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1.
The temporal and spatial variations of the ten-day mean surface latent heat flux (TMLH) have been analyzed in this paper based on the data of NCEP from January of 1979 to December of 1995 in the South China Sea (SCS) monsoon region.It is found that there exist maximum centers of TMLH standard deviation in the northwest Indochina and the Indian Peninsula as well as the western Pacific,SCS,the Indian Ocean and the Bay of Bengal,and their locations and strengths change significantly during the period of SCS monsoon onset.A positive zonal deviation of TMLH occurs first in the Indochina Peninsula,apparently earlier than that in the Indian Peninsula.The appearance of maximum positive zonal deviations of TMLH approximately coincides with the summer monsoon onset.Over the Indochina and Indian Peninsulas,the TMLH increases gradually with a small amplitude of variation before the onset of summer monsoon,and the rate of increase is significantly enhanced after the onset of the monsoon; whereas over the ocean,TMLH decreases before the monsoon onset,varies little during the period of monsoon and increases gradually after the ending of monsoon.Therefore,it seems that the surface latent heat flux plays an important role in the maintenance of the summer monsoon,and its variation is an phenomenon accompanying the onset of summer monsoon.  相似文献   

2.
The time and space variations of the ten-day mean surface sensible heat flux have beenanalyzed in this paper based on the data of NCEP/NCAR from January of 1979 to December of1995 in the South China Sea(SCS)monsoon region.It is found that large variations of the surfacesensible heat flux standard deviations exist in the northwestern Indochina Peninsula and the IndianPeninsula regions,and their locations and strength change significantly during the onset period ofSCS monsoon.The negative deviations appear evidently earlier in the Indocbina Peninsula than inthe Indian Peninsula but the deviation strength in the Indian Peninsula is stronger than that in theIndochina Peninsula.The appearance of the zonal negative mean deviations in the southern part ofthe Indochina Peninsula corresponds to the date of the SCS summer monsoon onset,while theoccurrence of the deviation decrease corresponds to the date of the South Asian monsoon onset.The sensible heat flux increases dekad by dekad before the onset of the summer monsoon in theIndian Peninsula and the Indochina Peninsula and decreases after the monsoon onset.Therefore,the surface sensible heat flux changes in the Indochina and the Indian Peninsula regions maybe havesome connections with the SCS monsoon onset and the Indian monsoon onset,and the IndochinaPeninsula maybe becomes the sensitive or key region to the SCS monsoon onset and the land maybeplays an important role in triggering summer monsoon onset.  相似文献   

3.
The time and space variations of the ten-day mean surface sensible heat flux have been analyzed in this paper based on the data of NCEP/NCAR from January of 1979 to December of 1995 in the South China Sea (SCS) monsoon region.It is found that large variations of the surface sensible heat flux standard deviations exist in the northwestern Indochina Peninsula and the Indian Peninsula regions,and their locations and strength change significantly during the onset period of SCS monsoon.The negative deviations appear evidently earlier in the Indocbina Peninsula than in the Indian Peninsula but the deviation strength in the Indian Peninsula is stronger than that in the Indochina Peninsula.The appearance of the zonal negative mean deviations in the southern part of the Indochina Peninsula corresponds to the date of the SCS summer monsoon onset,while the occurrence of the deviation decrease corresponds to the date of the South Asian monsoon onset.The sensible heat flux increases dekad by dekad before the onset of the summer monsoon in the Indian Peninsula and the Indochina Peninsula and decreases after the monsoon onset.Therefore,the surface sensible heat flux changes in the Indochina and the Indian Peninsula regions maybe have some connections with the SCS monsoon onset and the Indian monsoon onset,and the Indochina Peninsula maybe becomes the sensitive or key region to the SCS monsoon onset and the land maybe plays an important role in triggering summer monsoon onset.  相似文献   

4.
南海季风区地面温度变化特征及其与季风爆发的联系   总被引:8,自引:0,他引:8  
分析1979年1月至1995年12月17a南海季风区修平均地面温度资料的时空变化特征发现,中南半岛西北部和印度半岛分别为地面修平均温度标准差的大值区,其位置和强度在南海季风爆发前后月份具有显著差异。从候平均温度纬圈偏差的时间演变来看,中南半岛地区纬圈温度偏差由正转负的时间早于印度半岛地区,并分别与南海夏季风和印度夏季风爆发的时间其本对应。在夏季风爆发之前,印度半岛和中南半岛地区的地面温度是逐候增加的,季风爆发以后地面温度迅速降低,而海洋上的表面温度增温幅度明显小于与其相邻地陆地,此外,从南海季风爆发早晚年中南半岛与南海地区表面温度距平差和各自温度距平的时间演变看,中南半岛地区地面温度的变化在触发南海季风爆发及其年际变化过程中可能起主导作用。  相似文献   

5.
By using the NCEP reanalysis data set in 1979-1995, the fluxes of the latent heat, thesensible heat and the net long-wave radiation in the South China Sea (SCS) are expanded by meansof EOF in order to discuss the basic climatological features in the SCS. The detailed analysis showsthat the air-sea heat exchanges in different SCS regions have different seasonal variations. Themiddle and the north of the SCS are the high value regions of the air-sea heat exchanges during thewinter and the summer monsoon periods, respectively, the seasonal variations of air-sea heatexchanges in the south of the SCS are small. In addition, the proportions of different componentsin the total air-sea heat exchanges have different seasonal variations in different regions. Theresults show that the SCS monsoon and the air-sea heat exchanges in the SCS region are theaccompaniments of each other, the great difference of the sensible heat flux between the IndochinaPeninsula and the SCS before the SCS summer monsoon onset may be one of the triggers of thelatter. There maintains a high value center of the sensible heat flux before the 13th dekad, itsdisappearing time consists with that of the summer monsoon onset. It means that as far as the SCSlocal conditions are concerned, the northwest of the Indochina Peninsula is probably a sensitiveregion to the SCS summer monsoon onset and the land may play a leading role in the SCS summermonsoon onset.  相似文献   

6.
文中对 1 998年 1月 1日到 8月 31日共 2 4 3d的南海季风试验再分析资料的地面感热场和潜热场进行 EOF分析 ,由感热的第一特征向量场发现 ,中南半岛地区、青藏高原的东北部和印度半岛的大部分是感热通量大值区 ,而海洋上是小值区 ,海陆热力差异十分明显 ,这种海陆感热对比是促使季风爆发的大背景。由感热的时间经度演变图可以看出 ,中南半岛所在经度范围内南北连续的感热分布对南海季风的早爆发具有重要作用。由温度平流项的分布可发现 ,中南半岛的加热作用明显早于青藏高原地区 ,使得中南半岛对南海季风的早期爆发有重要作用 ,而青藏高原对于南海季风的维持具有重要意义。由于印度半岛与中南半岛的海陆分布的差异 ,使得两个地区的温度平流项也有所不同  相似文献   

7.
亚洲季风区地面感热通量的区域变化特征   总被引:1,自引:0,他引:1  
采用1979-1995年(缺1986、1987、1993)NCEP/NCAR再分析资料中的逐旬感热通量资料,对亚洲季风区地面感热通量的空间结构及时间演变进行了旋转经验正交函数(REOF)分析。结果表明:印度半岛和中南半岛地区感势通量的变化与亚洲季风的爆发及演变有密切关系,是季风爆发的主要关键区。这两个地区的感热积累是东亚季风爆发的触发因素之一,尤其是印度半岛北部感热通量的突变对印度夏季风演变十分重要。印度半岛北部与青藏高原西部的热力差异在季风的爆发和维持中占有重要地位。而东北亚与西北太平洋的热力差异只对东亚夏季风的演变有影响,与冬季风则无直接关联。在东亚季风的爆发中居主导地位的还是印度半岛北部和青藏高原西北部的感热加热作用。  相似文献   

8.
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   

9.
南海夏季风爆发前后海-气界面热交换特征   总被引:20,自引:1,他引:20  
文中利用 2 0 0 0与 2 0 0 2年二次南海海 气通量观测资料和同期西沙站资料 ,研究了南海夏季风爆发前后海洋表面热收支变化特征。研究表明 :南海夏季风爆发前后 ,影响海面热收支变化的主要分量是净短波辐射通量和潜热通量 ,在季风爆发前后不同阶段 ,二个分量的变化有不同表现形式 ,但不论二者如何变化 ,季风爆发与活跃期 ,海面热收入减小或为净支出 ;季风爆发前及中断期间 ,海面热收入逐渐增加 ;由于大的热惯性 ,海温变化落后于海面热收支的变化 ,海温的这种滞后效应通过影响潜热通量调节海面热收支的变化 ,又反过来影响自身的变化 ,形成短期振荡过程 ,这种振荡过程与季风的活跃、中断过程相对应。  相似文献   

10.
1INTRODUCTIONAmongdrivingfactorsfortheEastAsianmonsoonareplanetary-scaleland-seathermodynamiccontrast(e.g.betweentheEurasiancontinentandthePacificOcean)andsub-planetary-scaleone(e.g.betweentheIndochinaandtheSouthChinaSea).ItisovertheSouthChinaSea(SCS)andadjoiningareasthattheEastAsiansummermonsoonfirstbreaksout.ItthenadvancestotheregionsofEastAsiaandSouthAsia.ItisthereforenaturaltofindlocalgeographicandtopographiceffectsoftheSCSregionevidentlyshownontheonsetoftheSCSsummermonsoon…  相似文献   

11.
蒙伟光  郑彬 《气象学报》2006,64(1):81-89
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   

12.
利用NCEP/NCAR 1998年再分析资料和SS T资料, 研究了1998年南海季风爆发的特征及其机制。结果显示, 南海及其附近地区夏季风爆发分为3个阶段, 并具有不同的特征, 在南海季风爆发前, 南海海温已提前突然增温达极高值, 感热通量梯度在海陆之间的转换可能是引起东亚副热带季风和南海季风爆发的重要因子。  相似文献   

13.
关于南海夏季风建立的大尺度特征及其机制的讨论   总被引:25,自引:3,他引:25  
使用1998年南海季风试验期间高质量资料和NCEP/NCAR40年再分析资料分析了南海季风建立前后的大尺度环流特征和要素的突变及爆发过程。发现南亚高压迅速地从菲律宾以东移到中南半岛北部,印缅槽加强,赤道印度洋西风加强并向东向北迅速扩展和传播,以及相伴随的中低纬相互作用和西太平洋副高连续东撤是南海夏季风建立的大尺度特征,与此同时,亚洲低纬地区的南北温差和纬向风切变也发生相应的突变。数值实验结果指出,印度半岛地形的陆面加热作用在其东侧激发的气旋性环流对于印缅槽的加强有重要作用,并进而有利于南海夏季风先于印度夏季风爆发。  相似文献   

14.
冬季台风“南玛都”结构性质的初步研究   总被引:2,自引:0,他引:2  
利用1982~2001年NCEP/NCAR再分析的周平均SST场、逐日表面热通量场及近地层10米高度风场资料,分析了南海地区季风爆发前后几周南海多年平均SST随时间的变化和空间分布特征及其影响因子.结果表明,南海季风爆发前,SST急剧升高,季风爆发后,SST的变化呈现比较明显的空间差异,南海北部SST继续上升,而南部SST持续下降.南海季风爆发前,海面净得热,这是季风爆发前南海SST上升的主要原因.季风爆发后几周,海面净得热减少,此时的海表净热通量收支与SST无显著相关.而季风爆发期和爆发后几周,南海SST变化的不均匀性与西南气流具有很好的相关性,南海的降温区呈东北-西南走向,与低层西南气流的方向一致.因而,在季风爆发后的一段时间内,近地层风场导致的海洋表面及内部动力过程是影响南海SST变化的另一重要因子.  相似文献   

15.
亚洲夏季风建立前后对流层温度场演变特征及其热力成因   总被引:5,自引:1,他引:4  
对1996年亚洲夏季风爆发前后(3~6月)印度及南海季风区对流层温度演变特征及其热力成因作了比较分析。结果表明:印度和南海夏季风的爆发与各季风区对流层中上层南北温差逆转密切相关,而南北温差逆转是由10~30°N之间纬度带对流层的季节性增暖引起的。夏季风爆发前期,南海季风区的增温主要由暖平流及非绝热加热过程(主要为凝结潜热)共同作用所致。春季在印度季风区大陆上空存在显著的下沉绝热增温,使得对流层中上层的增温率比华南大陆及邻近地区上空的增温率显著得多。但印度季风区冬末春初的南北温差(南暖北冷)也非常明显,以至该地区对流层中上层增暖到引起南北温差发生逆转的时间较迟,而南海季风区对流层中层南北温差发生逆转的时间相对要早,因而印度夏季风比南海夏季风迟爆发。  相似文献   

16.
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   

17.
青藏高原的热力和动力作用对亚洲季风区环流的影响   总被引:22,自引:1,他引:21  
利用NCEP/NCAR再分析资料,研究了青藏高原热状况的季节变化、动力和热力作用对周围环流,特别是对亚洲热带季风环流的影响。高原对西风带的机械作用在冬季最强,春季次之。冬季的机械作用形成以高原为主,南侧气旋性、北侧反气旋性的"偶极子"偏差环流,它比传统认识的爬坡、绕流的影响范围大得多,遍及东亚的高、低纬度。随着西风带的北移和高原总加热在4月由负变正,南侧气旋性偏差环流增强并逐渐北移,6月形成气旋盘踞整个高原的夏季型。在高原南侧,高原冬季偶极型、夏季加热的作用导致孟加拉湾地区常年存在印缅槽,使得印度半岛的感热加热始终强于中南半岛,而中南半岛上空的潜热加热大于印度半岛。印缅槽的演变存在明显的半年周期,证明2月初和8月初的较强低压槽分别对应冬季高原最强的动力强迫和夏季高原最强的热力强迫。对低纬经向风场的分析还表明,季风爆发前高原的热力作用尤为重要,是导致江南春雨的形成,亚洲季风最早在孟加拉湾东部爆发,最后在印度半岛爆发的原因。  相似文献   

18.
The latest dataset from the SCS(South China Sea)Monsoon Experiment is used to investigatethe features of abrupt change in some meteorological elements before,during and after the summermonsoon's establishment in 1998 and explore its onset characteristic process.We have arrived at apreliminary conclusion that the 1998 Asian summer monsoon is established first in the SCS as earlyas May 23,which is representative of the earliest indicator of the conversion from a winter into asummer monsoon situation in Asia;the continued retreat eastward of the western Pacificsubtropical high from the SCS region has direct effect on the SCS summer monsoon establishmentbecause the withdrawal favors the release of unstable energy,responsible for the sudden onset ofthe monsoon.Our tentative investigation indicates that the eastward extension of the westerly andrainfall band from the equatorial Indian Ocean into the Indo-China Peninsula and the southwardspreading of an active South-China stationary front,acting as the interaction between mid and lowlatitude systems,are likely to be the characteristic events contributing to the subtropical high'seastward retreating and the summer monsoon's onset over the SCS.  相似文献   

19.
不同资料揭示南海夏季风爆发特征的比较   总被引:3,自引:1,他引:3  
利用全球月平均海温资料,近地面的风、气温、湿度资料,以及海表感热和潜热资料,在综合分析海温和气象要素变化的基础上,确定了7个全球海气相互作用的关键区,并运用相关分析法,着重分析了各关键海区上空气象要素场与海温的时滞相关,以揭示不同关键海区海气相互作用的异同。分析表明:不同海区海气热力相互作用较强,海温与气温比湿有较好的互代性,特别是中东太平洋和南印度洋海区。动力作用对海温的影响各海区差异较大,中西太平洋海区的动力影响可能更关键。在感热潜热与海温的相关中,东西太平洋海区和西北太平洋及南印度洋两季风区都较关键。通过分析各海区海温和各气象要素相邻月的持续相关概率,进一步了解哪些要素、哪些区在哪些时段其异常持续性好,或异常持续性容易发生破坏,这不仅对做预报有一定的参考价值,也为我们讨论海气相互作用的物理机制提供了依据。  相似文献   

20.
1. IntroductionBecause the South China Sea (SCS) is one of theregions where the Asian summer monsoon onset oc-curs earliest, the SCS summer monsoon (SCSSM) hasalways been a research focus, especially in recent yearswith the implementation of the SCS Monsoon Exper-iment (SCSMEX) (e.g., Tao and Chen, 1987; Changand Chen, 1995; Lau et al., 2000; Ding and Li, 1999;Ding and Liu, 2001; Li and Wu, 2000; Xie et al., 1998;Zhang et al., 2004). Climatologically, the SCSSM on-set is a rem…  相似文献   

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