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1.
青藏高原东坡近地表的辐合能够增加地表的位涡密度(PVD)。高耸的青藏高原与等熵面相切, 其东坡近地表增加的位涡密度成为等熵面边界上的位涡密度强迫源。利用IAP/LASG FAMIL全球大气环流模式探究青藏高原地表位涡密度增长对2008年初中国华南地区雨雪灾害天气形成的影响。首先与观测资料对比发现, 通过张弛逼近动力初始化, 在参照试验中, 模式能够比较合理地再现青藏高原东部的地表位涡密度增长和1月24-27日中国华南的大气环流场及降水场。而在高原的地表位涡密度增长减弱的敏感性试验中高原下游区域特别是华南沿海、广西到山东一带的降水明显减小甚至消失。对结果的分析表明:青藏高原区域的地表位涡密度增长在低空能够增强中国华南沿海地区的南风和水汽输送以及负的绝对涡度平流输送;在高空, 高原上产生的正的位涡密度沿西风环流向下游输送, 形成高层正的绝对涡度平流。从而在高原下游形成绝对涡度平流随高度增强的大尺度环流背景, 有利于上升运动发展。同时, 高原地表位涡密度增长在低空所激发的气旋式环流增加了华南的水汽输送, 最终激发了华南极端降水的产生。该个例模拟的结果证实了青藏高原东部的地表位涡密度强迫激发其下游极端天气发生的一种新机制。   相似文献   

2.
段安民  张萍 《大气科学》2022,46(2):455-472
青藏高原(以下简称高原)大气热源对亚洲夏季风爆发、演变、推进,乃至全球气候系统都有重要影响,因此近年来高原大气热源变异机理也日益受到关注。本文在回顾已有关于不同季节高原热源变异原因的研究基础上,利用1980~2018年日本气象厅再分析数据JRA55(Japanese 55-year Reanalysis),对逐月高原大气总热源的年际变率进行分类,并进一步探究了影响不同类别高原大气总热源的异常大尺度环流系统及海温驱动因子。除了传统上受关注的“冬季型”和“夏季型”以外,本文还提出了“早春型”和“过渡型”两种高原大气热源变率模态。总体而言,高原大气总热源年际变率以降水引起的凝结潜热异常为主,其中“冬季型”及“早春型”高原大气热源异常中心位于高原西部,主要受到中高纬遥相关波列的影响。此外,“冬季型”还受到厄尔尼诺—南方涛动(El Ni?o-Southern Oscillation, ENSO)及印度洋偶极子(Indian Ocean Dipole, IOD)的影响。“夏季型”高原大气热源呈东西偶极型反相变化,最大异常中心位于高原东南部,主要受北大西洋涛动(North Atlantic Oscillation, NAO)的影响;“过渡型”高原大气热源呈南北偶极型反相变化,受热带太平洋—印度洋海表温度异常的共同影响。因此,不同背景环流下高原热源年际变率的驱动因子存在明显差异。  相似文献   

3.
Regional Atmospheric Modeling System (RAMS) was applied to the study of the effect of the topographical altitude of the Tibetan Plateau (TP) on a severe drought event which took place in eastern China from November 2008 to January 2009. Two simulations of this drought event were conducted: a control simulation (CNTRL run) using original model settings and a sensitive simulation (TOPO run), where no change other than to reduce the TP topography by 50 %. The results show that the CNTRL simulation validates RAMS by reproducing this drought event fairly accurately. However, as part of the TOPO simulation, the total heat flux showed a decrease over most parts of the TP, latent heat flux underwent a significant increase over the southeastern TP, contrary to sensible heat, and a universal decrease over eastern China; this led to an increase in precipitation over the southeastern TP and a decrease in precipitation over eastern China. The decrease of total heat flux over the TP is collocated with an anomalous anticyclonic circulation from the TP to the coasts of southeastern China. Changes in atmospheric circulation and low-level water vapor transport pathways were consistent with changes in precipitation. In general, reducing the topographical altitude of the TP worsens drought in eastern China and moreover causes a significant decrease in precipitation over southern China.  相似文献   

4.
利用NCEP 1950—2004年逐日再分析资料,采用倒算法,对青藏高原大气热源的长期变化进行了计算,结果发现,青藏高原及附近地区上空大气春夏季热源在过去50年里,尤其是最近20年,表现为持续减弱的趋势。而1960—2004年青藏高原50站的冬春雪深却出现了增加,尤其是春季雪深在1977年出现了由少到多的突变。用SVD方法对高原积雪和高原大气热源关系的分析表明,二者存在非常显著的反相关关系,即高原冬春积雪偏多,高原大气春夏季热源偏弱。高原大气春夏季热源和中国160站降水的SVD分析表明,高原大气春夏季热源和夏季长江中下游降水呈反相关,与华南和华北降水呈正相关;而高原冬春积雪和中国160站降水的SVD分析显示,高原冬春积雪和夏季长江流域降水呈显著正相关,与华南和华北降水呈反相关。在年代际尺度上,青藏高原大气热源和冬春积雪与中国东部降水型的年代际变化(南涝北旱)有很好的相关。最后讨论了青藏高原大气热源影响中国东部降水的机制。青藏高原春夏季热源减弱,使得海陆热力差异减小,致使东亚夏季风强度减弱,输送到华北的水汽减少,而到达长江流域的水汽却增加;同时,高原热源减弱,使得副热带高压偏西,夏季雨带在长江流域维持更长时间。导致近20年来长江流域降水偏多,华北偏少,形成"南涝北旱"雨型。高原冬春积雪的增加,降低了地表温度,减弱了地面热源,并进而使得青藏高原及附近地区大气热源减弱。  相似文献   

5.
伊朗高原和青藏高原热力作用对东亚区域气候具有重要影响。基于1979—2014年欧洲中心ERA-interim月平均再分析地表热通量资料,分析了春、夏季青藏高原与伊朗高原地表热通量的时、空分布特征以及春、夏季青藏高原与伊朗高原地表热通量的关系。结果表明,春、夏季青藏高原与伊朗高原地表热通量在季节、年际和年代际尺度上具有不同的时、空分布特征。对于青藏高原,春、夏季地表感热呈西部大东部小、地表潜热呈东部大西部小;地表感热在春季最大且大于地表潜热,地表潜热在夏季最大且大于地表感热。在年际时间尺度上,春、夏季青藏高原地表热通量异常的年际变化在东、西部不一致,青藏高原西部,地表感热与地表潜热有较强的负相关关系。青藏高原地表感热异常具有很强的持续性,当春季地表感热较强(弱)时,夏季高原地表感热同样较强(弱)。青藏高原东部与西部地表热通量的年代际变化有明显差异,春(夏)季青藏高原东部地表感热呈显著的年代际减弱趋势,1998(2001)年发生年代际转折,由正异常转为负异常;而青藏高原西部地表感热在春季则有显著的增大趋势,2003年发生年代际转折,由负异常转为正异常。青藏高原东部地表潜热仅在春季为显著减弱趋势,2003年出现年代际转折,由正异常转为负异常;青藏高原西部地表潜热在春、夏季都有显著减弱趋势,年代际转折出现在21世纪初,由正异常转为负异常。对于伊朗高原,春、夏季地表热通量的空间分布在整个区域较一致,地表感热在夏季最大,地表潜热在春季大、夏季小,但各季节地表感热都大于地表潜热。相对于青藏高原地表感热,伊朗高原地表感热在各月都更大。在年际时间尺度上,春、夏季伊朗高原各区域地表热通量异常的年际变化较一致;地表感热与潜热有很强的负相关关系;伊朗高原地表感热、潜热异常都具有持续性,当春季地表感热(潜热)通量较强(弱)时,夏季地表感热(潜热)通量同样较强(弱)。伊朗高原北部与南部地表热通量的年代际变化存在差异。其中,春、夏季伊朗高原北部地表感热(潜热)呈显著增强(减弱)趋势,在20世纪末发生了年代际转折,春、夏季北部地表感热(潜热)由负(正)异常转为正(负)异常。而伊朗高原南部春、夏季地表热通量无显著变化趋势,但春季地表感热、潜热与夏季地表感热同样在20世纪末存在年代际转折,地表感热(潜热)由负(正)异常转为正(负)异常。春、夏季两个高原地区地表热通量的关系主要表现为:就春季同期变化而言,伊朗高原地表感热与青藏高原西部地表感热具有同相变化关系,与青藏高原东部地表感热具有反相变化关系,伊朗高原地表潜热与青藏高原东部地表潜热具有同相变化关系;就非同期变化而言,春季伊朗高原地表感热与夏季青藏高原东部地表感热存在反相变化关系。   相似文献   

6.
Recent studies have demonstrated a persistent decreasing trend in the spring sensible heat(SH) source over the Tibetan Plateau(TP) during the past three decades. By comparing simulations from nine state-of-the-art atmospheric general circulation models(AGCMs) driven by historical forcing fields with both observational data and five reanalysis datasets, the authors found that the AGCMs are unable to reproduce the change in the SH flux over the TP. This deficiency arises because the observed decreasing trend in SH flux depends primarily on the change in surface wind speed according to the bulk formula, whereas in the models it is also influenced largely by changes in the land-air temperature difference related to the systematic cold bias. In addition, an obvious discrepancy exists in other aspects of the diabatic heating simulated by the models, suggesting that a significant improvement is required in the physical schemes associated with land surface processes and diabatic heating over the complicated topography.  相似文献   

7.
This study explores the time-lagged impact of the spring sensible heat (SH) source over the Tibetan Plateau (TP) on the summer rainfall anomaly in East China using the Weather Research and Forecasting model. Numerical experiments for 2003 indicate that a spring SH anomaly over the TP can maintain its impact until summer and lead to a strong atmospheric heat source, characterized both by the enhanced SH over the western TP and enhanced latent heat of condensation to the east. Wave activity diagnosis reveals that the enhanced TP heating forces a Rossby wave train over the downstream regions. A cyclonic response over the northeast TP brings about a low-level northerly anomaly over northern China, while an anticyclonic response over the western Pacific enhances the subtropical high and the low-level southerly on its western flank. As a result, cold and dry airflow from mid-high latitudes, and warm and wet airflow from tropical oceans converge around the Huaihe River basin. In addition, warm advection originating from the TP induces vigorous ascending motion over the convergence belt. Under these favorable circulation conditions the eastward-propagating vortexes initiated over the TP intensify the torrential rainfall processes over the Huaihe River basin. In contrast, additional experiments considering the year 2001 with weak spring SH over the TP and an overall southward retreat of the summer rainfall belt in East China further demonstrate the role of spring SH over the TP in regulating the interannual variability of EASM in terms of wave activity and synoptic disturbances.  相似文献   

8.
Clear precipitation trends have been observed in Europe over the past century. In winter, precipitation has increased in north-western Europe. In summer, there has been an increase along many coasts in the same area. Over the second half of the past century precipitation also decreased in southern Europe in winter. An investigation of precipitation trends in two multi-model ensembles including both global and regional climate models shows that these models fail to reproduce the observed trends. In many regions the model spread does not cover the trend in the observations. In contrast, regional climate model (RCM) experiments with observed boundary conditions reproduce the observed precipitation trends much better. The observed trends are largely compatible with the range of uncertainties spanned by the ensemble, indicating that the boundary conditions of RCMs are responsible for large parts of the trend biases. We find that the main factor in setting the trend in winter is atmospheric circulation, for summer sea surface temperature (SST) is important in setting precipitation trends along the North Sea and Atlantic coasts. The causes of the large trends in atmospheric circulation and summer SST are not known. For SST there may be a connection with the well-known ocean circulation biases in low-resolution ocean models. A quantitative understanding of the causes of these trends is needed so that climate model based projections of future climate can be corrected for these precipitation trend biases.  相似文献   

9.
近30年青藏高原大气热源气候特征研究   总被引:1,自引:0,他引:1  
利用NCEP CFSR再分析资料,用"倒算法"计算了1981~2010年青藏高原大气热源汇,并分析了其气候特征。结果表明:(1)青藏高原大气热源汇具有明显的季节差异。高原大部分地区在春季和夏季为热源,冬季和秋季为冷源。2~4月热源从高原西北部、东北部及西南边坡开始逐渐向中部扩展,强度不断增强。5~7月高原东南端热源显著增强并向西向北扩展,使7月高原热源达到最强,并在高原南部喜马拉雅山脉沿线及其以南邻近地区形成一个强大的热源带。8月开始,高原热源迅速减弱,高原中部至四周边坡大部分地区大气先后变为冷源。到11月和12月整个高原大气几乎为冷源。(2)高原各区逐年平均大气热源强度有明显不同的变化特征。高原全区有显著的2~3年和6~8年周期,而高原东部仅存在6~8年周期,高原西部仅有2~3年周期。(3)近30年高原全区和东部大气热源具有明显增强趋势,而高原西部却为减弱趋势。  相似文献   

10.
近几十年来全球变暖受到越来越广泛的关注,然而全球变暖从1998年开始趋缓,但青藏高原却呈现加速增暖的趋势。本文基于前人研究,系统回顾了青藏高原气温、积雪、降水和大气热源等四方面在全球变暖背景下的变化,指出高原的加速增温导致了积雪迅速融化,降水明显增多的同时,高原热源却呈现减弱趋势。  相似文献   

11.
有关南半球大气环流与东亚气候的关系研究的若干新进展   总被引:14,自引:15,他引:14  
范可  王会军 《大气科学》2006,30(3):402-412
南半球大气环流是全球大气环流的重要组成部分,也是影响气候变化和亚洲季风系统的一个重要因素.中国气象学家很早就注意到南半球大气环流对东亚夏季风降水的影响.近年来,有关南半球气候变率的研究目前正受到世界气象学家越来越多的关注.南半球中高纬大气资料的丰富及南极涛动的确定,使得认识南半球高中纬环流的年际变动规律及其与东亚气候关系成为可能.本文主要介绍近年来有关南极涛动的年际变化与沙尘天气发生频次及东亚冬春季气候的关系,古气候资料揭示的南极涛动与华北降水的关系,以及南半球大气环流与长江中下游夏季降水的关系和南极涛动变率的可预测性等方面的研究进展.并对未来研究方向作了初步的展望.  相似文献   

12.
This study investigates mechanisms and nonlinearities in the response of the Asian Summer Monsoons (ASM) to high-latitude thermal forcings of different amplitudes. Using a suite of runs carried out with an intermediate-complexity atmospheric general circulation model, we find that the imposed forcings produce a strong precipitation response over the eastern ASM but a rather weak response over the southern ASM. The forcing also causes a precipitation dipole with wet conditions over the eastern Tibetan Plateau (TP) and dry conditions over the Bay of Bengal (BoB) and southeast Asia. A moderate increase of precipitation along the southern margin of the TP is also produced. Simulations designed to isolate the causal mechanisms show that thermodynamic interactions involving the tropical surface oceans are far less important than the water-vapour feedback for the transmission of information from the high-latitudes to the ASM. Additionally, we assess the nonlinearity of the ASM precipitation response to the forcing amplitude using a novel application of the empirical orthogonal function method. The response can be decomposed in two overlapping patterns. The first pattern represents a precipitation dipole with wet conditions over the eastern TP and dry conditions over BoB, which linearly increases with forcing amplitude becoming quasi-stationary for large forcing amplitudes (i.e. amplitudes leading to Arctic temperature anomalies larger than 10 °C). The second pattern is associated with increased precipitation over the southeastern TP and is nonlinearly dependent on forcing, being most important for intermediate forcing amplitudes (i.e. amplitudes leading to Arctic temperature anomalies between 5 and 10 °C).  相似文献   

13.
The thermal forcing of the Tibetan Plateau(TP) during boreal spring,which involves surface sensible heating,latent heating released by convection and radiation flux heat,is critical for the seasonal and subseasonal variation of the East Asian summer monsoon.Distinct from the situation in March and April when the TP thermal forcing is modulated by the sea surface temperature anomaly(SSTA) in the North Atlantic,the present study shows that it is altered mainly by the SSTA in the Indian Ocean Basin Mode(IOBM) in May,according to in-situ observations over the TP and MERRA reanalysis data.In the positive phase of the IOBM,a local Hadley circulation is enhanced,with its ascending branch over the southwestern Indian Ocean and a descending one over the southeastern TP,leading to suppressed precipitation and weaker latent heat over the eastern TP.Meanwhile,stronger westerly flow and surface sensible heating emerges over much of the TP,along with slight variations in local net radiation flux due to cancellation between its components.The opposite trends occur in the negative phase of the IOBM.Moreover,the main associated physical processes can be validated by a series of sensitivity experiments based on an atmospheric general circulation model,FAMIL.Therefore,rather than influenced by the remote SSTAs of the northern Atlantic in the early spring,the thermal forcing of the TP is altered by the Indian Ocean SSTA in the late spring on an interannual timescale.  相似文献   

14.
根据NCEP/DOE再分析资料的地面感热通量和潜热通量以及MICAPS天气图资料识别的高原低涡资料集,研究了近30年来青藏高原夏季地面热源和高原低涡生成频数的气候学特征,分析了高原地面加热与低涡生成频数的时间相关性及其物理成因.得到如下认知:夏季高原地面感热通量的气候均值为58 W m-2,近30年地面感热总体呈微弱的减小趋势.其中在1980年代初期和21世纪前10年的大部分时段,地面感热呈增大趋势,而中间时段呈波动式下降.地面感热具有准3年为主的周期振荡,1996年前后是其开始减弱的突变点.高原夏季地面潜热通量的气候均值为62 W m-2,近30年呈波动状变化并伴有增大趋势.地面潜热的周期振荡以准4年为主,地面潜热增大的突变始于2004年前后.夏季高原地面热源的气候均值为120 W m-2,其中地面感热与地面潜热对地面热源的贡献在夏季大致相当.地面热源总体呈幅度不大的减弱趋势,其中1980年代到1990年代末偏强,21世纪前6年明显偏弱,随后又转为偏强.地面热源亦呈准3年为主的周期振荡并在1997年前后发生由强转弱的突变.根据MICAPS天气图资料的识别和统计,近30来夏季高原低涡的生成频数整体呈现一定程度的线性减少趋势,低涡高发期主要集中在1980年代到1990年代中后期.低涡生成频数有准7年为主的周期振荡现象,自1990年代中期开始的低涡生成频数的减少态势在1998年前后发生了突变.夏季高原低涡生成频数与同期高原地面感热呈高度正相关,与地面潜热呈一定程度的负相关,但与同期地面热源仍呈较显著的正相关.因此,在气候尺度上,高原地面热源偏强特别是地面感热偏强的时期,对应高原低涡的多发期.本研究从气候统计的时间相关性角度揭示了高原地面加热作用对催生高原低涡乃至高原对流活动的重要性.  相似文献   

15.
Snow cover on the Tibetan Plateau (TP) has been shown to be essential for the East Asian summer monsoon. In this paper, we demonstrate that tropical cyclone (TC) 04B (1999) in the northern Indian Ocean, which made landfall during the autumn of 1999, may have contributed to climate anomalies over East Asia during the following spring and summer by increasing snow cover on the TP. Observations indicate that snow cover on the TP increased markedly after TC 04B (1999) made landfall in October of 1999. Sensitivity experiments, in which the TC was removed from a numerical model simulation of the initial field, verified that TC 04B (1999) affected the distribution as well as increased the amount of snow on the TP. In addition, the short-term numerical modeling of the climate over the region showed that the positive snow cover anomaly induced negative surface temperature, negative sensible heat flux, positive latent heat flux, and positive soil temperature anomalies over the central and southern TP during the following spring and summer. These climate anomalies over the TP were associated with positive (negative) summer precipitation anomalies over the Yangtze River valley (along the southeastern coast of China).  相似文献   

16.
采用1979—2017年NCEP/NCAR逐日再分析资料估算大气热源,研究夏季青藏高原大气热源准双周振荡(Quasi-BiWeekly Oscillation,QBWO)的特征及传播途径。结果表明:青藏高原及其周边的大气热源QBWO的前两个主模态,即荷载中心在高原东南部的全区一致型和高原东南-西北反位相变化的偶极型,呈现了高原夏季大气热源QBWO自东向西传播过程中所处的两种不同状态。这主要是由于在中纬度地区对流层中上层,低频大气环流的活动表现为大的异常气旋和反气旋环流从我国东北经青藏高原至西亚的自东向西的传播,当移近高原时迅速增强,当西移离开高原时明显减弱。在此过程中,青藏高原及其周边、孟加拉湾以及印度半岛等地区的降水都发生了异常变化。  相似文献   

17.
王天竺  赵勇 《气象科学》2020,40(6):819-828
基于1979-2017年5月青藏高原地区149个站点观测资料计算的地表感热通量(OBCH)和4套再分析资料提供的地表感热通量,对比分析了青藏高原地表感热通量的时空变化特征。结果表明:5月各地表感热再分析资料在高原主体部分(3 000 m以上部分)的气候平均值均为正值,说明高原主体5月为同一热源,且均呈高原西部(90°E为界)感热通量偏大,东部偏小的特征。5月高原主体各套平均地表感热通量均呈减弱趋势,除ERA感热表现为增强外,其余3套再分析资料在高原西部均表现为减弱,减弱趋势显著;5套资料在高原东部均表现为减弱趋势,除OBCH资料外,均表现为显著减弱。EOF分析发现,除了ERA-Interim资料,其余4套资料在高原主体第一模态主要表现为一致性变化,第二模态空间分布呈明显差异。从各套资料与OBCH资料的时间相关来看,ERA-Interim资料与OBCH资料相关系数可达0.70,说明二者在5月具有较好的年际变化一致性特征,而NCEP2资料与OBCH资料相关系数仅为0.33,说明二者具有较大的年际变化差异。  相似文献   

18.
ABSTRACT

Because of the high elevation and complex topography of the Tibetan Plateau (TP), the role of lakes in the climate system over the Tibetan Plateau is not well understood. For this study, we investigated the impact of lake processes on local and regional climate using the Weather Research and Forecasting (WRF) model, which includes a one-dimensional physically based lake model. The first simulation with the WRF model was performed for the TP over the 2000–2010 period, and the second was carried out during the same period but with the lakes filled with nearby land-use types. Results with the lake simulation show that the model captures the spatial and temporal patterns of annual mean precipitation and temperature well over the TP. Through comparison of the two simulations, we found that the TP lakes mainly cool the near-surface air, inducing a decreasing sensible heat flux for the entire year. Meanwhile, stronger evaporation produced by the lakes is found in the fall. During the summer, the cooling effect of the lakes decreases precipitation in the surrounding area and generates anomalous circulation patterns. In conclusion, the TP lakes cool the near-surface atmosphere most of the time, weaken the sensible heat flux, and strengthen the latent heat flux, resulting in changes in mesoscale precipitation and regional-scale circulation.  相似文献   

19.
霍飞  江志红  刘征宇 《大气科学》2014,38(2):352-362
本文首先利用最大协方差分析方法,探讨青藏高原积雪与中国降水之间的联系,发现中国夏末秋初(8~10月,简称ASO)降水与前期及同期高原积雪有着显著联系,当春夏季青藏高原西部多雪时,其后ASO中国长江及其以南地区多雨,而东部沿海的狭长区域少雨。进一步引入最大响应估计等方法,研究中国区域降水对高原积雪异常的响应及其可能的物理机制,结果表明,冬春季高原多雪异常可持续到夏季,并通过改变地表热力状况,导致ASO南亚高压减弱,同时在高、低空激发出两支波列:高层200 hPa波列沿中高纬西风急流传播,自高原经蒙古到达日本呈现明显的“负—正—负”位势高度异常传播,日本上空为气旋性异常环流;低层850 hPa波列起于高原,经孟加拉湾至中国南海,沿着西南气流传播,导致台湾附近的反气旋性异常环流,其西侧的偏南气流,将南海丰富的水汽输送至中国南部湖南、广西;而高层中心位于日本的气旋性异常环流西侧的偏北气流利于北方天气尺度扰动向南移动,它们为长江中下游及其以南地区多雨提供了有利条件。进一步计算定常波波数也表明,高层西风急流与低层西南季风气流作为波导,有利于高原上空的扰动沿着高、低空2支通道向东传播。由于东部沿海浙江、福建为正位势高度异常区,低层反气旋性异常环流则抑制了该区域的降水。  相似文献   

20.
春季中国东海黑潮区大气热源异常对中国东部降水的影响   总被引:3,自引:0,他引:3  
采用ERA-interim逐日再分析数据集与中国东部389个站逐日降水资料,通过相关和合成分析讨论了不同时间尺度上,春季中国东海黑潮区上空大气热源异常对东亚大气环流和中国东部降水的影响。观测分析表明,春季中国东海黑潮区上空为一显著的大气热源,大气对该热源的响应在不同时间尺度上表现出不同的形式。在较长时间的季节和年际尺度上,春季中国东海黑潮区大气热源增强时,可在大气对流层低层强迫出偏南气流,同期春季及后期夏季西太平洋副热带高压增强并西伸,相比于热源低值年西北太平洋副热带地区为一反气旋式异常环流所控制,中国长江中下游以南地区降水增多;反之亦然。与年际和季节时间尺度不同,在较短的天气时间尺度上,中国东海黑潮区上空大气热源增强可在其下方强迫出气旋式异常环流。大气热源的增强与中国东部对流层低层气旋式异常环流的东移有关,相应地在中国东部地区出现了显著的降水增多。  相似文献   

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