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1.
ENSO空间形态变异对ENSO-IOD关系年代际减弱的可能作用 总被引:1,自引:0,他引:1
基于1979—2017年哈得来中心的逐月海表温度资料(HadISST)和美国环境预报中心/美国大气研究中心(NCEP/NCAR)提供的大气环流再分析数据,研究了北半球秋季厄尔尼诺和南方涛动(ENSO)与印度洋偶极子(IOD)关系的年代际变化特征及其可能原因。结果显示,ENSO-IOD关系存在显著的年代际变化:21世纪初期前,二者呈显著正相关,厄尔尼诺(拉尼娜)年秋季常对应显著的印度洋偶极子正(负)异常;21世纪初期以后,ENSO-IOD关系显著减弱,统计上不显著。进一步研究表明,ENSO空间型态的变异对于该关系的年代际减弱起重要作用。在第二时段(2004—2017年),中部型厄尔尼诺事件和东部型拉尼娜事件频发,中部型厄尔尼诺事件与印度洋偶极子强度的关系与其纬向位置密切相关,与其强度的线性关系较弱;而东部型拉尼娜事件,由于海温距平位置偏东(位于赤道东太平洋冷舌区),在偏低的气候态海温作用下,其引起的大气局地响应很弱,对印度洋的遥强迫作用较弱,因而对印度洋偶极子强度的影响也较弱。在二者的共同作用下,ENSO-IOD的关系发生了年代际减弱。 相似文献
2.
东亚季风指数及其与大尺度热力环流年际变化关系 总被引:24,自引:1,他引:23
将东西向海平面气压差与低纬度高、低层纬向风切变相结合 ,定义了东亚季风指数 ,该季风指数较好地反映了东亚冬、夏季风变化。其中 ,夏季风指数年际异常对西太平洋副热带高压南北位置变化和长江中下游旱涝具有较强的反映能力。分析表明 :东亚夏季风年际变化与印度洋 -西太平洋上空反 Walker环流及夏季越赤道南北半球间的季风环流呈显著正相关关系。在强、弱异常东亚夏季风年份 ,异常的 Walker环流在西太平洋上的辐合 (辐散 )中心在垂直方向不重合 ,高层 ( 2 0 0 h Pa)速度势与东亚夏季风显著相关区域位于西北太平洋上 ,该异常环流的高层的辐合 (辐散 )通过改变低层空气质量而影响夏季 50 0 h Pa西北太平洋副热带高压。采用 SVD分析进一步发现 :与海温耦合的异常 Walker环流在西太平洋上空的上升支表现出南北半球关于赤道非对称结构 ,亚澳季风区受该异常 Walker环流控制。因而 ,东亚季风与热带海气相互作用可直接通过这种纬向非对称的 Walker环流发生联系。 相似文献
3.
热带印度洋偶极子与中国夏季年际气候异常关系的年代际变化 总被引:3,自引:0,他引:3
利用中国站点观测逐月降水和月平均气温资料以及NCEP/NCAR再分析资料,揭示了热带印度洋偶极子(IOD)与中国夏季气候异常关系的年代际变化.结果表明:IOD与中国夏季年际气候异常的关系既有稳定的一面,又存在着年代际变化.较为稳定的关系表现为:IOD与同年夏季长江黄河之间的降水变化存在显著负相关,与四川气温变化存在显著正相关;IOD与次年夏季四川降水存在显著正相关.伴随发生在20世纪70年代末的大尺度环流年代际转型,IOD与中国气候年际异常的联系亦发生变化:IOD正位相年的同年夏季降水异常型,由中国大部分地区偏少变为长江以南(北)偏多(少),气温由西南地区东部偏暖变为长江以南(北)偏冷(暖);次年夏季降水由全国大部分地区偏多变为长江以南(北)偏少(多),气温由全国大部分地区相关不显著变为黄河以南大部分地区显著偏暖.在IOD负位相年,中国夏季气候异常的特征与IOD正位相年相反.在20世纪70年代末的大尺度年代际气候转犁前后,与IOD相关的东亚大气环流异常特征明显不同.在IOD发展阶段,在70年代末以前,印度夏季风和南海季风偏强,副热带高压势力偏弱,导致中国华南大部分地区降水偏少,华北西部以及内蒙古中部等地降水偏多;70年代末以后,东亚大陆中纬度为弱的东风距平,导致新疆北部降水偏少,气温偏高,华南降水偏多.在IOD次年夏季,70年代末以前,华南、河套以及四川等地盛行偏南气流,降水偏多;70年代末以后,南亚高压和西太平洋副高偏西偏强,华南、江南降水偏少. 相似文献
4.
关于东亚夏季风变化及其成因的最近研究进展 总被引:55,自引:10,他引:45
东亚夏季风变化是中国、日本和韩国的重要研究课题。回顾了关于东亚季风(尤其是东亚夏季风)的季节内变化、年际和年代际变化及其这些变化成因的最近研究进展,特别是系统地回顾了厄尔尼诺、南方涛动(ENSO)循环、西太平洋暖池、青藏高原和陆面过程对东亚夏季风的季节内变化、年际和年代际变化的作用。 相似文献
5.
近40年青藏高原季风变化的主要特征 总被引:28,自引:13,他引:28
通过计算1961-1995的逐日青藏高原季风指数,初步确定了高原夏季风开始和结束的时间,在此基础上研究了季风指数的年际变化特征以及和500hPa高度场、东亚季风之间的可能联系。结果表明:夏季风开始和结束的时间呈反相关关系;高原季风的年际和年代变化明显;高原冬季风强(弱)与同期高原及乌拉尔山500hPa高度场偏高(低)以及东亚冬季风偏强(弱)相联系;高原夏季风偏强(弱)与同期贝湖至高原南部500hPa高度场偏低(高)、西亚和中国东部高度场偏高(低)以及东亚夏季风偏强(弱)相联系。 相似文献
6.
利用1951—2002年NCEP/NCAR再分析资料、CPC(气候预测中心)Nino3区海表温度序列和NOAA的ERSST资料,研究了ENSO与我国东部夏季雨型的相互关系及其年代际变化.结果表明:我国东部夏季雨型对ENSO事件的响应在1978年有一个明显的突变,在突变前,降水雨型与赤道东太平洋的海温为弱的负相关,而在突变后转为显著的正相关;滑动相关结果显示,近20a是整个研究时段中二者相关性最强的时期;东亚夏季风和ENSO的相互关系在1978年也经历了一次明显的年代际变化,由弱的正相关转为显著的负相关.这可能是引起ENSO和夏季雨型异常关系年代际变化的原因. 相似文献
7.
利用3种百年时间尺度的海温资料,探讨了印度洋偶极子(India Ocean Dipole,IOD)向海盆一致模(Indian Ocean Basin,IOB)年际转变的年代际变化,结果发现1940—1970年几乎不存在这一转变现象,1970年以后该现象则十分显著。研究表明,IOD与ENSO之间海气耦合作用的年代际变化是这一转变现象的主要原因,1940—1970年IOD与ENSO之间发生发展相互独立,而1970年以后联系密切。通过进一步对物理量场的诊断分析,揭示了其中主要的动力机理:1970年以前,热带印度洋上空形成的季风环流异常无法与热带太平洋的沃克环流异常进行耦合,IOD事件发生时无法与热带太平洋产生联系。反之,1970年以后,热带两大洋上空两个纬圈环流异常之间耦合作用强烈,正(负) IOD事件发生时,通过海气相互作用,促进El Niño (La Niña)发展,印度洋又会受到来自ENSO的正反馈作用。因此这种“齿轮式”耦合模型能一直持续到冬季和次年春季,热带印度洋上空持续受到东(西)风异常的影响和低层环流的引导,西印度洋有次表层暖水的流入(出),加上印度洋本身海盆尺度较小,西边的暖(冷)水区显著增大,东西海温异常差异迅速减小并向海盆一致变暖(冷)转变,导致了后期冬季、春季正(负) IOB事件的出现。 相似文献
8.
中国南方夏季降水与热带印度洋偶极型海温异常的联系 总被引:4,自引:1,他引:4
利用1979-1999年GISST和CMAP月平均资料,用线性回归滤除印度洋偶极子(IOD)指数和ENSO的相互干扰,定义纯IOD指数和纯Nino3指数,将海温距平处理为相对独立的3个部分,通过相关和合成分析得到:6-8月印度洋偶极型海温及热带中印度洋海温异常与中国南方夏季降水都有很好的正相关关系,并且二者对南方夏季降水序列的拟合方差贡献显著,表明热带印度洋海温异常与中国南方夏季降水的关系密切;5月份热带印度洋海温年际变化可以解释60 %左右的南方夏季降水异常,这对南方降水的预测具有非常好的指导意义.在正(负)IOD年,热带印度洋SSTA引起我国南方地区大气异常上升(下沉)运动,中国南方为整层水汽的异常辐合(辐散)区,从而使中国南方夏季降水异常偏多(偏少). 相似文献
9.
热带印度洋秋季偶极子模态与南海夏季风强度变化的关系 总被引:2,自引:1,他引:2
利用多年的Reynolds月平均海表温度资料和NCEP/NCAR全球大气再分析资料,采用经验正交函数(EOF)分析和滑动相关方法,研究了热带印度洋秋季偶极子模态和南海夏季风强度变化的关系。结果表明:(1)热带印度洋秋季海表温度距平(SSTA)的主要模态是全区一致型和偶极子(IOD)型,全区一致型模态主要代表了秋季SSTA全海盆一致的年代际及其以上时间尺度的变化,IOD型模态主要反映热带印度洋秋季SSTA年际时间尺度的变化。(2)当前期秋季热带印度洋存在正(负)IOD模态时,南海的夏季风强度减弱(增强)。二者年际变化的负相关关系在长期趋势的冷位相期不显著,而在暖位相期显著。(3)当南海夏季风强度增强(减弱)时,后期秋季热带印度洋出现正(负)IOD模态。二者年际变化的正相关关系在长期趋势的冷、暖位相期显著,在冷、暖位相转换期前后不显著。 相似文献
10.
ENSO 循环各阶段东亚夏季风特征的诊断研究 总被引:2,自引:6,他引:2
利用NCEP/NCAR再分析资料和NCAR海温资料及中国测站地温资料,对ENSO循环不同阶段东亚夏季风强弱变化进行了分析.并从此期间的海陆热力差异和季风低压变化来探讨海温异常对东亚夏季风的影响,结果表明:东亚夏季风指数有明显的年际变化和年代际变化,且与赤道东太平洋SST有较好的负相关关系,其中又以与三个月前的海温变化关系最好.在Ninol 2区为冷、暖水之后的三个月中,冷水期对应的东亚夏季风指数大于暖水期对应的东亚夏季风指数,东亚夏季风比暖水期强。赤道东太平洋SST变化期间亚洲大陆的地面温度和地面气压也有明显变化,这是引起ENSO不同阶段东亚夏季风变化的主要原因。 相似文献
11.
Interdecadal shift in the relationship between the East Asian summer monsoon and the tropical Indian Ocean 总被引:7,自引:0,他引:7
In this work, the authors investigate changes in the interannual relationship between the East Asian summer monsoon (EASM) and the tropical Indian Ocean (IO) in the late 1970s. By contrasting the correlations of the EASM index (EASMI) with the summer IO sea surface temperature anomaly (SSTA) between 1953–1975 and 1978–2000, a pronounced different correlation pattern is found in the tropical IO. The SSTA pattern similar to the positive Indian Ocean Dipole (IOD) shows a strongly positive correlation with the EASMI in 1953–1975. But in 1978–2000, significant negative correlation appears in the northern IO and the IOD-like correlation pattern disappears. It is indicated that the summer strong IOD events in 1953–1975 can cause a weaker-than-normal western North Pacific (WNP) subtropical high, which tends to favor a strong EASM. In 1978–2000, the connection between the summer IOD and the WNP circulation is disrupted by the climate shift. Instead, the northern IO shows a close connection with the WNP circulation in 1978–2000. The warming over the northern IO is associated with the significant enhanced 500 hPa geopotential height and an anomalous anticyclone over the WNP. The change in the IO–EASM relationship is attributed to the interdecadal change of the background state of the ocean–atmosphere system and the interaction between the ENSO and IO. In recent decades, the tropical IO and tropical Pacific have a warmer mean SST, which has likely strengthened (weakened) the influence of the northern IO (IOD) on the EASM. In addition, due to the increase in the ENSO variability along with the higher mean equatorial eastern Pacific SST in 1978–2000, the influence of ENSO on the East Asian summer circulation experiences a significant strengthening after the late 1970s. Because the warming over the northern IO is associated with the significant warming in the equatorial eastern Pacific, the strengthened ENSO–EASM relationship has likely also contributed to the strengthened relationship between the northern IO and the EASM in 1978–2000. 相似文献
12.
Recent advances in monsoon studies in China 总被引:8,自引:0,他引:8
This review provides a synopsis of the major progress that has been made in monsoon studies in China and to further bridge the gap between the Chinese and international meteorological community. It consists of seven major sections. After the introduction, the second section begins with the global monsoon systems and their seasonal variation, based on some new methods proposed in recent years. Besides, some major intraseasonal features of East Asian monsoon, including the onset of South China Sea summer monsoon are discussed. In the third section, we review the interactions between ENSO and the East Asian monsoon, focusing in particular on the results of Chinese meteorologists that indicate the influence of ENSO on the East Asian summer monsoon(EASM) is obviously different from that on the tropical monsoon. Besides the tropical Pacific,other ocean basins, such as the Indian Ocean and the Atlantic Ocean, are also important to the East Asian monsoon, and this topic is discussed in the fourth section. In the fifth section, we address the role of land surface processes in East Asian monsoon. For example, we describe work that has shown more snow cover in spring on the Tibetan Plateau is followed by a weakened EASM and more summer rainfall in the Yangtze River valleys. The sixth section focuses on the influence of atmospheric circulation in the Southern Hemisphere(SH) on EASM, demonstrating how the signal from the SH is likely to provide new clues for the seasonal forecasting of summer rainfall in China. Finally, in the seventh section, we concentrate on the interdecadal variations of EASM. In particular, we look at a significant interdecadal variation that occurred at the end of the 1970 s, and how our understanding of this feature could affect forecasting ability. 相似文献
13.
东亚夏季风的年际到年代际变化及其与全球大气环流和海表温度的联系 总被引:23,自引:1,他引:23
The East Asian summer monsoon (EASM) underwent an interdecadal variation with interannual variations during the period from 1958 to 1997, its index tended to decline from a higher stage in the mid-1960's until it reached a lower stage after 1980's. Correlation analysis reveals that EASM is closely related with the global atmospheric circulation and sea surface temperature (SST). The differences between the weak and strong stage of EASM shows that, the summer monsoon circulation over East Asia and North Africa is sharply weakened, in the meantime, the westerlies in high latitudes and the trade--wind over the tropical ocean are also changed significantly. Over the most regions south of the northern subtropics, both air temperature in the lower troposphere and SST tended to rise compared with the strong stage of EASM. It is also revealed that the ocean-atmosphere interaction over the western Pacific and Indian Ocean plays a key role in interannual to interdecadal variation of EASM, most probably, the subtropical Indian Ocean is more important. On the other hand, the ENSO event is less related to EASM at least during the concerned period. 相似文献
14.
Interannual variability of summertime outgoing longwave radiation over the Maritime Continent in relation to East Asian summer monsoon anomalies 总被引:2,自引:1,他引:1
The Maritime Continent (MC) is under influences of both the tropical Pacific and the Indian Ocean. Anomalous convective activities over the MC have significant impacts on the East Asian summer monsoon (EASM) and climate in China. In the present study, the variation in convective activity over the MC in boreal summer and its relationship to EASM anomalies are investigated based on regression analysis of NCEP–NCAR reanalysis and CMAP [Climate Prediction Center (CPC) Merged Analysis of Precipitation] data, with a focus on the impacts of ENSO and the Indian Ocean Dipole (IOD). The most significant interannual variability of convective activity is found over 10°S–10°N, 95°–145°E, which can be roughly defined as the key area of the MC (hereafter, KMC). Outgoing longwave radiation anomaly (OLRA) exhibits 3- to 7-yr periodicities over the KMC, and around 70% of the OLRA variance can be explained by the ENSO signal. However, distinct convection and precipitation anomalies still exist over this region after the ENSO and IOD signals are removed. Abnormally low precipitation always corresponds to positive OLRA over the KMC when negative diabatic heating anomalies and anomalous cooling of the atmospheric column lead to abnormal descending motion over this region. Correspondingly, abnormal divergence occurs in the lower troposphere while convergence occurs in the upper troposphere, triggering an East Asia–Pacific/Pacific–Japan (EAP/PJ)-like anomalous wave train that propagates northeastward and leads to a significant positive precipitation anomaly from the Yangtze River valley in China to the islands of Japan. This EAP/PJ-like wave pattern becomes even clearer after the removal of the ENSO signal and the combined effects of ENSO and IOD, suggesting that convective anomalies over the KMC have an important impact on EASM anomalies. The above results provide important clues for the prediction of EASM anomalies and associated summer precipitation anomalies in China. 相似文献
15.
Interdecadal Change of the Relationship Between the Tropical Indian Ocean Dipole Mode and the Summer Climate Anomaly in China 总被引:2,自引:0,他引:2 
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下载免费PDF全文 ZHAO Shanshan ZHOU Tianjun YANG Xiuqun ZHU Yimin TAN Yanke SUN Xuguang 《Acta Meteorologica Sinica》2011,25(2):129-141
The interdecadal change of the relationship between the tropical Indian Ocean dipole(IOD) mode and the summer climate anomaly in China is investigated by using monthly precipitation and temperature records at 210 stations in China and the NCEP/NCAR reanalysis data for 1957-2005.The results indicate that along with the interdecadal shift in the large-scale general circulation around the late 1970s,the relationship between the IOD mode and the summer climate anomaly in some regions of China has significantly changed.Before the late 1970s,a developing IOD event is associated with an enhanced East Asian summer monsoon,which tends to decrease summer precipitation and increase summer temperature in South China;while after the late 1970s,it is associated with a weakened East Asian summer monsoon,which tends to increase(decrease) precipitation and decrease(increase) temperature in the south(north) of the Yangtze River.During the next summer,following a positive IOD event,precipitation is increased in most of China before the late 1970s,while it is decreased(increased) south(north) of the Yangtze River after the late 1970s.There is no significant correlation between the IOD and surface air temperature anomaly in most of China in the next summer before the late 1970s;however,the IOD tends to increase the next summer temperature south of the Yellow River after the late 1970s. 相似文献
16.
本文简要综述了关于东亚夏季风和冬季风近几十年来的主要变化特征的若干研究结果,特别是关于其年代际变化方面.夏季风及夏季气候的主要变化特征有:1970年代末之后东亚夏季风的年代际时间尺度的减弱以及相应的我国夏季降水江淮流域增多而华北减少、1992年之后我国华南夏季降水增多、1999年之后我国长江中下游夏季降水减少而淮河流域夏季降水增多、东亚夏季风和ENSO之间的年际变化相关性存在不稳定性.而关于东亚冬季风与冬季气候的主要变化特征有:1980年代中期之后东亚冬季风及其年际变率减弱、1970年代中期之后冬季风和ENSO的年际变化相关性较弱、近年来的北极秋季海冰减少对北半球冬季积雪增多有显著贡献、东北冬季积雪在1980年代中期以后增多.与上述变化有关的极端气候和物候都发生了多方面的变化. 相似文献
17.
印度与东亚夏季风环流对ENSO及其年代际异常响应的数值研究 总被引:3,自引:0,他引:3
根据诊断分析结果,利用LAGS改进的L9R15气候谱模式,设计了3个数值试验,讨论了不同的年代际背景下ENSO异常对亚洲夏季风环流的影响。研究表明不同背景的ENSO异常与亚洲夏季风活动存在密切的关系。在冷背景条件下,当ENSO处于发展时,印度夏季风偏弱,风速较小,降水量偏少。而东亚夏季风偏南气流较强,受低气压控制,有利于气流辐合,降水量偏多。在ENSO衰减期,印度夏季风仍偏弱,风速偏小,具有干旱的趋势,而东亚夏季风区大陆仍为低气压控制,风速略有减小,降水量比正常年多,而比ENSO前一年有减少的趋势。在暖背 相似文献
18.
Wen CHEN Lin WANG Juan FENG Zhiping WEN Tiaojiao MA Xiuqun YANG Chenghai WANG 《大气科学进展》2019,36(9):887-901
Located in a monsoon domain,East Asia suffers devastating natural hazards induced by anomalous monsoon behaviors.East Asian monsoon(EAM)research has traditionally been a high priority for the Chinese climate community and is particularly challenging in a changing climate where the global mean temperature has been rising.Recent advances in studies of the variabilities and mechanisms of the EAM are reviewed in this paper,focusing on the interannual to interdecadal time scales.Some new results have been achieved in understanding the behaviors of the EAM,such as the evolution of the East Asian summer monsoon(EASM),including both its onset and withdrawal over the South China Sea,the changes in the northern boundary activity of the EASM,or the transitional climate zone in East Asia,and the cycle of the EASM and the East Asian winter monsoon and their linkages.In addition,understanding of the mechanism of the EAM variability has improved in several aspects,including the impacts of different types of ENSO on the EAM,the impacts from the Indian Ocean and Atlantic Ocean,and the roles of mid-to high-latitude processes.Finally,some scientific issues regarding our understanding of the EAM are proposed for future investigation. 相似文献
19.
Temporal Variations of the Spring Persistent Rains and South China Sea Sub-high and Their Correlations to the Circulation and Precipitation of the East Asian Summer Monsoon 下载免费PDF全文
下载免费PDF全文 National Meteorological Information Center (NMIC) rainfall data and NCEP/NCAR daily circulation reanalysis data are employed to establish the onset-pentad time index of the spring persistent rains (SPR) and the decay-pentad time index of the South China Sea (SCS) sub-high. These indexes are used to study the relationship between the factors in SPR period and their relations to the circulation and precipitation of the East Asian summer monsoon (EASM). Results show that, the summer rainfall over southeastern China decreases when SPR onset is late. For then EASM strengthens and the cyclonic circulation around the Tibetan Plateau (TP) strengthens, which makes abnormal anti-cyclonic circulation (cyclonic convergent circulation weakens) appear over southeastern China. When the decay of SCS sub-high delays, abnormal flood prevails over the middle and lower reaches of the Yangtze River (MLYR) and to the south. That is mainly caused by EASM weakening while SCS sub-high strengthening, then the abnormal southwesterly over South China and the abnormal northerlies of anti-cyclonic circulation around the TP converge over the Yangtze Valley. The two indexes have high correlations with multivariate ENSO index (MEI) in March, indicating that the climate abnormity in East Asia is related to global climate abnormity tightly. The two time indexes are independent of each other, which is favorable for the prediction of the anomalies of the circulation and precipitation of EASM. From this point of view, we must take the global climate background into account when we analyze and predict the East Asian summer circulation and precipitation. 相似文献
20.
ENSO冷暖位相影响东亚冬季风与东亚夏季风联系的非对称性 总被引:6,自引:4,他引:2
东亚冬季风(East Asian Winter Monsoon,简称EAWM)和东亚夏季风(East Asian Summer Monsoon,简称EASM)作为东亚季风系统的两个组成部分,他们之间存在显著的转换关系。前人的研究表明EAWM与次年EASM的转换关系只有在ENSO事件发生时才显著,然而这些研究都是基于ENSO对大气环流的影响是对称的这一假设下进行的。本文的研究表明EAWM和次年EASM的转换关系在ENSO冷暖事件中存在着明显的不对称性。通过将EAWM分为与ENSO有关的部分(EAWMEN)和与ENSO无关的部分(EAWMRES),我们发现在强EAWMEN年(即La Ni?a年),在西北太平洋会存在一个从冬季维持到次年夏季的气旋性环流异常(the anomalous western North Pacific Cyclone,WNPC),从而造成EASM偏弱;而在弱EAWMEN年(即El Ni?o年时),在西北太平洋会存在一个从冬季维持到次年夏季的反气旋性环流异常(the anomalous western North Pacific anticyclone,WNPAC),从而引起次年EASM偏强。比较而言,WNPAC的位置比WNPC的位置偏南,且强度更强,因而在El Ni?o年能够引起次年EASM更大幅度的增强。造成这一不对称联系的主要原因是热带太平洋和印度洋异常海温的演变差异。在强EAWMEN年,热带太平洋的负海温异常衰减地较慢,使得在次年夏季仍然维持着显著的负异常海温;相反,在弱EAWMEN年,热带太平洋的正海温异常衰减地较快,以至于在次年夏季的异常海温信号已经基本消失,但此时印度洋却有着显著的暖海温异常。海温演变的差异进一步造成了大气环流的差异,从而导致EAWM与次年EASM联系的不对称性。 相似文献