共查询到20条相似文献,搜索用时 62 毫秒
1.
中南半岛地区热力特征对南海季风爆发的可能影响及机理 总被引:10,自引:1,他引:10
利用1998年5月1日-8月31日南海季风试验(SCSMX)产1980年1月-1995年12月NCEP/NCAR候平均再分析资料,分析1998年和多年平均情况下南海夏季风爆发期间中南半岛地区热力特征,揭示该地区热状况的异常与南海夏季风爆发之间的可能联系,从而讨论引起南海夏季风爆发的可能机制。结果发现,南海季风爆发前中南半岛附近地区存在较强的持续地面感知加热并具有显的低频振荡特征,低层大气在中南半岛地区出现较强的暖中心,由此导致局地强的水平温度梯度和位势高度梯度,有利于加强该地区的西南风。南海季风爆发前中南半岛地区低层出现较强的辐合风,高层出现较强的辐散风,这种低层强的辐合,高层强的辐射散配置有利于垂直运动的发展,降水的加强,进而触发南海季风的爆发。对多年平均资料的分析也证实了1998年南海季风爆发过程中所具有的特征,并进一步发现南海季风爆发前中南半岛地区850hPa温度是逐渐增加的,且增温幅度大于南海地区上空,由此加强了中南半岛与南海之间的温差。另外,比纬圈温度偏差和位势高度偏差的分析中发现,南海季风爆发期间南海和中南半岛地区的副高东撤与中南半岛地区的增温和孟加拉湾低槽的向东扩展有关。 相似文献
2.
In this paper,a relatively systematic climatological research on the onset of the Asian tropical summer monsoon(ATSM)was carried out.Based on a unified index of the ATSM onset,the advance of the whole ATSM was newly made and then the view that the ATSM firstly breaks out over the tropical eastern Indian Ocean and the middle and southern Indo-China Peninsula was further documented,which was in the 26th pentad(about May 10),then over the South China Sea(SCS)in the 28th pentad.It seems that the ATSM onset over the two regions belongs to the different stages of the same monsoon system.Then,the onset mechanism of ATSM was further investigated by the comprehensive analysis on the land-sea thermodynamic contrast,intraseasonal oscillation,and so on,and the several key factors which influence the ATSM onset were put forward.Based on these results,a possible climatological schematic map that the ATSM firstly breaks out over the tropical eastern Indian Ocean,the Indo-China Peninsula,and the SCS was also presented, namely seasonal evolution of the atmospheric circulation was the background of the monsoon onset;the enhancement and northward advance of the convections,the sensible heating and latent heating over the Indo-China Peninsula and its neighboring areas,the dramatic deepening of the India-Burma trough,and the westerly warm advection over the eastern Tibetan Plateau were the major driving forces of the summer monsoon onset,which made the meridional gradient of the temperature firstly reverse over this region and ascending motion develop.Then the tropical monsoon and precipitation rapidly developed and enhanced. The phase-lock of the 30-60-day and 10-20-day low frequency oscillations originated from different sources was another triggering factor for the summer monsoon onset.It was just the common effect of these factors that induced the ATSM earliest onset over this region. 相似文献
3.
通过对1998年南海季风爆发过程中大尺度风场、温度场、厚度场、地面气压场以及视热源与视水汽汇的演变分析研究了对流活动对大尺度场的作用,结果表明:大尺度环流与中尺度对流活动之间可能存在着一种正反馈机制。在季风爆发早期,大尺度背景与中尺度对流活动的关系主要表现为前者为季风爆发以及中尺度对流活动的发生提供有利的天气和动力条件;季风爆发后期持续的大范围中尺度对流活动反过来会对大尺度环流存在明显的反馈作用。由对流活动强烈发展产生的凝结潜热释放在南海北部造成了显著的大气加热,使对流层中上层出现一明显的加热中心,这导致:(1)南海上空经向温度梯度由高层向低层发生反向,形成北高南低的温度梯度,从而使大尺度环流发生季节性改变;(2)相应南海北部地面气压不断加深,形成宽广的季风槽和明显的减压区,促使副热带高压从南海地区最后撤离;(3)随着中低层低压环流的不断发展,对流系统和降水区进一步加强并向南扩展,有利于南海季风在南海中、南部地区爆发和维持;(4)季风槽的加深使其南侧的季风气流与水汽输送进一步加强,促使季风爆发过程达到盛期。 相似文献
4.
亚洲夏季风爆发的基本气候特征分析 总被引:3,自引:0,他引:3
利用统一的亚洲热带夏季风爆发指标,重新制作了季风爆发日期的推进图,确证了亚洲热带夏季风最早在热带东印度洋与中印半岛中南部爆发的观点,这发生在26候(5月10日前后),28候(5月20日前后)在南海地区相继爆发,这两个地区的爆发是属同一季风系的不同爆发阶段。以后通过对海陆热力对比、季节内振荡等多方面的分析,对夏季风的爆发机制问题进行了深入的研究,提出了气候学意义下影响亚洲热带夏季风爆发的关键影响因子。在此基础上,给出了夏季风最早在热带东印度洋-中印半岛-南海地区爆发机理的一种概念模式图,即大气环流的季节进程是季风爆发的背景条件;而中印半岛及其邻近地区对流活动和感热与潜热加热的迅速增强与北推、印缅槽的强烈加深,以及高原东部地区的西风暖平流作用是夏季风爆发的主要驱动力,其结果是使经向温度梯度首先在这个地区反向并建立强的上升运动区,使热带季风和降水迅速发展和加强;来自不同源地的低频30—60 d和10—20 d季节内振荡的锁相则是夏季风爆发的一种触发因子,正是这些因子的共同作用导致了亚洲热带夏季风在这个地区的最早爆发。 相似文献
5.
Summary In this study, the authors analyse the observational features of the onset of the South China Sea (SCS) monsoon in 1998 shown in reanalysis data and use a numerical model to understand the mechanisms responsible for these features.The onset of SCS summer monsoon in 1998 occurred around 21 May. Prior to this period, monsoon depression activity was strong over the Bay of Bengal (BOB) and warm temperature anomalies appeared at the mid-upper troposphere over the northern BOB. In the meantime, warm horizontal thermal advection occurred over the northern Indo-China peninsula and South China. This warm advection seemed to play an important role in the winter-to-summer transition of the patterns of mean meridional temperature gradient in the 500–200-mb layer over South Asia.The PSU/NCAR Mesoscale Model Version 5 (MM5) is used to understand the physical link between the latent heating associated with the monsoon depression over BOB and the establishment of SCS monsoon. Full-physics simulations, for a 6-day period coinciding with the onset of the observed monsoon, reproduce realistically the evolution of the monsoon depression and monsoon onset process. It is found that the condensational heating over BOB is important for the formation of large-scale circulation pattern that favors the establishment of SCS monsoon. In an experiment without latent heating, the winter-to-summer reversal of meridional temperature gradient over South Asia was delayed and the onset of SCS summer monsoon did not occur during the simulation period. 相似文献
6.
一九八一年初夏东南亚地区大气热源结构及其对经向环流的影响 总被引:4,自引:1,他引:3
本文用热力学方程和水汽连续方程计算了东南亚地区1981年初夏的大气热源和水汽汇的分布情况。文章讨论了大气热源的演变与该地区经向垂直环流的相互关系,并讨论了大气热源和经向环流在南海和中南半岛的差异。分析结果表明,经向环流圈与大气冷热源的分布密切相关。东亚季风建立后的大气热源中心在南海北部,热汇区在赤道附近,相应的最大上升气流也出现在南海下沉区主要在赤道南侧,而且南海的经向环流比中南半岛的要强盛的多。大气热源对于经向环流圈的形成和维持有很大的作用。 相似文献
7.
Overview of the South China sea monsoon experiment 总被引:29,自引:5,他引:24
The present paper gives an overview of the key project “ South China Sea Monsoon Experiment(SCSMEX)” operated by the Ministry of Science and Technology of China during the period of 1996-2001. The SCSMEX is a joint atmospheric and oceanic field experiment which aims to better understandthe onset, maintenance, and variability of the summer monsoon over the South China Sea (SCS). It is a large-scale international effort with many participating countries and regions cooperatively involved in this experiment. With the field observation in May-August 1998, a large amount of meteorological and oceanic data was acquired, which provides excellent datasets for the study of the SCS monsoon and the East Asian monsoon and their interaction with the ocean. The preliminary research achievements are as follows. (1) The earliest onset of the Asian monsoon over the SCS and Indo-China Peninsula has been well documented. From the viewpoint of the synoptic process, its onset is closely related to the early rapid development of a twin cyclone to the east of Sri Lanka. The conceptual model of the SCS monsoon onset in 1998 was put forward. The 50-year time series of the SCS monsoon onset date was also made. (2) Two major modes, namely the 30-60-day and 10-20-day oscillations were ascertained. The influences of the abnormal SCS monsoon on the precipitation over eastern China and its modes were identified. A strong(weak) monsoon over the SCS usually leads to less (more) precipitation over the middle and lower reaches of the Yangtze River basin, and more (less) precipitation in North China. (3) During the monsoon onset over the SCS, a wide variety of organized mesoscale convective systems (MCSs) were observed by a Doppler radar array deployed over the northern SCS. The relationship between large-scale circulations and MCSs during the monsoon onset process in 1998 was clearly revealed. It was suggested that there is a kind of positive feedback mechanism between large-scale circulations and MCSs. (4) The SST over the SCS during the early period influences the timing of the monsoon onset date and the monsoon‘s intensity. During the monsoon onset, the ocean undergoes a process of energy release through air-sea interaction. During the break phase of the SCS monsoon, the ocean demonstrates the process of energy re-accumulation. Obvious differences in the air-sea turbulent flux exchange between the southern and northern parts of the SCS due to different characteristic features of the atmosphere and sea structure were observed in those regions.(5) The verification of impact of intensive observations on the predictive performance is made by the use of regional models. The air-sea coupled regional climate model (CRCM) was also developed under the SCSMEX Project . The simulation of the oceanic circulation in 1998 produced with the model was well compared with the observations. 相似文献
8.
1. Introduction The strong convective weather is developed under the favorable large-scale circulations, which demon- strated the large-scale weather system's controlling ef- fect on strong convections. Once the convection is formed, it will produce the feedback effect on the large-scale environmental conditions by transporting momentum, heat and moisture upward, and influence or change the environmental wind, humidity, tem- perature, atmospheric stratification fields and so on, thus forming t… 相似文献
9.
在对南海夏季风的爆发及中南半岛陆面过程的可能影响进行了诊断分析的基础上,应用MM5/NOAHLSM模式,研究了中南半岛陆气相互作用对2004年南海夏季风爆发过程的可能影响。结果发现:在南海夏季风爆发前,中南半岛南海地区低层气温差确实出现低值,甚至负值;尽管短期内中南半岛土壤湿度和降水的变化没有引起季风爆发日期的改变,但对季风爆发的强度有影响。土壤湿度和降水变化引起的干异常可导致地表感热通量的增大和地表温度的升高,致使中南半岛与南海之间低层的温差异常(负温差)减小,季风爆发强度减弱;不同的是,湿异常可引起季风爆发强度增强。这一结果说明,在南海夏季风爆发前期,中南半岛上空对流活动和降水异常及其引起的土壤湿度的异常变化在一定程度上会影响到季风爆发的过程。文章还比较了不同温湿地表条件下低层大气状态的差异和地表能量、水分平衡过程的不同,分析了陆气相互作用对季风活动产生影响的物理机制。 相似文献
10.
A Study on the Mesoscale Convective Systems during the Summer Monsoon Onset over the South China Sea in 1998 Part Ⅱ: Effect of Mesoscale Convective Systems on Large-Scale Fields 
下载免费PDF全文
下载免费PDF全文 LIU Yanju DING Yihui 《Acta Meteorologica Sinica》2005,19(3):289-301
The apparent heat sources and apparent moisture sinks, and large-scale wind, temperature as well as the surface pressure fields during the summer monsoon onset over the northern South China Sea (SCS) in 1998 were diagnosed. The results suggested that there was a kind of positive feedback mechanism between large-scale circulations and mesoscale convective systems (MCSs). Before the monsoon onset, the largescale background provided favorable synoptic and dynamic conditions for the summer monsoon onset and the formation of mesoscale convective activities, whereas after the summer monsoon onset, occurrence of the persistent and extensive mesoscale convective activities produced obvious feedback effect on large-scale circulations. Because of the release of latent heating produced by enhanced convective activities, the intense atmospheric heating appeared over the northern SCS, which resulted in: (1) the meridional temperature gradient over the SCS reversed from upper-level to low-level and then the large-scale circulations were changed seasonally;(2) correspondingly, the surface pressure over the northern SCS deepened continually and formed a broad monsoon trough and the obvious pressure-fall areas, thus making the subtropical high move out of the SCS eventually;(3) with the development of the low pressure circulations in the middle and low troposphere, the MCSs further enhanced and extended southward, which was conducive to the SCS monsoon onset and maintenance over the middle and southern SCS;and (4) the deepening of monsoon trough facilitated the monsoon flow and moisture transport on its southern side, thus the monsoon onset reaching peak period. 相似文献
11.
中南半岛与南海热力差异对南海季风爆发的影响 总被引:5,自引:1,他引:4
利用1958-1998年NCEP/NCAR再分析资料和1975-1998年OLR资料,分析了中南半岛与南海热力差异的季节和年际变化特征,以及这种热力差异对南海季风爆发的影响.结果表明,中南半岛与南海热力差异存在明显的季节变化,从第3候歼始,感热加热的作用使中南半岛地表温度高于南海并一直持续到第25候,之后,中南半岛与南海热力差异发生逆转,这种逆转是由于第22-23候出现在中南半岛的对流及降水造成中南半岛地表温度降低所致.进一步研究指出,中南半岛与南海热力差异的上述季节变化特征还表现出最著的年际差异,这种年际差异对南海季风的爆发有着重要影响.首先,上述热力差异的逆转是南海季风爆发的一个必要条件:1958-1998年,逆转时间均早于(或等于)南海季风爆发时间;其次,中南半岛地表温度高于南海的持续时间与南海季风爆发日期之间呈显著正相关,即中南半岛地表温度高于南海的时间越早、转为低于南海的时间越迟,则南海季风爆发越迟. 相似文献
12.
The characteristics of atmospheric heat source associated with the summer monsoon onset in the South China Sea (SCS) are studied using ECMWF reanalysis data from 1979 to 1993. A criterion of the SCS summer monsoon onset is defined by the atmospheric hea… 相似文献
13.
南海夏季风爆发与大气对流低频振荡的年际变化 总被引:8,自引:0,他引:8
根据1980~1991年云顶黑体温度(TBB)相位和强度的变化确定了南海夏季风爆发的时间,分析研究了夏季风爆发期间TBB场和850hPa风场的变化过程及其与海温的关系。结果表明:南海夏季风爆发平均时间是5月第4候,它爆发的时间和强度有显著的年际变化,并与大气的低频振荡及前期海洋的热力状况有密切关系。南海夏季风爆发早年(4月第6候),副热带高压较弱,撤离南海较快,从赤道东印度洋到赤道西太平洋,大气对流活动较强,夏季风爆发南海早于孟加拉湾,季风爆发时90~100°E区域过赤道气流显著加强。夏季风爆发晚年(6月第1候)情况相反。南海夏季风爆发早晚与大气30~60天振荡到达南海的位相有关,前冬和早春南海海温的高低和4月中旬至5月中南半岛强对流区的出现时间,是南海夏季风爆发年际变化的前期征兆。根据前冬南海海温预测1998年南海夏季风爆发的时间和强度与实际相符。 相似文献
14.
南海夏季风建立的模式诊断研究 总被引:5,自引:0,他引:5
应用全球谱模式 (T42L9)对 1 986年和 1 987年个例进行了一系列有、无凝结潜热加热和地表感热以及地形作用的单因子敏感性数值预报试验 ,对预报模式输出的大气凝结潜热量和地面感热通量的时空变化特征进行了诊断分析。个例敏感性试验结果表明 ,大气凝结潜热对南海地区西南风的建立极为重要。诊断分析结果指出 ,在南海夏季风建立前 ,中南半岛地区是强大的凝结潜热加热区 ,远比印度半岛地区强。地形和中南半岛凝结潜热的共同作用可能是导致南海夏季风早于印度夏季风建立的重要原因。 1 987年 5月份在中南半岛地区的凝结潜热量比 1 986年明显偏低 ,直到 5月底 6月初才明显上升 ,这可能是该年南海夏季风建立晚的一个原因 ,中南半岛地区凝结潜热的变化可能是影响季风建立早晚的重要因子之一。 相似文献
15.
对南海夏季风爆发前的风场和局地对流凝结加热强迫作用进行了合成分析, 表明南海夏季风爆发前局地对流凝结加热作用对与南海夏季风爆发密切相关的低频涡对的产生起着重要作用.然后, 从动力学的角度研究了带有外部热源强迫的赤道β平面上的Rossby波, 利用Gardner-Morikawa变换和摄动展开方法, 得到了热源强迫下描写赤道Rossby的mKdV方程, 进而得到了不同热源形式下切变气流中赤道非线性Rossby波的解析解.结果表明, 不同类型的热源对赤道Rossby波的结构起着非常重要的作用, 同时也为南海夏季风爆发前低频涡对的形成给出了一种动力学解释. 相似文献
16.
利用1997年逐日降水资料和国家气象中心提供的T63再分析资料,详细讨论了中国汛期降水及东亚夏季风活动的异常特征及其间的联系。结果表明,该年中国夏季降水及东亚夏季风活动均表现了突出的异常,东部雨带长期滞留在江南、华南一带,夏季风向北的推进很弱,主要活跃于较低纬度,最北仅至35°N,未能在黄河以北的地区建立,比起气候意义下夏季风北进的最高纬度偏南10°左右。在这一过程中,夏季风异常是主要雨带异常发展的重要影响因子,候大雨带的建立和北推均与季风的建立与活跃密切相关。进一步对大尺度水汽场的分析表明,夏季风的活动明显改变了大尺度水汽输送及辐合,进而影响和制约了主要雨带的分布。夏季风爆发后,南海及中国大陆的主要水汽输送源均发生了明显变化,来自于孟加拉湾和热带印度洋的水汽输送到南海后,再从南海输送到中国大陆。而季风的活动同时也制约了强水汽辐合带的出现,其在低纬的维持为雨带长期稳定于南方地区提供了有利条件。 相似文献
17.
南海夏季风爆发的数值预报试验 总被引:2,自引:1,他引:1
分析了1986年南海夏季风爆发的环流演变特征,由经向风速剖面图看出,南风首先在中南半岛迅速加强,然后向南海发展,南海夏季风爆发同孟加拉湾低压的发展密切相关。通过地形和非绝热单因子敏感性数值预报试验表明,地形作用和凝结潜热等非绝热作用对南海夏季风的爆发都是很重要的,包含有这两种作用在内的控制试验成功地预报出了南海夏季风爆发的中期演变过程,单独的地形作用或非绝热作用都不能预报出南海夏季风的爆发。 相似文献
18.
DING Yihui LI Chongyin HE Jinhai CHEN Longxun GAN Zijun QIAN Yongfu YAN Junyue WANG Dongxiao SHI Ping FANG Wendong XU Jianping LI Li 《Acta Meteorologica Sinica》2006,20(2):159-190
The SCSMEX is a joint atmospheric and oceanic experiment by international efforts, aiming at studying the onset, maintenance, and variability of the South China Sea (SCS) summer monsoon, thus improving the monsoon prediction in Southeast and East Asian regions. The field experiment carried out in May-August 1998 was fully successful, with a large amount of meteorological and oceanographic data acquired that have been used in four dimensional data assimilations by several countries, in order to improve their numerical simulations and prediction. These datasets are also widely used in the follow-up SCS and East Asian monsoon study. The present paper has summarized the main research results obtained by Chinese meteorologists which cover six aspects: (1) onset processes and mechanism of the SCS summer monsoon; (2) development of convection and mesoscale convective systems (MCSs) during the onset phase and their interaction with large-scale circulation; (3) low-frequency oscillation and teleconnection effect; (4) measurements of surface fluxes over the SCS and their relationship with the monsoon activity; (5) oceanic thermodynamic structures, circulation, and mesoscale eddies in the SCS during the summer monsoon and their relationship with ENSO events; and (6) numerical simulations of the SCS and East Asian monsoon. 相似文献
19.
南海夏季风爆发的一般特征是南亚高压移至中南半岛北部;西太平洋副热带高压连续向东撤出南海地区,移到120°E以东的热带洋面上;高(低)空东北(西南)气流占据南海大部分地区,相应的105°E附近的越赤道气流建立,南海季风槽形成并同时伴有对流降水的发展和温、湿等要素的突变。国家气候中心的监测表明,2007年南海夏季风于5月第5候爆发。该年季风爆发后,虽然源自热带地区的低空西南气流迅速占据南海上空,高空盛行东北气流,且南亚高压西移至中南半岛上空,但对流、高度场以及降水场的突变特征均很不明显,表现为季风爆发后南海上空的对流依然偏弱,副高没有马上撤离南海,同时华南地区的降水量也没有迅速增强。因此,2007年南海夏季风爆发前后大气环流的变化特征具有非典型性。 相似文献
20.
异常东亚冬季风对夏季南海地区风场及热力场的影响 总被引:18,自引:1,他引:17
用合成及SVD方法,对冬季风异常在南海地区的风场和热力场中所产生的影响进行了研究,并探讨了这种相互联系的可能机制。结果表明,冬季风异常对流场的影响可以从冬季持续至春、夏季。在强冬季风年,南海夏季风爆发偏早、偏强且突发性显著;而在弱冬季风年则相反。长江流域的情况则与此相反,强冬季风时,该地区夏季对流偏弱,降水减少;弱冬季风时相反。南海地区风场的变化与该地区大气及下垫面热状态的改变有关。强、弱冬季风所对应的同期及后期的海温截然不同。在强冬季风年,热带海温场上呈现LaNi*S~/n@a型的异常分布,而在亚洲大陆近海及南海地区,则维持较强的负距平,海水温度明显偏低,强度以春季为最强。它所形成的南海及邻近地区海陆之间的温度梯度有利于夏季风的早爆发和加强;而在弱季风年,则完全相反。与异常冬季风相关联的大气的热状态同样具有季节的持续性。春、夏季季风区中大气热状态的改变,影响了夏季风特别是南海夏季风爆发的早晚及其强度的变化。由冬季风异常引起的热源变化可能也是环流隔季相关的重要纽带之一。 相似文献