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1.
近65年ENSO事件强度变化及时频特征研究 总被引:6,自引:2,他引:6
利用海洋尼诺指数(ONI)、南方涛动指数(SOI)和多变量ENSO指数(MEI)等ENSO特征值分析了1951年1月—2016年5月近65年ENSO事件的强度与时频特征,并将其强度划分为5个等级。结果表明:近65年共发生22次暖事件(El Ni?o)和13次冷事件(La Ni?a);对ENSO特征值进行频次分析发现,强El Ni?o月份所占比例比强La Ni?a多;使用连续小波、交叉小波和小波相干分析得出,ENSO循环主要具有2~7 a的周期,还具有10~16 a的年代际变化。 相似文献
2.
不同类型ENSO对东亚季风的影响和机理研究进展 总被引:6,自引:1,他引:5
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。 相似文献
3.
使用NCEP/NCAR再分析资料、中国气象局台站降水资料和GPCC降水资料,系统研究了在冬季平流层准两年振荡(Quasi-Biennial Oscillation, QBO)调制下,厄尔尼诺-南方涛动(El Ni?o-Southern Oscillation, ENSO)不同阶段与中国夏季降水的可能联系。根据两者的位相和强度,可将它们的配置分为QBO西风/El Ni?o、QBO西风/La Ni?a、QBO东风/El Ni?o、QBO东风/La Ni?a。研究结果表明,在年际时间尺度上,ENSO和QBO无显著相关关系。冬季QBO西风位相时,El Ni?o发展年夏季,我国整体偏旱,而华南偏涝;衰减年夏季,华南、华东北部偏旱,东北、长江流域偏涝。La Ni?a发展年夏季,我国东部降水异常呈负-正-负的三极分布;衰减年夏季,东南沿海偏涝。冬季QBO东风位相时,El Ni?o发展年夏季,长江以北偏旱;衰减年夏季,我国东部降水异常呈负-正-负的三极分布。La Ni?a发展年夏季,江淮和华南南部偏旱;衰减年夏季,我国东部沿海偏涝。ENSO是影响我国夏季降水异常的重要因子,而QBO的调制作用在ENSO衰减年夏季更为显著。相比冬季QBO东(西)风位相,QBO西(东)风位相时El Ni?o (La Ni?a)期间赤道西太平洋负(正)海温异常更强,衰减年夏季位于西太平洋的异常下沉(上升)运动和印度洋的异常上升(下沉)运动更强更深厚,西太平洋副热带高压范围更大(小),南亚高压更偏东(西)。 相似文献
4.
This study investigated the relationship between the asymmetry in the duration of El Ni?o and La Ni?a and the length of their decaying phases. The results suggested that the duration asymmetry comes from the long decaying ENSO cases rather than the short decaying ones. The evolutions of short decaying El Ni?o and La Ni?a are approximately a mirror image with a rapid decline in the following summer for the warm and cold events. However, a robust asymmetry was found in long decaying cases, with a prolonged and re-intensified La Ni?a in the following winter. The asymmetry for long decaying cases starts from the westward extension of the zonal wind anomalies in a mature winter, and is further contributed to by the air-sea interaction over the tropical Pacific in the following seasons. 相似文献
5.
An Examination of ENSO’s Effect on the Monthly and Seasonal Climate of Hong Kong from a Statistical Perspective 总被引:1,自引:0,他引:1 
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下载免费PDF全文 This study aims to examine the effect of El Nino and La Nina on the monthly and seasonal climate of Hong Kong against the ENSO-neutral situation from a statistical perspective. Monthly and seasonal temperature and rainfall of Hong Kong and monthly number of tropical cyclones (TCs) coming within 500 km of the city over the 59-yr (1950-2008) period are examined under three ENSO situations, namely El Nino, La Nina, and ENSO-neutral. It is found that, compared with the ENSO-neutral situation, El Nino tends... 相似文献
6.
利用1961—2008年陕西78个气象站夏季 (6—8月) 降水资料、NCEP/NCAR位势高度场和风场月平均再分析资料,采用合成及相关分析方法探讨ENSO发展和衰减阶段对陕西夏季降水异常的影响,以期为陕西夏季降水的气候预测提供线索和依据。结果表明:陕西夏季降水异常对ENSO发展和衰减阶段的响应存在显著差异,El Ni?o发展阶段和La Ni?a衰减阶段,陕西夏季降水偏少; El Ni?o衰减阶段和La Ni?a发展阶段,陕西夏季降水偏多; ENSO不同阶段对陕西7月降水影响最为显著。比较而言,El Ni?o事件对陕西夏季降水的影响更加显著。在El Ni?o衰减、La Ni?a发展阶段,西太平洋副热带高压偏强、偏西,东亚夏季风偏弱,而在El Ni?o发展、La Ni?a衰减阶段,西太平洋副热带高压偏弱、偏东,东亚夏季风偏强,El Ni?o过程对东亚夏季风强弱的影响更加显著。ENSO发展和衰减阶段通过影响大气环流变化和东亚夏季风的强弱,进而影响陕西夏季降水。 相似文献
7.
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。 相似文献
8.
Recent studies have furnished evidence for interdecadal variability in the tropical Pacific Ocean. The importance of this phenomenon in causing persistent anomalies over different regions of the globe has drawn considerable attention in view of its relevance in climate assessment. Here, we examine multi-source climate records in order to identify possible signatures of this longer time scale variability on the Indian summer monsoon. The findings indicate a coherent inverse relationship between the inter-decadal fluctuations of Pacific Ocean sea surface temperature (SST) and the Indian monsoon rainfall during the last century. A warm (cold) phase of the Pacific interdecadal variability is characterized by a decrease (increase) in the monsoon rainfall and a corresponding increase (decrease) in the surface air temperature over the Indian subcontinent. This interdecadal relationship can also be confirmed from the teleconnection patterns evident from long-period sea level pressure (SLP) dataset. The SLP anomalies over South and Southeast Asia and the equatorial west Pacific are dynamically consistent in showing an out-of-phase pattern with the SLP anomalies over the tropical central-eastern Pacific. The remote influence of the Pacific interdecadal variability on the monsoon is shown to be associated with prominent signals in the tropical and southern Indian Ocean indicative of coherent inter-basin variability on decadal time scales. If indeed, the atmosphere–ocean coupling associated with the Pacific interdecadal variability is independent from that of the interannual El Niño-Southern Oscillation (ENSO), then the climate response should depend on the evolutionary characteristics of both the time scales. It is seen from our analysis that the Indian monsoon is more vulnerable to drought situations, when El Niño events occur during warm phases of the Pacific interdecadal variability. Conversely, wet monsoons are more likely to prevail, when La Niña events coincide during cold phases of the Pacific interdecadal variability. 相似文献
9.
Multi-scale climate variability of the South China Sea monsoon: A review 总被引:10,自引:0,他引:10
Bin Wang Fei Huang Zhiwei Wu Jing Yang Xiouhua Fu Kazuyoshi Kikuchi 《Dynamics of Atmospheres and Oceans》2009,47(1-3):15-37
This review recapitulates climate variations of the South China Sea (SCS) monsoon and our current understanding of the important physical processes responsible for the SCS summer monsoon's intraseasonal to interannual variations. We demonstrate that the 850 hPa meridional shear vorticity index (SCSMI) can conveniently measure and monitor SCS monsoon variations on a timescale ranging from intraseasonal to interdecadal. Analyses with this multi-scale index reveal that the two principal modes of intraseasonal variation, the quasi-biweekly and 30–60-day modes, have different source regions and lifecycles, and both may be potentially predicted at a lead time longer than one-half of their corresponding lifecycles. The leading mode of interannual variation is seasonally dependent: the seasonal precipitation anomaly suddenly reverses the sign from summer to fall, and the reversed anomaly then persists through the next summer. Since the late 1970s, the relationship between the SCS summer monsoon and El Niño-Southern Oscillation (ENSO) has significantly strengthened. Before the late 1970s, the SCS summer monsoon was primarily influenced by ENSO development, while after the late 1970s, it has been affected mainly in the decaying phase of ENSO. The year of 1993 marked a sudden interdecadal change in precipitation and circulation in the SCS and its surrounding region. Over the past 60 years, the SCS summer monsoon's strength shows no significant trend, but the SCS winter monsoon displays a significant strengthening tendency (mainly in its easterly component and its total wind speed). A number of outstanding issues are raised for future studies. 相似文献
10.
运用小波分析方法和相关分析对东亚季的准两年振荡的存在及其与ENSO变率的关系进行了研究,结果指出:东亚季风具有显著的准两年振荡特征,但周期与振幅具有明显的年代际变化,同时东亚季风的QBO过程与ElNino事件具有密切的联系; 相似文献
11.
利用1948—2005年NCEP/NCAR再分析资料, 定义了一个可以反映中高纬度间冬季风强弱差异的冬季风经向变化指数 (WMMCI), 该指数与东亚冬季风指数有较好的对应关系。强 (弱) 冬季风年后期嘉兴梅雨偏多 (少) 为主, 年际、年代际关系对应为正相关, 并对后期降水有持续影响, WMMCI指数持续增强 (减弱) 2年并处于强 (弱) 冬季风年时, 后期嘉兴梅雨持续偏多 (少), 嘉兴梅雨降水升高或降低的变化趋势滞后于该指数变化。对500 hPa高度场距平合成分析表明:强 (弱) 冬季风年北正 (负) 南负 (正) 的距平分布使中高纬度经向 (纬向) 环流发展, 有利 (不利) 于冷空气南下影响, 并对后期大气环流产生持续影响, 从而有利 (不利) 于降水。冬季风经向异常对嘉兴后期降水持续影响的一个可能解释是, 持续增强 (减弱) 的强 (弱) 冬季风使赤道太平洋地区盛行风向发生改变, 使赤道太平洋海温变化出现异常, 触发El Ni?o (La Ni?a) 事件, 从而对后期大气环流造成持续影响。 相似文献
12.
利用中国气象局上海台风研究所整编的热带气旋(Tropical Cyclone,TC)最佳路径数据集和欧洲中期天气预报中心的ERA再分析资料,分析了El Ni?o-South Oscillation (ENSO)发展年与衰减年西北太平洋(Western North Pacific,WNP)夏季(6—8月)总TC生成频数(Tropical Cyclone Genesis Frequency,TCGF)及其区域性特征,通过潜在生成指数(Genesis Potential Index,GPI)定量诊断各环境要素对TCGF变化的贡献。结果表明,西北太平洋TCGF总数异常在ENSO各位相并不显著,但其东南象限和西部的TCGF异常存在明显差异。在ENSO各位相,GPI异常的空间分布与TCGF异常的空间型相似。同一区域,各环境要素对TCGF异常的贡献不同,反映了ENSO不同位相影响TC生成变化的机理存在差异。WNP东南部(SEWNP)是对ENSO较敏感的区域,El Ni?o发展年,中东太平洋异常增暖激发的Rossby波西传导致SEWNP受异常正涡度环流控制,涡度对TCGF增加的贡献最大;El Ni?o衰减年,西北太平洋出现低层异常反气旋,其东侧异常东北气流将湿度相对较低的水汽输送至SEWNP,相对湿度降低导致TCGF显著减少。La Ni?a发展年,绝对涡度减小和垂直风切变增加对TCGF减少都有影响。WNP西部仅在La Ni?a衰减年出现TCGF显著负异常,低层绝对涡度减小的贡献最大,因为季风槽减弱,抑制了南海附近的TC生成。 相似文献
13.
ENSO对中国冬半年降水影响的不对称性及机制分析 总被引:2,自引:4,他引:2
利用1979—2010年观测和再分析资料,诊断分析ENSO对中国华南冬半年降水的影响及其机制。结果表明,在El Ni?o冬半年期间,东亚沿岸上空对流层低层南风的增强导致了水汽输送明显偏多,水汽在华南辐合,使得大气可降水量和比湿增加,降水显著偏多。而在La Ni?a冬半年期间,这些大气要素并没有呈现显著的相反变化,负异常的量值很弱并在统计上不显著。通过进一步分析El Ni?o和La Ni?a冬半年期间季节内振荡的特点,给出一种华南冬半年降水对ENSO信号不对称响应的物理解释。El Ni?o期间,热带西太平洋到南海地区的季节内振荡不活跃,与El Ni?o相联系的西北太平洋反气旋性环流异常造成的水汽输送以及水汽辐合在华南能够稳定维持,致使华南降水明显偏多。但在La Ni?a冬半年期间,季节内振荡很活跃,与La Ni?a相联系的西北太平洋气旋性环流异常受到季节内时间尺度的扰动影响,ENSO的年际变化信号被季节内振荡破坏,使得西北太平洋和华南的年际异常信号不能得到稳定维持,导致与ENSO信号相联系的年际变化在统计上不显著。因此,热带西太平洋到南海地区的季节内振荡强度在El Ni?o和La Ni?a冬半年期间的差异,是华南冬半年降水对ENSO信号不对称响应的一个主要原因。 相似文献
14.
The study has shown that the shear component of the vertical integrated kinetic energy (Ks) over the box (40oE–100oE, 0o–20oN) can be used as a measure of the intensity of the South Asian summer monsoon (SASM). Based on its value averaged between June and August, the SASM can be divided into strong and weak monsoon episodes. Between 1958 and 2018, there existed 16 (16) strong (weak) monsoon episodes. Based on the calendar year, the relationship between the SASM and the ENSO episodes can be grouped into six patterns: weak monsoon - El Ni?o (WM-EN), normal monsoon - El Ni?o (NM-EN), weak monsoon - non ENSO (WM-NE), strong monsoon - La Ni?a (SM-LN), normal monsoon - La Ni?a (NM-LN) and strong monsoon - non ENSO (SM-NE). Previous studies have suggested that the WM-EN and SM-LN patterns reflect the correlated relationship between the SASM and El Ni?o/Southern Oscillation (ENSO) events. Therefore, we name these two strongly coupled categories WM-EN and SM-LN as the resonance effect. Two important circulations, Walker circulation (WC) and zonal Asian monsoon circulation (MC), in the vertical plane are found to be not always correlated. MC is controlled by thermal gradients between the Asian landmass and the tropical Indian Ocean, while the WC associated with the ENSO event is primarily the east-west thermal gradient between the tropical South Pacific and the tropical Indian Ocean. Furthermore, the gradient directions caused by different surface thermal conditions are different. The main factor for the resonance effect is the phenomenon that the symbols of SSTA in the tropical Indian Ocean and the equatorial eastern Pacific are the same, but are opposite to that of the SSTA near the maritime continent. 相似文献
15.
D. Manatsa W. Chingombe H. Matsikwa C. H. Matarira 《Theoretical and Applied Climatology》2008,92(1-2):1-14
Summary The dominant climatic mode responsible for seasonal rainfall variability across central southern Africa has been well-established
as ENSO. Hence, the El Ni?o signal of the equatorial Pacific has been used extensively to predict droughts in this sub-region.
Although this paper acknowledges that El Ni?o influences rainfall deficits over eastern southern Africa, an earlier signal
of extreme positive sea level pressure (SLP) anomalies at Darwin for the averaged March to June period (MAMJ Darwin) has proved
to have a superior remote connection to droughts in the sub-region. Simple linear statistical tools including composite techniques
and correlation methods have been employed on century long data sets (1901–2000) to identify the emerging paramount connection
between MAMJ Darwin SLP anomalies and southern African rainfall.
Both MAMJ Darwin SLP anomalies and the Zimbabwe seasonal rainfall time series are significantly correlated (above the 95%
significant level) with sea surface temperature anomalies. These represent the Indian Ocean Dipole mode in the tropical Indian
Ocean and ENSO in the tropical Pacific for the averaged September to December period. ‘Pure’ MAMJ Darwin (that occur in the
absence of El Ni?o in the Pacific) coincide with droughts more significantly (83% hit rate) than ‘pure’ El Ni?o events (not
preceded by a high MAMJ Darwin) (38% hit rate). Co-occurrences (MAMJ Darwin preceded by El Ni?o) do not only have the highest
hit rate of 93% but subsequent droughts are noticeably more severe. The ‘pure’ El Ni?os however, are not only poorly related
to Zimbabwe seasonal rainfall deficits, but are apparently not connected to extreme droughts of the 20th century. Thus, MAMJ Darwin is a good simple predictor of droughts associated with or without ENSO in the Pacific. The high
prediction skill of these results, especially the inherent longer lead-time than ENSO, makes MAMJ Darwin SLP anomalies an
ideal additional input candidate for sub-regional drought monitoring and forecasting schemes. In this way, drought early warning
and disaster preparedness activities can be enhanced over the sub-region.
Authors’ addresses: D. Manatsa, W. Chingombe, H. Matsikwa, Faculty of Science, Bindura University of Science Education, P.
Bag 1020, Bindura, Zimbabwe; C. H. Matarira, Department of Geography and Environmental Science, National University of Lesotho,
Roma 180, Lesotho. 相似文献
16.
This study reveals that the interannual variability of the western edge of the western North Pacific(WNP)subtropical high(WNPSH) in early summer experienced an interdecadal decrease around 1990. Correspondingly, the zonal movement of the WNPSH and the zonal extension of the high-pressure anomaly over the WNP(WNPHA) in abnormal years possess smaller ranges after 1990. The different influences of the tropical SSTAs are important for this interdecadal change, which exhibit slow El Nino decaying pat... 相似文献
17.
TBO的原因-异常东亚冬季风与ENSO循环的相互作用 总被引:21,自引:3,他引:21
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。 相似文献
18.
Robustness of SST teleconnections and precursory patterns associated with the Indian summer monsoon 总被引:2,自引:2,他引:0
This work attempts to reconcile in a common and comprehensive framework the various conflicting results found in the literature regarding Indian Summer Monsoon (ISM) rainfall-Sea Surface Temperature (SST) relationships, especially the links with El-Ni?o Southern Oscillation (ENSO) and the Indian Ocean Dipole (IOD). To do so, we first examine the linear relationships between ISM rainfall and global SST anomalies during 1950–1976 and 1979–2006 periods. Our results highlight the existence of significant modulations in SST teleconnections and precursory patterns between the first (June–July, JJ) and second part (August–September, AS) of the monsoon. This JJ–AS rainfall dichotomy is more pronounced after the 1976–1977 climate regime shift and tends to blur the global ISM-ENSO signal during the recent period, leading to an apparent weakening of this relationship at the seasonal time scale. Although ISM rainfall in JJ and AS is still strongly linked to ENSO over both periods, the lead-lag relationships between ENSO and AS Indian rainfall have changed during recent decades. Indeed, ENSO variability in the preceding boreal winter has now a significant impact on rainfall variability during the second half of ISM. To evaluate in more details the impact of this JJ-AS dichotomy on the ISM-ENSO-IOD relationships, ISM correlations are also examined separately during El Ni?o and La Ni?a years. Results indicate that the early onset of El Ni?o during boreal spring causes deficient monsoon rainfall in JJ. In response to weaker monsoon winds, warm SST anomalies appear in the west equatorial IO, generating favorable conditions for the development of a positive IOD in AS. Local air-sea processes triggered by the SST anomalies in the eastern node of IOD seem, in turn, to have a more active role on AS rainfall variability, as they may counteract the negative effect of El Ni?o on ISM rainfall via a modulation of the local Hadley circulation in the eastern IO. The JJ–AS rainfall dichotomy and its recent amplification may then result from an enhancement of these IO feedbacks during recent El Ni?o years. This explains why, although El Ni?o events are stronger, a weakening of the ISM-ENSO relationship is observed at the seasonal scale after 1979. Results during La Ni?a years are consistent with this hypothesis although local processes in the southeast IO now play a more prominent role and act to further modulate ISM rainfall in AS. Finally, our results highlight the existence of a biennal rhythm of the IOD-ENSO-ISM system during the recent period, according to which co-occurring El Ni?o and positive IOD events tend to be followed by a warming of the IO, a wet ISM during summer and, finally, a La Ni?a event during the following boreal winter. 相似文献
19.
Predictability of the western North Pacific summer climate associated with different ENSO phases by ENSEMBLES multi-model seasonal forecasts 总被引:1,自引:0,他引:1
Predictability of the western North Pacific (WNP) summer climate associated with different El Niño–Southern Oscillation (ENSO) phases is investigated in this study based on the 1-month lead retrospective forecasts of five state-of-the-art coupled models from ENSEMBLES. During the period from 1960 to 2005, the models well capture the WNP summer climate anomalies during most of years in different ENSO phases except the La Niña decaying summers. In the El Niño developing, El Niño decaying and La Niña developing summers, the prediction skills are high for the WNP summer monsoon index (WNPMI), with the prediction correlation larger than 0.7. The high prediction skills of the lower-tropospheric circulation during these phases are found mainly over the tropical western Pacific Ocean, South China Sea and subtropical WNP. These good predictions correspond well to their close teleconnection with ENSO and the high prediction skills of tropical SSTs. By contrast, for the La Niña decaying summers, the prediction skills are considerably low with the prediction correlation for the WNPMI near to zero and low prediction skills around the Philippines and subtropical WNP. These poor predictions relate to the weak summer anomalies of the WNPMI during the La Niña decaying years and no significant connections between the WNP lower-tropospheric circulation anomalies and the SSTs over the tropical central and eastern Pacific Ocean in observations. However, the models tend to predict an apparent anomalous cyclone over the WNP during the La Niña decaying years, indicating a linearity of the circulation response over WNP in the models prediction in comparison with that during the El Niño decaying years which differs from observations. In addition, the models show considerable capability in describing the WNP summer anomalies during the ENSO neutral summers. These anomalies are related to the positive feedback between the WNP lower-tropospheric circulation and the local SSTs. The models can capture this positive feedback but with some uncertainties from different ensemble members during the ENSO neutral summers. 相似文献
20.
ENSO年东亚夏季风异常对中国江、淮流域夏季降水的影响 总被引:12,自引:2,他引:12
利用Nio3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ElNio发展期和LaNia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;ElNio衰减期和LaNia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。 相似文献