关于亚洲夏季风爆发及北半球季节突变的物理机理的诊断分析:Ⅱ青藏高原及邻近地区地表感热加热的作用   总被引：8，自引：2，他引：6  

张永生  吴国雄 《气象学报》1999,57(1):56-73

本文是系列文章的第二篇,首先分析了１９８９年亚洲夏季风爆发时期青藏高原及邻近地区地表感热通量和大气温度场季节变化的基本特征,着重讨论了春季高原地表感热加热和亚洲季风爆发的联系,然后分析了１９８０～１９８９年１０ａ南海季风爆发的气候学特征。上述工作表明,在春末初夏过渡季节,高原上空大气温度变化出现阶段性的跃升,并同亚洲夏季风阶段性的爆发有很好的对应关系。高原地表感热通量的持续增大导致了对流层高层局地反气旋式扰动环流的出现,使南亚反气旋北进的过程明显受到高原局地热力环流的调制,而热带东风急流入口区所产生的强烈的高层辐散,提供了有利于热带季风对流在南海地区首先爆发的动力学条件。此外,从５月份至６月中下旬,青藏高原、伊朗—阿富汗上空强大暖中心相继建立的结果,直接导致了热带地区上空大气南北温度梯度的反向依次在南海—孟加拉湾东部和阿拉伯海—印度次大陆由东向西相继建立,从而决定了亚洲季风建立的过程在不同地区爆发的时间不同。  相似文献   

东北太平洋辐合异常对西太平洋副高异常影响的数值试验   总被引：2，自引：0，他引：2  

钟中  吴国雄  沙文钰 《大气科学》1999,23(6):685-692

用一个5层原始方程数值模式,对西太平洋副热带高压异常进退的一种可能机制进行了数值试验。试验表明,东太平洋副高的异常增强能通过激发扰动西传引起西太平洋副高加强西进控制中国大陆东南部地区。  相似文献   

WAVE-MEAN FLOW INTERACTION AND FORMATION OF BLOCKING——PERSISTENT ANOMALOUS WEATHER IN CHINA IN THE SUMMER OF 1980          下载免费PDF全文

吴国雄  刘辉  陈飞  赵宇程  卢莹 《Acta Meteorologica Sinica》1995,(2)

In the summer of 1980,serious persistent abnormal weather occurred over vast areas in China.While record-break-ing cold and flood were observed in the reaches of the Changjiang and Huaihe Rivers,severe hot wave and drought dom-inated the entire northern China.The long-lasting disastrous weather is mainly due to the stable development and main-tenance of blocking anticyclone over the northeastern Asia.This study aims at the understanding of the roles oftime-varying weather system transport in the formation of the blocking.It was shown that during this period,there appeared continuous generation of synoptic-scale perturbations alongthe strong baroclinic zone over Europe and the western Asia.While such perturbations propagated eastward,energyconversion occurred.At equivalent barotropic layer,with weak dissipation,such energy conversion was subjected to theso-called bi-directional principle:while the energy of the synoptic-scale system cascaded to smaller scale system,amuch larger portion was transferred to the blocking system with larger scale.Potential vorticity diagnoses also revealedthat the transient weather systems played the roles of maintaining the mean anticyclonic vorticity to the south,and meancyclonic vorticity to the north,of the westerly jet,and exciting strong anticyclonic vorticity growth and correspondinggeopotential height increase in high latitude area downstream of the westerly diffluence region.The research also showed that,the intensity of the forcing of the blocking formation via wave-mean flowinteraction in this Asian case was much stronger than that occurring in the western Europe in the summer of 1976.It wastherefore concluded that when persistent abnormal weather in the northern China was studied,in addition to thesubtropical weather systems,attention should also be drawn to the development of baroclinic zone over Europe and thewestern Asia,and the propagation and transfer properties of the synoptic systems embedded in the baroclinic zone.  相似文献   

关于亚洲夏季风爆发及北半球季节突变的物理机理的诊断分析:Ⅰ季风爆发的阶段性特征   总被引：7，自引：1，他引：6  

张永生  吴国雄 《气象学报》1998,56(5):513-528

该工作将亚洲季风区作为一个复杂的海-陆-气耦合系统,来深入考察季风区海-气、陆-气相互作用的基本事实和物理过程,探讨它们在决定亚洲季风爆发及北半球行星尺度大气环流的季节突变的物理机理。本文是系列文章的第一篇,着重研究亚洲夏季风爆发的区域性和阶段性特征,以及过渡季节热带、副热带地区海-气、陆-气相互作用的基本事实,初步分析了它们之间的联系。研究表明,热带季风对流于4月底到5月初越过赤道进入北半球,首先出现在孟加拉湾东部-中南半岛西南部地区,然后于5月中旬和6月上旬末分别出现在南海和印度半岛地区,呈阶段性爆发的特征。季风对流在孟加拉湾东部-中南半岛西南部地区爆发阶段,在大气环流变化和对流活动中心位置出现区别于南海季风和印度季风爆发的特征。通过对地表感热通量和海表潜热通量的分析,表明热带海洋上海表感热通量甚小于海表潜热通量,南海季风爆发时期印度洋上海表潜热通量显著增大,印度季风爆发后海表潜热通量的高值中心在孟加拉湾和阿拉伯海上建立起来。印度洋上低层增强的过赤道气流引起的强烈的海-气相互作用导致海表水汽的大量蒸发,并通过其输送作用,为季风对流的爆发提供了充足的水汽来源。过渡季节在副热带地区(沿27.5～37.5°N纬带上), 青藏高原和西太平洋上地(海)表感热通量和潜热通量均有迅速的季节变化性, 但趋势相反。当青藏高原上地表感热通量和潜热通量呈阶段性的显著加大, 西太平洋上海表感热通量和潜热通量迅速减小。这种大陆和海洋对大气加热的显著的季节化的差异, 影响着大气环流的季节转变。  相似文献   

海气相互作用研究进展——美国海-气相互作用第九届学术会内容简介     

吴国雄 《气象》1998,24(7):3-4

海气相互作用研究进展——美国海－气相互作用第九届学术会内容简介吴国雄（中国科学院大气物理研究所ＬＡＳＧ①,北京１０００８０）海气相互作用不仅影响着风暴、气旋等短期天气过程,还影响着季风、大气涛动以及年代际变化等气候过程。ＡＭＳ第７８届年会期间举办了第...  相似文献   

青藏高原感热气泵影响亚洲夏季风的机制   总被引：6，自引：1，他引：5  

吴国雄  刘屹岷  何编  包庆  王子谦 《大气科学》2018,42(3):488-504

本文回顾了二十年来关于青藏高原感热驱动气泵(TP-SHAP)及其影响亚洲夏季风的研究进展,并从能量(θ)、位涡—加热(PV–Q)、和角动量守恒(AMC)的不同角度阐述其影响机制。指出高原斜坡上的表面感热加热改变了移向高原的大气质块的能量从而出现垂直抽吸的重要性。强调了高原加热产生的位涡强迫在近地层制造了强度大范围广的、环绕高原的气旋式环流,把丰沛的水汽从海洋输运到大陆,为季风对流降水提供充足的水汽条件。证明高原加热还通过改变其上空的温、压场的结构从而制造出高原上空近对流层顶的绝对涡度和位涡的最小值,在角动量平衡约束下,在亚洲季风区激发出与Hadley环流反向的季风经圈环流,从而为季风发生发展提供了大范围上升运动的背景。文中还对近年来有关青藏高原影响亚洲夏季风机制的讨论进行概述,并展望了未来的研究方向。  相似文献   

全球气候变化研究与科学数据   总被引：2，自引：0，他引：2  

吴国雄  林海  邹晓蕾  刘伯奇  何编 《地球科学进展》2014,(1)

在阐明气候系统和科学数据关系的基础上,提出气候变化研究应该重视地球系统研究对科学数据的需求。在回顾我国近10年来全球变化研究概况的基础上,指出了观测资料和数据再分析产品在全球变化研究中的重要性,并进一步总结了国外气象数据共享情况,最后对我国地球系统科学数据共享中心今后的发展提出了几点建议。  相似文献   

The Flexible Global Ocean-Atmosphere-Land system model, Spectral Version 2: FGOALS-s2   总被引：4，自引：0，他引：4  

包庆  林鹏飞  周天军  刘屹岷  俞永强  吴国雄  何编  何杰  李立娟  李剑东  李阳春  刘海龙  乔方利  宋振亚  王斌  王军  王鹏飞  王晓聪  王在志  吴波  吴统文  徐永福  于海洋  赵伟  郑伟鹏  周林炯 《大气科学进展》2013,30(3):561-576

The Flexible Global Ocean-Atmosphere-Land System model, Spectral Version 2 (FGOALS-s2) was used to simulate realistic climates and to study anthropogenic influences on climate change. Specifically, the FGOALS-s2 was integrated with Coupled Model Intercomparison Project Phase 5 (CMIP5) to conduct coordinated experiments that will provide valuable scientific information to climate research communities. The performances of FGOALS-s2 were assessed in simulating major climate phenomena, and documented both the strengths and weaknesses of the model. The results indicate that FGOALS-s2 successfully overcomes climate drift, and realistically models global and regional climate characteristics, including SST, precipitation, and atmospheric circulation. In particular, the model accurately captures annual and semi-annual SST cycles in the equatorial Pacific Ocean, and the main characteristic features of the Asian summer monsoon, which include a low-level southwestern jet and five monsoon rainfall centers. The simulated climate variability was further examined in terms of teleconnections, leading modes of global SST (namely, ENSO), Pacific Decadal Oscillations (PDO), and changes in 19th–20th century climate. The analysis demonstrates that FGOALS-s2 realistically simulates extra-tropical teleconnection patterns of large-scale climate, and irregular ENSO periods. The model gives fairly reasonable reconstructions of spatial patterns of PDO and global monsoon changes in the 20th century. However, because the indirect effects of aerosols are not included in the model, the simulated global temperature change during the period 1850–2005 is greater than the observed warming, by 0.6°C. Some other shortcomings of the model are also noted.  相似文献   

Seasonal evolution of subtropical anticyclones in the climate system model FGOALS-s2     

刘屹岷  胡俊  何编  包庆  段安民  吴国雄 《大气科学进展》2013,30(3):593-606

The simulation characteristics of the seasonal evolution of subtropical anticyclones in the Northern Hemisphere are documented for the Flexible Global Ocean-Atmosphere-Land Systemmodel, Spectral Version 2 (FGOALS-s2), developed at the State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics, the Institute of Atmospheric Physics. An understanding of the seasonal evolution of the subtropical anticyclones is also addressed. Compared with the global analysis established by the European Centre for Medium-Range Forecasts, the ERA-40 global reanalysis data, the general features of subtropical anticyclones and their evolution are simulated well in both winter and summer, while in spring a pronounced bias in the generation of the South Asia Anticyclone(SAA) exists. Its main deviation in geopotential height from the reanalysis is consistent with the bias of temperature in the troposphere. It is found that condensation heating (CO) plays a dominant role in the seasonal development of the SAA and the subtropical anticyclone over the western Pacific (SAWP) in the middle troposphere. The CO biases in the model account for the biases in the establishment of the SAA in spring and the weaker strength of the SAA and the SAWP from spring to summer. CO is persistently overestimated in the central-east tropical Pacific from winter to summer, while it is underestimated over the area from the South China Sea to the western Pacific from spring to summer. Such biases generate an illusive anticyclonic gyre in the upper troposphere above the middle Pacific and delay the generation of the SAA over South Asia in April. In midsummer, the simulated SAA is located farther north than in the ERA-40 data owing to excessively strong surface sensible heating (SE) to the north of the Tibetan Plateau. Whereas, the two surface subtropical anticyclones in the eastern oceans during spring to summer are controlled mainly by the surface SE over the two continents in the Northern Hemisphere, which are simulated reasonably well, albeit with their centers shifted westwards owing to the weaker longwave radiation cooling in the simulation associated with much weaker local stratiform cloud. Further improvements in the related parameterization of physical processes are therefore identified.  相似文献   

夏季青藏高原及周边上对流层水汽质量及其向平流层传输年际异常. I：水汽质量异常主导型     

唐南军  任荣彩  吴国雄  虞越越 《大气科学》2020,44(2):239-256

本文利用逐年7~8月平均的ERA-Interim再分析资料并结合SWOOSH(Stratospheric water and ozone satellite homogenized)水汽数据,分析了青藏高原及周边地区330~360 K层次水汽质量分布的年际异常特征及其成因。结果表明,水汽质量分布异常表现为整体异常型、东西偶极异常型和南北偶极异常型三个主导分布型。整体异常型在水汽质量整体偏多时,青藏高原地区对流和垂直向上的水汽质量非绝热传输偏强,上对流层为异常偏强的水汽质量非绝热辐合;此时对应南亚高压偏强,青藏高原地区上对流层的水汽质量绝热辐散和高原以西地区的水汽质量绝热辐合都异常偏强,水汽质量整体偏少时则相反。东西偶极异常型水汽质量呈西多/东少分布时,青藏高原西部(中东部)对流和垂直向上的水汽质量非绝热传输异常偏强(弱),上对流层的水汽质量非绝热辐合和水汽质量绝热辐散也异常偏强(偏弱);同时对应南亚高压偏西,青藏高原以西到伊朗高原的上对流层有异常的自东向西的水汽质量绝热输送和水汽质量绝热辐合。水汽质量呈西少/东多分布时则有相反的结果。南北偶极异常型水汽质量呈北多/南少分布时,对应南亚高压偏北,青藏高原北部的上对流层有异常自南向北的水汽质量绝热输送所造成的水汽质量辐合,同时该地区低层异常偏强的自下向上的水汽质量非绝热输送也加强水汽质量辐合,而青藏高原南侧上对流层则为异常偏弱的水汽质量绝热辐散和水汽质量非绝热辐合,水汽质量呈北少/南多分布时相反。  相似文献