TBO的原因－异常东亚冬季风与ENSO循环的相互作用

基于对 ＮＣＥＰ／ ＮＣＡＲ再分析资料以及其他资料（ＯＬＲ，降水和气温等）的分析研究，结果表明东亚和西北太平洋地区的对流层环流和气候变化都有明显的准两年振荡（ＴＢＯ）特征。同时，异常东亚冬季风可以影响次年夏季的大气环流和气候变化，特别是在东亚地区；而异常东亚冬季风和ＥＮＳＯ循环间又有明显相互作用：持续的强（弱）东亚冬季风通过海─气相互作用可以激发 Ｅｌ Ｎｉ　ｏ（Ｌａ Ｎｉ　ａ）， Ｅｌ Ｎｉ　ｏ（Ｌａ Ｎｉ　ａ）反过来又可通过遥相关或遥响应而导致东亚冬季风偏弱（强）。强或弱的冬季风和ＥＮＳＯ循环是相互衔接在一起的，因此可以认为异常东亚冬季风与ＥＮＳＯ循环的相互作用是ＴＢＯ对流层准两年振荡）的基本原因。     

在准两年尺度上ENS0与亚洲季风相互作用的研究

对ENSO过程中的准两年振荡进行了诊断分析，并在此基础上分析了ENSO与亚洲季风的相互作用，结果表明：在准两年尺度上亚洲季风对ENSO循环有着十分明显的影响，这种影响主要通过亚洲季风爆发南下到热带西太平洋，激发出那里的强对流，进而影响到ENSO循环，这种现象不仅仅反映在准两年模态中，在实际亚洲冬季风的年限变化中也较突出。     

FEATURES AND COMPARISONS OF THE QUASI-BIENNIAL VARIATIONS IN THE ASIA-PACIFIC MONSOON SUBSYSTEMS

The National Centers for Environmental Prediction (NCEP) reanalysis data, Climate Diagnostics Center Merged Analysis of Precipitation (CMAP) results, and NOAA Extended Reconstructed Sea Surface Temperature (SST), have been utilized in this paper to study the quasi-biennial variations in Asia-Pacific monsoon subsystems and associated SST anomalies (SSTA) and wind anomalies. Four monsoon indices are computed from NCEP/ National Center for Atmospheric Research (NCAR) reanalysis to represent the South Asian monsoon (SAM), South China Sea summer monsoon (SCSSM), Western North Pacific monsoon (WNPM) and East Asian monsoon (EAM), respectively. The quasi-biennial periods are very significant in Asia-Pacific monsoons (as discovered by power spectrum analysis), and for SAM and EAM---with moderate effects by El Ni?o-Southern Oscillation (ENSO)---the quasi-biennial periods are the most important factor. For SCSSM and WNPM (once again due to the effects of ENSO), the quasi-biennial periods are of secondary durations. There are obvious interdecadal variations in the quasi-biennial modes of the Asia-Pacific monsoon, so in the negative phase the biennial modes will not be significant or outstanding. The wind anomalies and SSTA associated with the biennial modes are very different in the SAM, WNPM and EAM regions. Since the WNPM and SCSSM are very similar in the biennial modes, they can be combined into one subsystem, called SCS/WNPM.     

Recent advances in studies of the interaction between the East Asian winter and summer monsoons and ENSO cycle

Recent advances in studies on the interaction between the East Asian monsoon and the ENSO cycle are reviewed in this paper. Through the recent studies, not only have the responding features and processes of the East Asian winter and summer monsoon circulation anomalies and summer rainfall anomalies in East Asia to the ENSO cycle during its different stages been understood further, but also have the thermal and dynamic effects of the tropical western Pacific on the ENSO cycle been deeply analyzed from the observational facts and dynamic theories. The results of observational and theoretical studies showed that the dynamical effect of the atmospheric circulation and zonal wind anomalies in the lower troposphere over the tropical western Pacific on the ENSO cycle may be through the excitation of the equatorial oceanic Kelvin wave and Rossby waves in the equatorial Pacific. These studies demonstrated further that the ENSO cycle originates from the tropical western Pacific. Moreover, these recent studies also showed that the atmospheric circulation and zonal wind anomalies over the tropical western Pacific not only result from the air-sea interaction over the tropical western Pacific, but are also greatly influenced by the East Asian winter and summer monsoons. Additionally, the scientific problems in the interaction between the Asian monsoon and the ENSO cycle which should be studied further in the near future are also pointed out in this paper.     

ENSO年东亚夏季风异常对中国江、淮流域夏季降水的影响

利用Nio3指数,把ENSO循环不同位相的夏季划分为4类并进行聚类分析,发现ElNio发展期和LaNia衰减期可以聚为一类,其夏季淮河流域降水往往偏多,长江中下游降水偏少;ElNio衰减期和LaNia发展期可以聚为一类,其夏季长江中下游地区降水往往偏多,淮河流域降水往往偏少。而后对这两大类中的年份分别聚类和合成分析。结果发现,这次聚类的结果反映了强弱夏季风对江、淮地区降水的影响。这一方面表明ENSO循环的同一位相既可能对应强东亚夏季风也可能对应弱夏季风,另一方面表明ENSO循环通过影响东亚夏季风环流异常的范围而使雨带位置发生变化,东亚夏季风强弱主要使雨量多少发生变化。     

不同类型ENSO对东亚季风的影响和机理研究进展

近十几年来有关热带太平洋存在不同类型的增暖型的研究成为热点课题,其中主要依据海温的空间形态将厄尔尼诺与南方涛动（ENSO）分为两类:一类为传统的东太平洋型ENSO,另一类为中太平洋型ENSO。该两类ENSO的形成机制、演变过程均有不同,产生的气候影响也有差异。本文简要回顾了国内外有关不同类型ENSO及其气候影响的研究进展,特别综述了近年来关于两类ENSO事件对东亚夏季风、东亚冬季风以及东亚冬夏季风关联的影响和机理方面的主要研究进展。文中侧重讨论了年际和年代际时间尺度上ENSO事件对东亚季风的影响,并提出了今后在该领域一些需要进一步研究的科学问题。     

近百年东亚冬季风与ENSO循环的相互关系及其年代际异常

运用相关及滑动相关的计算技术，讨论了近百年东亚冬季风与ENSO循环的相互关系及其年代际异常。研究指出，东亚冬季风与赤道东太平洋海温的年际关系具有年代际的变化特征；季风与ENSO循环的关系受到季风的QBO以及季风-海洋的年代际背景场配置关系的共同作用；当季风与海洋的背景场处于同样状态时，强冬季风有利于第二年冬季赤道东太平洋的升温，产生El Ni?o事件；当两者的背景场处于反位相状态时，强冬季风对应于第二年冬季的La Ni?a位相。     

A comparison of regional monsoon variability using monsoon indices

The present study aims to (a) examine meteorological basis for construction of regional monsoon indices and (b) explore the commonality and differences among tropical regional monsoons, especially the teleconnection and monsoon–ENSO relationship. We show that the area-averaged summer precipitation intensity is generally a meaningful precipitation index for tropical monsoons because it represents very well both the amplitude of annual cycle and the leading mode of year-to-year rainfall variability with a nearly uniform spatial pattern. The regional monsoon circulation indices can be defined in a unified way (measuring monsoon trough vorticity) for seven tropical monsoon regions, viz.: Indian, Australian, western North Pacific, North and South American, and Northern and Southern African monsoons. The structures of the tropical monsoons are commonly characterized by a pair of upper-level double anticyclones residing in the subtropics of both hemispheres; notably the winter hemispheric anticyclone has a barotropic structure and is a passive response. Two types of upper-level teleconnection patterns are identified. One is a zonal wave train emanating from the double anticyclones downstream along the westerly jets in both hemispheres, including Indian, Northern African and Australian monsoons; the other is a meridional wave train emanating from the double anticyclones polewards, such as the South American and western North Pacific monsoons. Over the past 55 years all regional summer monsoons have non-stationary relationship with ENSO except the Australian monsoon. The regional monsoon–ENSO relationship is found to have common changing points in 1970s. The relationships were enhanced for the western North Pacific, Northern African, North American and South American summer monsoons, but weakened for the Indian summer monsoon (with a recovery in late 1990s). Regardless the large regional differences, the monsoon precipitations over land areas of all tropical monsoon regions are significantly correlated with the ENSO, suggesting that ENSO drives global tropical monsoon rainfall variability. These results provide useful guidance for monitoring sub-seasonal to seasonal variations of the regional monsoons currently done at NCEP and for assessment of the climate models’ performances in representing regional and global monsoon variability.     

国内东亚热带-副热带季风的研究进展

简要回顾了近年来国内在东亚热带-副热带季风方面的研究进展。涉及亚洲热带季风爆发特征、爆发机制、季风指数设计、东亚季风环流系统、低频振荡活动以及东亚季风年际和年代际变化等问题,并讨论了东亚热带-副热带季风研究中存在的问题及未来的研究前景。     

NUMERICAL SIMULATION OF LAG INFLUENCE OF ENSO ON EAST-ASIAN MONSOON

By prescribing sea surface temperature anomalies(SSTAs)over eastern equatorial Pacific inJanuary—March,the lag influence of ENSO(El Nino and La Nina)on monsoon over East Asiahas been studied.The results suggest that,due to the excitation of atmospheric low-frequencyoscillation by the SSTA,ENSO has significant lag influence on the monsoon over East Asia.During the summer after E1 Nino,the subtropical high over western Pacific is intensified andshows the northward and westward displacement,meanwhile,the rainfall over East China isbelow normal,especially in North China:during the winter after E1 Nino,both the Asian troughand the winter monsoon over East Asia are strengthened.During the summer after La Nina,theanomalous subtropical high prevails over the lower reaches of Yangtze(Changjiang)River,therainfall between Yangtze and Huaihe Rivers is below normal:during the winter after La Nina,both the Asian trough and the winter monsoon over East Asia are weaker.Compared with LaNina,the effect of El Nino is stronger,but it is not always opposite to the one of La Nina.     

INTERRELATION BETWEEN EAST-ASIAN WINTER MONSOON AND INDIAN/PACIFIC SST WITH THE INTERDECADAL VARIATION*

Investigated statistically is the interrelation between East Asian winter monsoon (EAWM) and SST over sensitive areas of the Indian and Pacific Oceans.with focus on the relation of EAWM to strong ENSO signal area.i.e.,the equatorial eastern Pacific (EEP) SST.Evidence suggests that the EAWM variation is intimately associated not only with the EEP SST but with the equatorial western Pacific "warm pool" and equatorial Indian/northwestern Pacific Kuroshio SST as well:the EAWM and ENSO interact strongly with each other on the interannual time scales,exhibiting pronounced interdecadal variation mainly under the joint effect of the monsoon QBO and the monsoon/SST background field features on an interdecadal basis-when both fields are in the same phase(anti-phase).strong EAWM contributes to EEP SST rise(drop)in the following winter,corresponding to a warm(cold)ENSO cycle;the EAWM QBO causes ENSO cycle to be strong phase-locked with seasonal variation,making the EEP SST rise lasting from April-May to May-June of the next year,which plays an important role in maintaining a warm ENSO phase.     

亚洲季风与ENSO循环的相互作用

ＥＮＳＯ事件对亚洲季风有很大影响,特别是对东亚夏季风环流有较大影响。许多观测事实表明,在ＥＮＳＯ事件处于发展阶段的夏季,江淮流域往往发生洪涝,黄河流域往往发生干旱,东北地区往往发生冷夏。本研究利用观测资料分析了亚洲季风对ＥＮＳＯ事件发生的影响。分析结果表明,在ＥＮＳＯ事件发生前,在热带太平洋上空对流层下层有明显的西风异常;这个西风异常将会加强东传暖Ｋｅｌｖｉｎ波和西传冷Ｒｏｓｓｂｙ波,为ＥＮＳＯ循环提供必要的赤道海洋波动条件;并且这个西风异常与东亚季风区西风异常向南传播有密切关系。通过遥相关分析表明,东亚季风西风异常的南传是通过欧亚型遥相关的波列来实现。通过分析,本研究提出一种亚洲季风与ＥＮＳＯ循环相互作用的物理图像。     

Monsoon Circulation Related to ENSO Phase-Locking

ＭｏｎｓｏｏｎＣｉｒｃｕｌａｔｉｏｎＲｅｌａｔｅｄｔｏＥＮＳＯＰｈａｓｅ－Ｌｏｃｋｉｎｇ①①ＴｈｉｓｗｏｒｋｉｓｓｐｏｎｓｏｒｅｄｂｙｔｈｅＮａｔｉｏｎａｌＮａｔｕｒａｌＳｃｉｅｎｃｅＦｏｕｎｄａｔｉｏｎｏｆＣｈｉｎａｕｎｄｅｒＧｒａｎｔＡＴＭ４９７...     

Monsoon circulation related to enso phase-locking

The relation of interannual anomaly of East Asian monsoon to the ENSO cycle is investigated in terms of even and odd symmetry analysis over a tropical heating field based on the past 30-year data. Evidence suggests that odd and even symmetry components related to the monsoon and Walker heating, respectively, effectively describe the East Asian monsoon circulation and Pacific Walker analog, with the monsoon intensity index corresponding to its heating vigor and western Pacific Walker heating vigor to ENSO phase change, both types of heating marked by pro-nounced seasonal variation and phase-locking; the key region for linking monsoon-ENSO interaction is the western Pacific warm pool; the monsoon effect upon ENSO cycle is affected jointly by the seasonal evolution and interannual anomaly of the heating components; the superimposition of an anti-Walker circulation phase produced by interannual winter monsoon perturbation upon a weaker Walker phase on a seasonal basis leads to an El Nino hap-pening in March-April and plays a significant role in maintaining a warm ENSO phase.     

东亚冬季风异常与ENSO循环关系的进一步研究

通过对1955～1989年35年的观测资料的合成分析,进一步指出东亚冬季风与ElNino、LaNina事件存在着明显的相互作用、相互影响的循环关系.这种循环关系一方面表现在异常强(弱)东亚冬季风通过激发赤道中西太平洋地区的异常西(东)风以及强(弱)对流活动,而最终使得ElNino(LaNina)事件爆发;另一方面,ElNino(LaNina)的爆发将通过大气遥响应,使得东亚冬季风偏弱(强).功率谱分析也表明,东亚冬季风与ENSO循环相互作用主要表现在3～5年的周期上,同时准2年周期也很明显.       

EFFECT OF THE INDIAN PENINSULA ON THE COURSE OF THE ASIAN TROPICAL SUMMER MONSOON

In terms of the NCAR Community Climate Model (CCM3),the effect of the Indian Peninsulaon the course of the Asian tropical summer monsoon is simulated in this paper,and numericalexperimental results show that the Indian Peninsula plays a critical role in the establishmentprocess of the Asian tropical summer monsoon.When the CCM3 includes the Indian Peninsula,the model successfully simulates out the course of the Asian tropical summer monsoon,i.e.theSouth China Sea (SCS) summer monsoon at first bursts in middle May,while the Indian monsoonjust establishes until middle June.However when the Indian Peninsula topography is deleted in themodel,the Indian and SCS summer monsoons almost simultaneously establish in late May.Numerical results further indicate that in the former experiment the sensible heating of the IndianPeninsula warms the air above and produces evident temperature contrast between the peninsulaand its adjacent SCS and Bay of Bengal (BOB).which results in the strengthening and maintenanceof the BOB trough in the low-middle layer of the troposphere in the end of spring and early summerand thus the earliest establishment of the Asian tropical summer monsoon in the SCS in middleMay.However,the Indian summer monsoon just establishes until middle June when the strongwest wind over the Arabian Sea shifts northwards and cancels out the influence of the northwestflow behind the BOB trough.In the latter experiment the effect of Tibetan Plateau only produces avery weak BOB trough,and thus the SCS and Indian summer monsoons almost simultaneouslyestablish.     

中国地面太阳辐射季节异常与主要大气环流指数的关联分析

利用1989～2018年ERA5地面太阳辐射资料,分析了不同季节主要大气环流特征指数与中国地面太阳辐射异常的关系。结果表明:（1）在春季,东亚槽位置对中国中东部大面积的地面太阳辐射异常有一致性的影响,其位置偏东时,地面太阳辐射异常显著偏少。冬季风强度和ENSO（El Ni?o–Southern Oscillation）分别对长江流域南北、中国南方东部和西部有反位相的影响。（2）夏季的影响因子比较复杂,NAO（North Atlantic Oscillation）和夏季风是两个较主要的影响因子,NAO对中国北方较多地区的地面太阳辐射异常的影响较为显著,而夏季风主要与江淮地区的地面太阳辐射异常相关联。当NAO指数偏大（小）时,北方大部分地区地面太阳辐射异常偏少（多）。当夏季风偏强（弱）时,江淮流域的地面太阳辐射异常显著偏少（多）。（3）在秋季,地面太阳辐射异常主要受到东亚槽位置、冬季风和NAO的影响,冬季风和东亚槽主要影响北方地区,当东亚槽偏西或冬季风偏强时,中国北方除东北地区外的大部分地区地面太阳辐射偏多。NAO主要与中国西部的地面太阳辐射异常关联,当NAO指数偏大时,西部地区北方地面太阳辐射异常偏少而南方大部分地区偏多。（4）在冬季,ENSO和冬季风是较重要的影响因子,但其显著影响区域并不对称。在ENSO负位相或冬季风较强时,中国北方大部分地区的地面太阳辐射异常显著偏多,而ENSO正位相或冬季风较弱最有利于中国南方地面太阳辐射异常偏少,但显著影响范围较小。     

EFFECT OF THE INDIAN PENINSULA ON THE COURSE OF THE ASIAN TROPICAL SUMMER MONSOON*

In terms of the NCAR Community Climate Model (CCM3),the effect of the Indian Peninsula on the course of the Asian tropical summer monsoon is simulated in this paper,and numerical experimental results show that the Indian Peninsula plays a critical role in the establishment process of the Asian tropical summer monsoon.When the CCM3 includes the Indian Peninsula,the model successfully simulates out the course of the Asian tropical summer monsoon,i.e.the South China Sea (SCS) summer monsoon at first bursts in middle May,while the Indian monsoon just establishes until middle June.However when the Indian Peninsula topography is deleted in the model,the Indian and SCS summer monsoons almost simultaneously establish in late May.Numerical results further indicate that in the former experiment the sensible heating of the Indian Peninsula warms the air above and produces evident temperature contrast between the peninsula and its adjacent SCS and Bay of Bengal (BOB).which results in the strengthening and maintenance of the BOB trough in the low-middle layer of the troposphere in the end of spring and early summer and thus the earliest establishment of the Asian tropical summer monsoon in the SCS in middle May.However,the Indian summer monsoon just establishes until middle June when the strong west wind over the Arabian Sea shifts northwards and cancels out the influence of the northwest flow behind the BOB trough.In the latter experiment the effect of Tibetan Plateau only produces a very weak BOB trough,and thus the SCS and Indian summer monsoons almost simultaneously establish.     

关于季风动力学以及季风与ENSO循环相互作用的研究

季风和ENSO是影响亚洲和中国气候变化的两大系统,随着气候动力学研究的深入,国内外学者对季风及其与ENSO循环相互作用的研究取得了很大进展.作者回顾了近年来国内外关于季风动力学以及季风与ENSO循环相互作用的研究进展,主要综述了中国学者关于亚洲季风的认识与表述的深化,特别是对于季风的特征、系统性和年循环现象的认识.还回顾了中国关于亚洲季风的季内、年际和年代际变化、亚洲季风与ENSO循环相互作用等方面的研究进展.此外,还提出在季风动力学以及季风与ENSO循环相互作用方面需进一步研究的问题.     

近百年东亚冬季风的突变性和周期性

该文利用海平面气压场资料,计算了1873～1990年的东亚冬季风强度指数,并用滑动t检验和奇异谱分析方法（SSA）对近百年的东亚冬季风的突变性和周期性进行了研究。研究表明:东亚冬季风强度具有显著的年际及年代际变化。当冬季风强时,中国大部分地区温度降低,蒙古高压升高,阿留申低压加深。当冬季风弱时,天气及环流特点几乎与之相反。东亚冬季风存在QBO、LFO和IDO现象,各振荡分量都具有年代际的差别。