the heat source over the Tibetan Plateau may cause the change of the atmospheric circulation over the middle and high latitudes in the Northern Hemisphere. When the heat source over the Tibetan Plateau is enhanced, it may cause the Tibetan high to enhance over South Asia and cause the change of the atmospheric circulation over East Asia and North America, i. e. Northeast China and North Japan will be controlled by a trough, which brings about a cold summer in this area. In the same way, an anticyclone will be enhanced over the Okhotsk sea. Moreover, another trough will be formed over Alaska, while another ridge will develop to the northeast of North America. Besides, the Pacific subtropical high will be weakened. These results are in good agreement with those obtained from the observed data. 相似文献
2.
Sensitivity of East Asian climate to the progressive uplift and expansion of the Tibetan Plateau under the mid-Pliocene boundary conditions 总被引:3,自引:0,他引:3
A global atmospheric general circulation model has been used to perform eleven idealized numerical experiments, i.e., TP10, TP10, .., TP100, corresponding to different percentages of the Tibetan Plateau altitude. The aim is to explore the sensitivity of East Asian climate to the uplift and expansion of the Tibetan Plateau under the reconstructed boundary conditions for the mid-Pliocene about 3 Ma ago. When the plateau is progressively uplifted, global annual surface temperature is gradually declined and statistically significant cooling signals emerge only in the Northern Hemisphere, especially over and around the Tibetan Plateau, with larger magnitudes over land than over the oceans. On the contrary, annual surface temperature rises notably over Central Asia and most parts of Africa, as well as over northeasternmost Eurasia in the experiments TP60 to TP100. Meanwhile, the plateau uplift also leads to annual precipitation augmentation over the Tibetan Plateau but a reduction in northern Asia, the Indian Peninsula, much of Central Asia, parts of western Asia and the southern portions of northeastern Europe. Additionally, it is found that an East Asian summer monsoon system similar to that of the present initially exists in the TP60 and is gradually intensified with the continued plateau uplift. At 850 hPa the plateau uplift induces an anomalous cyclonic circulation around the Tibetan Plateau in summertime and two anomalous westerly currents respectively located to the south and north of the Tibetan Plateau in wintertime. In the mid-troposphere, similarto-modern spatial pattern of summertime western North Pacific subtropical high is only exhibited in the experiments TP60 to TP100, and the East Asian trough is steadily deepened in response to the progressive uplift and expansion of the Tibetan Plateau. 相似文献
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ANALYSES OF THE DYNAMIC EFFECTS ON WINTER CIRCULATION OF THE TWO MAIN MOUNTAINS IN THE NORTHERN HEMISPHERE——Ⅱ.VERTICAL PROPAGATION OF PLANETARY WAVES 
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下载免费PDF全文 A linear,hemispheric and stationary spectral model with multilayers in the vertical was employed to simulate thevertical propagation of waves triggered by mountains.Results show that,in cooperation with the East Asia zonal meanflow,Tibetan Plateau can excite a strong wavenumber 1 perturbation in the stratosphere with its ridge and trough lo-cated over the Pacific and Atlantic Oceans respectively.On the other hand,the stratospheric wavenumber 1 perturbationcaused by the mechanical forcing of the Rocky Mountains in cooperation with the North America zonal mean flow isvery weak.Calculations from observational data of the vertical profile of critical wavenumber for vertically propagatingwaves imply that the tropospheric wavenumber 1 perturbation can hardly penetrate the North America tropopause up-wards,whereas it can freely propagate through the East Asia tropopause into the stratosphere.Two-dimensional E-Pcross-sections obtained from both observational data and simulated results also demonstrate that waves excited by theRocky Mountains are refracted towards low latitudes in the troposphere during their upward propagation:whereas,inaddition to the above mentioned equatorward leaning branch,the wavenumber 1 and 2 planetary waves excited by theTibetan Plateau possess another branch which is refracted to high latitudes during upward propagation and penetratesthe tropopause into the stratosphere.It is therefore concluded that the difference in the horizontal and vertical wavepropagations in the two hemispheres is a result of the different dynamical forcing induced by the two main mountains inthe Northern Hemisphere. 相似文献
5.
ANALYSES OF THE DYNAMIC EFFECTS ON WINTER CIRCULATION OF THE TWO MAIN MOUNTAINS IN THE NORTHERN HEMISPHERE--Ⅱ.VERTICAL PROPAGATION OF PLANETARY WAVES 下载免费PDF全文
下载免费PDF全文 A linear,hemispheric and stationary spectral model with multilayers in the vertical was employed to simulate the vertical propagation of waves triggered by mountains.Results show that,in cooperation with the East Asia zonal mean flow,Tibetan Plateau can excite a strong wavenumber 1 perturbation in the stratosphere with its ridge and trough located over the Pacific and Atlantic Oceans respectively.On the other hand,the stratospheric wavenumber 1 perturbation caused by the mechanical forcing of the Rocky Mountains in cooperation with the North America zonal mean flow is very weak.Calculations from observational data of the vertical profile of critical wavenumber for vertically propagating waves imply that the tropospheric wavenumber 1 perturbation can hardly penetrate the North America tropopause upwards,whereas it can freely propagate through the East Asia tropopause into the stratosphere.Two-dimensional E-Pcross-sections obtained from both observational data and simulated results also demonstrate that waves excited by the Rocky Mountains are refracted towards low latitudes in the troposphere during their upward propagation:whereas,in addition to the above mentioned equatorward leaning branch,the wavenumber 1 and 2 planetary waves excited by the Tibetan Plateau possess another branch which is refracted to high latitudes during upward propagation and penetrates the tropopause into the stratosphere.It is therefore concluded that the difference in the horizontal and vertical wave propagations in the two hemispheres is a result of the different dynamical forcing induced by the two main mountains in the Northern Hemisphere. 相似文献
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亚洲中部春夏季大气环流持续性异常与我国东部夏季旱涝的关系 总被引:1,自引:0,他引:1
通过对北半球(20oN以北)1958~2002年 500 hPa月平均高度场各格点的点对点月际相关系数的分析,探讨了环流的持续性。结果表明,亚洲中部上空存在着北半球中高纬度唯一的显著的高度场持续区,它的中心区位于(30oN~50oN, 70oE~110oE),这里正是广袤的青藏高原北坡、蒙古高原及黄土高原地区,一年中各月的持续性有明显的季节变化,冬末春初的2月对3月和3月对4月基本上没有持续性可言;4~5月出现了明显的持续性,相关系数突然增长到0.6;5月对6月的持续性继续增加,相关系数达到0.8。夏季至初秋(6~9月)各个月际稳定地保持着0.8的高相关系数。秋、冬各月持续性逐渐减弱,直至春季降到了最低。将1958~2002年中5~9月的月平均高度距平正、负持续最明显的两个7年的逐月环流和季环流作对比分析,得知在正持续年夏季东亚中纬度大气环流呈“西高东低”型;而负持续年的夏季则是“东高西低”型。它们都具有气候意义的稳定性。相应的,在明显正持续年夏季中国东部降水分布呈“北少南多”;而在明显负持续年则是“北多南少”。在这45年间,夏季亚洲中纬度500 hPa的月高度距平由负持续转为正持续,与中国东部降水由“北多南少”转为“南多北少”是对应的。分区逐日识别500 hPa天气系统的结果表明,正持续年亚洲中纬地区盛行高脊,长江中下游地区多低槽和辐合流型;负持续年则盛行低槽,长江中下游多副高控制和西南流型。揭示了中国夏季发生区域旱涝灾害的两种不同的气候进程和盛行天气过程。这样在5、6月份即可预测东亚夏季或盛夏环流形势与中国的降水趋势。 相似文献
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1998年大气环流异常及其对中国气候异常的影响 总被引:57,自引:8,他引:49
1998年受ENSO事件和青藏高原冬春季积雪多等因素的影响,北半球大气环流的主要特征是:500hPa西太平洋副高强大,夏季副高脊线位置偏南;冬、夏季风均较弱;赤道辐合带偏弱,在西太平洋生成和登陆影响我 斩台风和热带风暴异常偏少;夏季亚洲中高纬度经向环流发展,其它季节则以纬向环流为主;环流异常是影响1998年中国气候极其异常的主要原因。 相似文献
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热带海表温度持续异常对东亚初夏大气环流的影响 总被引:3,自引:1,他引:3
利用NCEP/NCAR月平均海表温度及北半球大气环流分析资料,系统研究了热带海洋表面温度持续异常状况下东亚初夏(5、6月份)大气环流的异常特征.研究发现,暖海温年,南亚高压、西太平洋副热带高压明显偏强,冷海温年明显偏弱;暖海温年,欧亚大陆南支西风急流明显减弱北移,东亚大陆对流层低层温度偏高或接近常年,青藏高原近地面温度偏高,而冷海温年,东亚大陆对流层低层温度偏低,5月份青藏高原近地面温度偏低.研究表明,海表温度的持续异常对东亚初夏大气环流的季节转换有重要影响. 相似文献
10.
利用逐日NCEP/NCAR再分析资料分析了春夏过渡季节青减高原非绝热加热和大气环流季节变化以及亚洲季风爆发的关系.结果表明,过渡季节的早期(5月中旬以前)青藏高原总非绝热加热与感热加热的时间演变曲线趋势一致,感热加热在过渡季节早期的环流演变中有很重要的作用.青藏高原非绝热加热的时间演变与北半球环流的季节变化和亚洲夏季风爆发有很好的相关.在过渡季节里,青藏高原非绝热加热的变化引起了海-陆热力差异对比的变化,给亚洲夏季风的爆发建立了有利的背景环境,对亚洲夏季风爆发有明显的影响.结果还表明,用各区域纬向风垂直差异的时空分布能更准确地表示季节变化的区域差异. 相似文献
11.
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
12.
利用改进的NCAR CCM3气候模式, 研究了1992年西北太平洋持续冷海温对东亚初夏季节大气环流的影响。西北太平洋冷海温不利于初夏东亚南支西风急流季节性北移, 引起亚洲东部沿海低槽明显加深, 东亚大槽平均高度场降低了4.66 dagpm, 从而也不利于西太平洋副热带高压的西伸加强。西北太平洋冷海温还不利于我国大陆初夏温度场回升, 特别是引起我国东北地区近地面温度下降2~5 ℃, 是影响东北冷夏现象的重要原因之一。模拟结果表明, 1992年初夏江淮入梅期较常年偏晚, 降水异常偏少, 与紧邻东亚大陆的西北太平洋持续冷海温有关。 相似文献
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An Index Measuring the Interannual Variation of the East Asian Summer Monsoon ——The EAP Index 总被引:57,自引:9,他引:48
HUANG Gang 《大气科学进展》2004,21(1):41-52
Based on the EAP (East Asia/Pacific) teleconnection in the summer circulation anomalies over ther Northern Hemisphere, an index measuring the strength of the East Asian summer monsoon, i.e., the so-called EAP index, is defined in this paper. From the analyses of observed data, it is clearly shown that the EAP index defined in this study can well describe the interannual variability of summer rainfall and surface air temperature in East Asia, especially in the Yangtze River valley and the Huaihe River valley, Korea,and Japan. Moreover, this index can also reflect the interannual variability of the East Asian summer monsoon system including the monsoon horizontal circulation and the vertical-meridional circulation cell over East Asia. From the composite analyses of climate and monsoon circulation anomalies for high EAP index and for low EAP index, respectively, it is well demonstrated that the EAP index proposed in this study can well measure the strength of the East Asian summer monsoon. 相似文献
14.
本文利用北半球正压原始方程模式和理想初始场,加入北半球实际的平滑地形的作用,对北半球超长波2波型、3波型、长波4波型、5波型,分别进行了240小时的积分计算。从考虑地形和不考虑地形的四组结果对比中,发现地形对上述四种波型的演变有很大的影响,证实了地形作用确系影响大气环流、形成某些天气气候特征的重要因素之一;同时发现,在地形的动力作用下,北半球大气形成了一些重要的环流系统。例如,极涡向北欧偏移,东亚、北美大槽和阿拉斯加脊的维持,都与地形有密切关系。在地形作用下:(1)北太平洋西槽东脊,而北大西洋西脊东槽。(2)阻塞和切断形势的出现更为频繁、典型。(3)在欧亚大陆上,m=4时出现倒Ω流型,而m=5时,出现两槽一脊型。 相似文献
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1979年初夏青藏高原上空大气的非绝热加热和动能收支的特征 总被引:1,自引:1,他引:1
本文根据青藏高原气象科学实验期间的资料,计算了1979年5—8月青藏高原地区大气的非绝热加热和动能收支。其结果表明:青藏高原地区上空的能量收支有其明显的独特性,夏季青藏高原地区的大气是北半球重要的热源和能源区。并指出,青藏高原地区上空夏季型环流结构的建立要超前于东亚大气环流的季节性变化。 相似文献
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FEATURES OF DIABATIC HEATING AND KINETIC ENERGY BUDGET OVER THE QINGHAI-XIZANG PLATEAU DURING EARLY SUMMER 1979 下载免费PDF全文
下载免费PDF全文 The diabatic heating and kinetic energy budget over the Qinghai-Xizang Plateau are estimated,based onthe data collected by the Qinghai-Xizang Plateau Meteorological Science Experiment (QXPMEX) during thesummer of 1979.The results revealed that the energy budget over the Plateau has its peculiarity.Duringthe summer,the atmosphere over the Plateau is one of the important source regions of heat and kinetic energyin the Northern Hemisphere.It is indicated that the formation of summer circulation over the Plateau isearlier than the seasonal transition of general circulation over East Asia. 相似文献
17.
The low frequency oscillation in both hemispheres and its possible role in the dust weather storm events over North China in 2002 are analyzed as a case study. Results show that the Aleutian Low is linked with the Circumpolar Vortex in the Southern Hemisphere on a 30-60-day oscillation, with a weak Circumpolar Vortex tending to deepen the Aleutian Low which may be helpful for the generation of dust storm events. The possible mechanism behind this is the inter-hemispheric interaction of the mean meridional circulation, with the major variability over East Asia. The zonal mean westerly wind at high latitudes of the Southern Hemisphere in the upper level troposphere may lead that of the Northern Hemisphere, which then impacts the local circulation in the Northern Hemisphere. Thus, the low frequency oscillation teleconnection is one possible linkage in the coupling between the Southern Hemisphere circulation and dust events over North China. However, the interannual variation of the low frequency oscillation is unclear. 相似文献
18.
The role of various mountains in the Asian monsoon system is investigated by
AGCM simulations with different mountains. The comparison of the simulation
with Asian mountains (MAsia run) with the simulation without mountains (NM
run) reveals that the presence of the Asian mountains results in a stronger
South Asian summer monsoon (SASM), characterized by enhanced
lower-tropospheric westerly winds, upper-tropospheric easterly winds, and
stronger water vapor convergence. In East Asia, the southerly winds and
water vapor convergence are significantly strengthened in association with
the intensified zonal pressure gradient between the East Asian continent and
the Pacific Ocean. Both the dynamical and thermodynamic forcing of the
Tibetan Plateau play important role in strengthening the Asian summer
monsoon. In winter, the presence of Asian mountains significantly
strengthens the continental high, which leads to a stronger Asian winter
monsoon. The presence of African--Arabian mountains helps to intensify the
exchange of mass between the Southern Hemisphere and Northern Hemisphere by
strengthening the cross equatorial flows in the lower and upper troposphere
over East Africa.
Asian mountains also play a crucial role in the seasonal evolution of Asian
monsoons. In comparison with the NM run, the earlier onset and later
withdrawal of lower-tropospheric westerly winds can be found over South Asia
in the MAsia run, indicating a longer SASM period. The African--Arabian
mountains also moderately contribute to the seasonal variation of the South
Asian monsoon. In East Asia, the clear south-to-north march of the southerly
winds and subtropical rainfall starts to occur in early summer when the
effects of Asian mountains are considered. 相似文献
19.
分别对5月和6~8月东亚东北冷涡活动典型的多寡年份北半球500 hPa高度距平场进行合成、频次累积和相关分析,结果表明:东亚东北冷涡持续性活动不仅与前期、同期和后期北半球的大气环流异常密切相关,而且也是异常区的重要组成部分;500hPa 5月和6~8月东北冷涡活动多寡年的同期500hPa高度距平合成场差异显著;6~8月东北冷涡典型多寡年的同期距平场均与前冬(12~2月)的主要异常区反位相,存在半年尺度的遥相关,与北太平洋涛动(NPO)类同的500 hPa高度距平场,如前冬呈正位相,预报6~8月东北冷涡持续活动弱,反之,冷涡持续活动强;合成场和相关场通过信度检验的关键区主要位于东亚中高纬度至阿留申群岛及其以南的副热带地区、青藏高原接近巴基斯坦一侧和北非乍得盆地与撒哈拉大沙漠等地区;由此可以认为东亚地区中高纬度5月和6~8月东北冷涡持续性活动是北半球大气环流异常持续或调整的重要表征. 相似文献
20.
1995年北半球大气环流的主要特征是:500hPa西太平洋副热带高压异常偏强,初夏脊线位置偏南,盛夏偏北;亚洲西风带,春季经向环流发展,初夏东亚阻塞形势稳定,盛夏纬向环流盛行;500hPa青藏高原位势高度夏半年偏高,冬半年偏低;北半球100hPa位势高度低纬度持续偏高,中高纬度持续偏低,南亚高压偏强;1994年开始的厄尔尼诺事件于1995年3月结束。 相似文献