东亚冬季风的统计研究

利用ECMWFl979—1984年5个冬季(12—2月)的资料对东亚和西太平洋地区的冬季风进行了统计研究。得到的主要结果有: (1)东亚和西太平洋地区有两个冷涌区;从东海到南海等东亚沿岸地区和菲律宾以东西太平洋地区。其中以前者最明显。冷涌主要是700hPa以下的现象,近地面层北风最强,随高度迅速减弱。 (2)伴随着冷涌向南扩展,冷空气经华南沿中南半岛沿岸区一直向南扩展到近赤道地区; (3)在近地面层,西伯利亚高压的活动和强度与冷涌有密切的联系; (4)东亚的冬季风或冷涌有明显的年际变化,这与西伯利亚高压和南支槽活动的年际变化有关。      

青藏高原大地形对南海冷涌事件影响的数值模拟

利用大气环流模式NCAR CAM3,通过比较敏感性试验与控制试验的结果,讨论青藏高原大地形高度对南海北部冷涌事件及环流的可能影响。结果表明,地形的绕流作用对阿留申低压和东亚大槽的产生有着重要作用,当大地形不存在时,两者消失。地形高度变化对大陆冷高压的强度有影响,随着地形高度的降低大陆冷高压强度减弱。即大地形对中高纬行星尺度平均槽脊具有重要作用,地形高度降低会导致中高纬环流经向度减小,不利于冷空气南下,从而影响冷涌事件的强度和发生频率。当地形高度减半时,由于大陆东部地势相对平坦,南海北部北风强度增加,使得南海北部冷涌的出现频率略有增加。当无地形存在时,由于无青藏高原大地形的存在,使得东亚中高纬环流的经向度显著减小,冷空气南下活动明显减弱;同时没有大地形激发冷锋后的Kelvin波向南运动,导致南海北部北风强度减弱,南海北部冷涌的出现频率也显著减少。     

一次东亚寒潮爆发后冷涌发展的研究

分析了１９８１年１月２１—２８日一次东亚强寒潮爆发后南海和西太平洋地区冷涌的发展过程。冷涌的发展最先表现为低层强东北风沿东亚沿海地区和南海中北部的迅速建立。２—３ｄ之后，又在菲律宾以东洋面激起第二次冷涌。与冷涌相伴随的低层温度场变化也十分明显，同样具有先后两次降温过程。冷涌期高空风场表现有明显的脉动，南海北部高空西风迅速减弱，而在南海近赤道地区出现了很强的高空东风区。冷涌的发展与寒潮冷高压的南下有密切关系，它的强度在很大程度上取决于中纬度冷高压的强度。另一方面，冷涌发展后，通过Ｈａｄｌｅｙ环流可影响中纬西风急流和热带东风急流的变化。     

A NUMERICAL EXPERIMENT STUDY ON THE FORMING MECHANISMS OF LOW-LATITUDE CIRCULATION CELLS AND PRECIPITATION DURING AN EAST ASIAN COLD SURGE

The forming mechanisms of low-latitude circulation cells and precipitation during an East Asian cold surge have been studied by using a five-layer primitive equation model.Numerical experiments show that in mid-high latitudes,the propagation of the East Asian winter monsoon is nearly a dry process;in low-latitudes,the effects of cumulus convection intensify the northeast monsoon and northeast trade wind;however,they also prevent the intertropical convergence zone(ITCZ) from further southward invasion,and strengthen the meridional and zonal cells over East Asia. Numerical results also indicate that the winter monsoon precipitation in Indonesia and Northern Australia can exist independently.Both the South China Sea(SCS) cold surge and the West Pacific northeast cross-equatorial trade wind are of importance for the formation of the Northern Australia summer monsoon and its precipitation.Numerical results show that the development of cumulus convection,triggered by the SCS cold surge,is a crucial factor in forming the heavy monsoon precipitation and low-level stationary disturbances in Indonesia and Borneo.The tropical topography and northeast trade wind disturbances only affect the intensity of precipitation there.     

南海北部冷涌及其环流特征

利用中国南部沿海风向、地面气温及南海北部风速的变化确定南海北部冷涌的判别标准,构建了一个冷涌发生频率指数,对南海北部冷涌的年际变化特征及其环流异常进行讨论。结果表明,南海北部冷涌频率指数能够更加全面地描述冷涌系统的特征,与全国范围的冷空气爆发关系密切。南海北部冷涌与中高纬、中低纬环流具有密切的联系,是二者共同作用的结果。当贝加尔湖以西高压脊偏强,中高纬环流经向度加大,西太平洋副热带高压强度偏弱、位置偏东时,有利于大陆上冷空气南下入海,在南海北部形成冷涌。冷涌发生时,经向Hadley环流加强,调整中纬与低纬地区的大气质量,高层向北输送的大气在科氏力作用下导致东亚副热带西风急流加强,有利于冷涌的维持和加强。     

STUDY OF PHYSICAL PROCESSES AFFECTING THE TRANSFORMATION OF COLD AIR OVER LAND AFTER OUTBREAK OF COLD WAVES IN EAST ASIA

Authors have studied the transformation processes of cold air over land in East Asia for eight cases which occurredin different months of 1981.First,the surface eddy sensible and latent heat fluxes,and drag coefficient were estimatedaccording to the approach of similarity theory.Then,the apparent heat source,the apparent moisture sink,and solarand long-wave radiative heating(or cooling)were further calculated through the budget method and physicalparameterization algorithm.It has been found that the cold air immediately starts the transformation process over landonce it moves away from its region of origin.In winter,the degree of transformation of cold air mass gradually intensi-fied as it travelled southeastward;while arriving in the ocean,the cold air mass underwent the most significant transfor-mation process.In summer,the most vigorous transformation of thermal and moisture fields was observed in NorthChina and Mongolian region,with much greater intensity than that in winter.     

东亚冷空气爆发后陆地变性的物理过程研究

本文对1981年不同月份8次东亚冷空气活动的陆地变性过程进行了分析。首先,用相似理论方法,直接计算了地面的感热和潜热的湍流交换及拖曳系数,又利用收支法和物理参数化方法计算了视热源视水汽汇的收支以及长短波辐射的加热和冷却作用。发现南下冷空气一经离开源地就开始了明显的变性过程。在冬季,变性强度随冷性气团向东南移动而逐渐增强,到达海上时变性最剧烈;在夏季,温湿变性最大区出现在我国北方,并且在陆上的变性强度比冬季要强得多。     

East Asian winter monsoon: results from eight AMIP models

 This study evaluates simulations of the East Asian winter monsoon in eight GCMs that participated in the Atmospheric Model Intercomparison Project (AMIP). In addition to validating the mean state of the winter monsoon, the cold surge and its transient properties, which includes the frequency, intensity, preferred propagation tracks, and the evolution patterns of the surges, are examined. GCM simulated temporal distribution of the Siberian high and cold surges is also discussed. Finally, the forcing of the cold surges on the tropical surface wind and convection, along with their interannual variation is analyzed. The mean state of the winter monsoon is generally portrayed well in most of the models. These include the climatological position of the Siberian high, the 200 hPa divergent center, and the large-scale wind patterns at the surface and the 200 hPa. Models display a wide range of skill in simulating the cold surge and its transient properties. In some of the models, the simulated cold surge trajectory, intensity, frequency, propagation patterns and source regions are in general agreement with those from the observed. While in others, the models cannot adequately capture these observed characteristics. The temporal distribution of the Siberian high and cold surges were realistically reproduced in most GCMs. Most models were able to simulate the effect of the cold surges on the tropical surface wind, although a few models unrealistically generated subtropical southerly wind in the mid-winter. The relationship between cold surges and the tropical convection was not satisfactorily simulated in most models. The common discrepancies in the winter monsoon simulation can be attributed to many factors. In some models, the reason is directly related to the improper location of the large-scale convective center near the western Pacific. The satisfactory simulations of the monsoon circulation and the cold surges are partly due to the topographical characteristics of the East Asian continent, i.e., the Tibetan Plateau to the west and the oceans to the east. The correct simulation of the interannual variation of the surface wind near the South China Sea (SCS) and the maritime continent is a demanding task for most of the models. This will require adequate simulations of many aspects, including tropical convection, the Siberian cold dome, the extratropical-tropical linkage, and the air-sea interaction. The discrepancies noted here furnish a guide for the continuing improvement of the winter monsoon simulations. Improved simulations will lead to an adequate delineation of the surface wind and convection near the maritime continent, which is essential for portraying the winter monsoon forcing in a coupled model. Received: 10 March 1997/Accepted: 4 June 1997     

Mesoscale structures of two types of cold-air outbreaks over the East China Sea and the effect of coastal sea surface temperature

Two types of cold-air outbreaks over the Yellow and East China Seas are investigated using a regional mesoscale model. Distinct patterns of surface turbulent heat fluxes and precipitation are identified between the two cases. The sea surface heat flux and frictional velocity are strongly influenced by mesoscale differences between high- and low-resolution datasets of sea surface temperature (SST). The influence of the SST difference on atmospheric water is spread to the downstream area of the outbreak with the phase transition of water. The air mass transformation around 800?hPa over the Kuroshio is partly influenced by the upstream SST difference. In particular, the SST difference near the mouth of the Yanzi River strongly modifies the air mass around Taiwan. Thus, in addition to the Kuroshio front, the mesoscale Chinese coastal SST structure is also important in the air mass transformation over the East China Sea.     

A synoptic and dynamical characterization of wave-train and blocking cold surge over East Asia

Through an agglomerative hierarchical clustering method, cold surges over East Asia are classified into two distinct types based on the spatial pattern of the geopotential height anomalies at 300 hPa. One is the wave-train type that is associated with developing large-scale waves across the Eurasian continent. The other is the blocking type whose occurrence accompanies subarctic blocking. During the wave-train cold surge, growing baroclinic waves induce a southeastward expansion of the Siberian High and strong northerly winds over East Asia. Blocking cold surge, on the other hand, is associated with a southward expansion of the Siberian High and northeasterly winds inherent to a height dipole consisting of the subarctic blocking and the East Asian coastal trough. The blocking cold surge tends to be more intense and last longer compared to the wave-train type. The wave-train cold surge is associated with the formation of a negative upper tropospheric height anomaly southeast of Greenland approximately 12 days before the surge occurrence. Further analysis of isentropic potential vorticity reveals that this height anomaly could originate from the lower stratosphere over the North Atlantic. Cold surge of the blocking type occurs with an amplifying positive geopotential and a negative potential vorticity anomaly over the Arctic and the northern Eurasia in stratosphere. These anomalies resemble the stratospheric signature of a negative phase of the Arctic Oscillation. This stratospheric feature is further demonstrated by the observation that the blocking type cold surge occurs more often when the Arctic Oscillation is in its negative phase.     

冬半年南支西风中Rossby波传播及其与南支槽形成的关系

利用1948—2005年的10月—次年5月NCEP/NCAR再分析资料对西风急流中Rossby波的传播及其与冬半年副热带南支西风槽形成的关系进行研究, 结果表明:冬半年亚洲副热带西风急流下方存在3个南支波动, 分别位于阿拉伯海、孟加拉湾和我国华南地区, 其中孟加拉湾南支槽变率最小, 是半永久性低压槽; 从北非、阿拉伯海到孟加拉湾的“-+-”遥相关波列表明南支槽与北非槽呈正相关, 与阿拉伯海槽呈反相关。在西风波动从北非东传到孟加拉湾的过程中, 往往会在阿拉伯海有所停顿, 这种由西向东的传播过程约20 d一次, 具有明显的低频振荡特征; 源自北非的定常Rossby波能量沿着急流波导传播到孟加拉湾, 可能是南支槽明显增幅的一个主要机制; 另外, 从青藏高原东西两侧南下的冷空气活动也是南支槽加深发展的一个重要因素。     

2004/2005年冬季强寒潮事件的等熵位涡分析

利用2004年12月1日—2005年2月28日的NCAR/NCEP逐日再分析资料,对2004年12月22日—2005年1月1日的强寒潮事件进行等熵位涡分析。结果表明:这次强寒潮事件的强冷空气来自欧亚北部和北极地区的高纬平流层下部与对流层上部。在寒潮爆发前期,高位涡强冷空气传播到贝加尔湖南侧,并被来自低纬度的低位涡空气所切断,在欧亚地区形成北部低位涡(阻塞高压)南部高位涡(低涡)的偶极型环流。随着低位涡的减弱消亡,高位涡强冷空气沿高原北侧向东南方向移动,当高位涡中心移到中国东部地区,高位涡空气柱在垂直方向上强烈向下伸展,使得气柱的气旋性涡度加强,东亚大槽迅速加深,引起寒潮的爆发。进一步分析表明,高位涡中心向南、向下传播过程中,等熵面上高位涡中心附近气流在其西侧和北侧地区沿等熵面下沉,引起上述地区低层西伯利亚高压迅速发展,导致强寒潮爆发。     

冬季中国东部与北极之间近地面温度变化的年际联系

利用NCEP/NCAR再分析资料和国家气象信息中心整编的425站气温资料,借助经验正交函数分解（EOF）、相关分析和回归分析等方法探讨1956~2015年冬季北极及中高纬度近地面温度、西伯利亚高压的变化特征以及两者与中国东部气温直接和间接的年际联系。为此定义了3个西伯利亚高压指数,即西伯利亚高压中心强度指数（SHCI）、西伯利亚高压面积指数（SHA）和西伯利亚高压东边界指数（SHEB）。结果表明:从1998年开始冬季巴伦支海、喀拉海迅速增温,并在年际尺度上与中国东部气温存在显著的负相关关系,即北极近地面温度与中国东部气温的直接联系。同时,西伯利亚高压的3个指数也与北极地区近地面温度和中国东部气温有较好的年际关系,体现了西伯利亚高压是联系北极和东亚气候的桥梁,当北极近地面温度升高（降低）时,西伯利亚高压中心强度增强（减弱）,面积扩大（缩小）,东边界东伸（西退）,中国东部气温降低（升高）,即北极近地面温度（西伯利亚高压）与中国东部气温的间接（直接）联系。最后,讨论了北极近地面温度变化影响中国东部气温的可能物理机制。     

东亚寒潮冷空气的传播和行星尺度作用

本文研究了1980—1984年冬季19次东亚寒潮爆发过程中低频扰动的传播特征和行星尺度作用。揭示出冷空气的向南传播主要是一种低频模态的10—20天周期的振荡。另一方面，与寒潮爆发有关的西伯利亚冷高压作为北半球冬季对流层的主要冷源会导致一系列行星尺度过程的响应。这主要表现为辐散环流的上升支迅速地从印尼—马来西亚地区东移到东太平洋，使正常的沃克环流反向。这种情况十分相似于由非厄尔尼诺年到厄尔尼诺年辐散环流的运动。从动力学上，这种辐散环流有利于东太平洋以及北美西岸的天气发展。     

2019年广东前汛期连续暴雨与大气季节内振荡的联系

为了做好连续回流暴雨的中期与延伸期预报,采用小波分析、Lanczos时间滤波器等方法研究了2019年广东前汛期降水与大气季节内振荡的关系,分析了4～5月发生在西南部的两次连续回流暴雨的平均环流场及其低频传播特征的差异,并与6月广东北部锋面型连续暴雨进行对比分析.结果 表明,4～5月两次以阳江为中心的西南部连续暴雨及前汛...     

中国大范围持续性低温事件与中国南方降水异常

本文利用1951~2009年的数据资料,探讨了与冬季大范围持续性低温事件对应的中国南方降水多寡的原因以及不同降水类型事件的不同前兆信号。主要结果如下:(1)欧亚大陆中高纬大型斜脊斜槽是中国大范围持续性低温事件的关键环流特征。降水偏多型和偏少型低温事件的中高纬环流系统存在显著差异:当大型斜脊的纬向尺度较大且其正高度距平中心偏强时,斜槽的负距平中心靠近东亚大槽区,西伯利亚高压大范围加强,南侵冷空气活动偏强,使中国南方地区降水偏少。相反,当大型斜脊的纬向尺度相对小时,斜槽位置偏西,西伯利亚高压加强范围偏小,南侵冷空气活动也偏弱,有利于中国南方地区降水偏多。(2)在低温事件中我国南方地区的降水多寡,也取决于西太副高和孟加拉湾南支槽。当西太副高和孟加拉湾南支槽加强时,来自西太平洋、南海和孟加拉湾的三支暖湿气流到达我国南方地区,导致南方降水偏多,反之亦然。(3)不同降水类型低温事件的前兆环流信号(之前1~3侯)显著不同。降水偏多型低温事件前期,源自北大西洋地区的波列向东亚地区传播。降水偏少型事件前期,极涡在欧亚大陆一侧的次极区显著减弱,同时极涡呈两极型,一极伸向南欧及地中海地区,另一极伸向阿留申群岛。在中期—延伸期时间尺度上,这一结果可为持续性低温事件降水形势的预测提供依据。     

冬季北极涛动和华北冬季气温变化关系研究

利用北极涛动指数（AOI）、NCEP／NCAR40a再分析资料中的海平面气压（SLP）、850、500、200hPa等压面高度场资料及中国160站月平均气温资料，运用小波分析，经验正交函数（EOF）分析等方法，分析了华北冬季气温和冬季北极涛动指数的变化特征及其关系。结果表明它们之间存在有着显著相关，特别是在年代际尺度上关系尤其密切。华北在20世纪70年代初以前为持续冷冬，80年代中期之后变为持续暖冬，其间相对正常，而冬季北极涛运指数亦存在类似的3个阶段，冬季北极涛动高（低）低数年，华北地区为暖（冷）冬年。其原因在于，北极涛动在于对流层低层和高层都可激发类似EU遥相关型的异常，通过影响西伯利亚高压和东亚大槽影响华北地区气温。强（弱）涛运年大气环流具有弱（强）东亚冬季风特征，西伯利亚高压减弱（增强），亚洲大陆地面东北风减弱（增强），高空东亚大槽减弱（增强）。     

冬季东亚副热带急流和温带急流协同变化与我国冷空气活动的关系

利用NCEP/NCAR再分析资料和地面台站气温观测资料,分析了冬季东亚副热带急流（EASJ）和东亚温带急流（EAPJ）强度变化特征及其与我国境内冷空气活动的关系。以（45°N～60°N, 70°E～110°E）和（27.5°N～37.5°N,130°E～160°E）区域平均的300 hPa全风速分别表征冬季EAPJ和EASJ的强度,将两支急流的强度变化分为四种情况：EAPJ和EASJ同强（SS）、同弱（WW）、以及强弱（SW）、弱强（WS）。分析四种急流强度变化情形下中国境内冷空气活动强度、路径、持续时间以及源地的不同特征,发现当EAPJ和EASJ均强时,冷空气从内蒙古中东部入侵,主要影响华北、东北和东部沿海地区,强度较弱,持续时间短,冷空气源地位于新地岛以东的洋面及陆地上;当EAPJ和EASJ均弱时,冷空气从新疆北部入侵,影响我国大部分地区,强度强,持续时间长,冷空气源地位于巴尔喀什湖西部;当EAPJ强,EASJ弱时,冷空气从我国东北入侵,主要影响我国东北部,中国南部降温不明显,冷空气强度较强,持续时间短,冷空气源地位于中、西西伯利亚地带;当EAPJ弱,EASJ强时,冷空气从内蒙古中部入侵,进而影响华北和我国东部地区,但冷空气强度较弱,冷空气源地位于贝加尔湖的西侧。进一步分析急流强度四种变化情形下的环流特征发现,EAPJ、EASJ均弱时,西伯利亚高压偏强,阿留申低压偏弱,东亚大槽偏深,中国东部的偏北风强,而EAPJ弱、EASJ强时,尽管西伯利亚高压和阿留申低压偏强,东亚大槽偏深,但中国东部的偏北风并不是很强,而另两种情况时,西伯利亚高压较弱,东亚大槽也较弱,中国东部的偏北风偏弱。     

The Pioneering Works of Professor Duzheng YE on Atmospheric Dispersion,Tibetan Plateau Meteorology,and Air–Sea Interaction

This paper provides an overview of the impacts of the original works of Professor Duzheng YE on a selected set of observational and model studies with which the present author has been associated over the past several decades. The main themes of these works include atmospheric energy dispersion, air–land interactions over the Tibetan Plateau, and El Ni n?orelated air–sea coupling over East Asia.The dispersive behavior of observed atmospheric fluctuations accompanying cold surge events in East Asia is demonstrated. Cold air outbreaks over Korea and southern China are coincident with the successive downstream development of troughs and ridges, with the group velocity of such wave packets being notably faster than the phase propagation speed of individual troughs and ridges. In a more general context, dispersive features are also discernible from lagged teleconnection charts and cross-spectra of observed and model-simulated geopotential height variations on 10–30-day time scales.Using the output from a high-resolution general circulation model, the relative contributions of condensational, sensible, and radiative heating to the atmospheric energy budget over the Tibetan Plateau are documented. The rapid changes of the upper tropospheric Tibetan anticyclone and East Asian mei-yu("plum rain") precipitation band associated with the development of the Asian monsoon system are described.The principal anomalies in sea level pressure, surface wind, precipitation and sea surface temperature over southeastern China and the Philippine Sea region during El Nio events are presented. The contributions of remote El Nio-related forcing and local air–sea interaction to the occurrence of these anomalies are assessed.     

亚洲热带气候态夏季风涌传播特征及其对中国降水的影响

基于1979—2020年逐日的NOAA向外长波辐射资料、NCEP/NCAR再分析风场资料,以及全球CMAP再分析降水资料,探讨了气候态亚洲热带夏季风涌的传播过程及与我国夏季相应的降水联系。分析结果表明,主汛期亚洲热带气候态夏季风季节内振荡(CISO)活动是亚洲夏季风活动的主要特征,随时间北传的亚洲热带夏季风CISO称为亚洲热带夏季风涌,主要有南亚夏季风涌和南海夏季风涌。亚洲热带夏季风涌的传播可分为四个阶段。在亚洲热带夏季风涌的发展阶段,印度洋区域低频气旋与对流活跃,孟加拉湾和南海热带区域被低频东风控制,我国大部分地区无降水发生,降水中心位于两广地区。当进入亚洲热带夏季风涌活跃阶段,孟加拉湾和南海热带地区低频气旋和对流活跃,东亚低频“PJ”波列显著,我国降水中心北移到长江以南的附近区域。亚洲热带夏季风涌减弱阶段,孟加拉湾与南海低频气旋消亡,对流减弱,低频西风加强,日本南部附近为低频反气旋控制,我国长江中下游低频南风活跃,降水中心也北移到长江中下游地区,而华南地区已基本无降水,此阶段的大气低频环流场与亚洲热带夏季风涌发展阶段基本相反。进入亚洲热带夏季风涌间歇阶段时,孟加拉湾和南海热带地区低...