Interannual to Interdecadal Variation of East Asian Summer Monsoon and its Association with the Global Atmospheric Circulation and Sea Surface Temperature

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.

Interdecadal Change in the Connection Between Hadley Circulation and Winter Temperature in East Asia

Based on NCEP/NCAR reanalysis data, the interdecadal variability of Hadley circulation （HC） and its association with East Asian temperature in winter are investigated. Results indicate that the Northern Hemisphere winter HC underwent apparent change in the 1970s, with transition occurring around 1976/77. Along with interdecadal variability of HC, its linkage to surface air temperature （SAT） in East Asia also varied decadally, from weak relations to strong relations. Such a change may be related to the interaction between HC and the atmospheric circulation system over the Philippines, which is associated with the East Asian winter monsoon （EAWM）. Before the 1970s, the connection between HC and the anticyclonic circulation around the Philippines was insignificant, but after the late 1970s their linkage entered a strong regime. The intensification of this connection may therefore be responsible for the strong relations between HC and East Asian winter temperatures after the late 1970s.

Impact of the variation of westerly jets over East Asia on precipitation of eastern China in July

The impact of the northward jump and westward movement of the East Asian westerly jet core fi：om the westem Pacific Ocean to the Qinghai-Tibet Plateau on precipitation distribution of eastem China is studied. It is concluded that on the one hand, the northward jump of the jet causes the precipitation belt to move northward from the middle and lower reaches of the Yangtze River valley and withdraw during the Mei-yu season; on the other hand, the westward movement of the jet core has no correspondence with withdrawal of the Mei-yu season. However, the earlier or later occurrence of the westward movement of the jet has an influence on the process of the rain belt moving northward than the northward jump of the jet： the rain belt moves northward from the middle-lower Yangtze River valley to the Huaihe River and then to an area between the Yellow River and Huaihe River during years when the time of the westward movement of the jet core is later than that of the northward jump of the jet and from the middle-lower Yangtze River valley to an area between the Yellow River and Huaihe River in other years. Further analysis shows that： （1） The northward jump of the jet and the westward movement of the East Asian westerly jet core causes significant variation of the general atmospheric circulation in middle latitudes and water vapor transport from the western Pacific, but not from the Bay of Bengal. （2） Impact of the northward jump and the westward movement of the East Asian westerly jet core on circulation are different, therefore, water vapor transport from the western Pacific and its impact on the rain belt are different. The earlier or later occurrence of the westward movement of the jet core than the northward jump of the jet causes the process of circulation and water vapor transport to be different which produces a different process of the rain belt moving northward.

Synoptic-scale reversal of dipole surface temperature anomalies over East Asia and Central Siberia in November 2021

2021年11月,东亚与中西伯利亚经历了相反的冷暖异常转换,表现为“中西伯利亚偏冷,东亚偏暖”与“中西伯利亚偏暖,东亚偏冷”的交替出现.该偶极型气温异常的天气尺度反转伴随着大尺度大气环流异常的反转.进一步分析表明,东亚与中西伯利亚的偶极型气温异常反转是1979-2021年期间11月欧亚气温日变化的主导模态之一(发生概率超过56%).

Impact of El Nio on atmospheric circulations over East Asia and rainfall in China： Role of the anomalous western North Pacific anticyclone

This paper presents a review on the impact of El Nio on the interannual variability of atmospheric circulations over East Asia and rainfall in China through the anomalous anticyclone over western North Pacific(WNPAC). It explains the formation mechanisms of the WNPAC and physical processes by which the WNPAC affects the rainfall in China. During the mature phase of El Nio, the convective cooling anomalies over western tropical Pacific caused by the weakened convections trigger up an atmospheric Rossby wave response, resulting in the generation of the WNPAC. The WNPAC can persist from the winter when the El Nio is in its peak to subsequent summer, which is maintained by multiple factors including the sustained presence of convective cooling anomalies and the local air-sea interaction over western tropical Pacific, and the persistence of sea surface temperature anomalies(SSTA) in tropical Indian and tropical North Atlantic. The WNPAC can influence the atmospheric circulations over East Asia and rainfall in China not only simultaneously, but also in the subsequent summer after an El Nio year, leading to more rainfall over southern China. The current paper also points out that significant anomalies of atmospheric circulations over East Asia and rainfall over southern China occur in El Nio winter but not in La Nio winter, suggesting that El Nio and La Nio have an asymmetric effect. Other issues, including the impact of El Nio diversity and its impact as well as the relations of the factors affecting the persistence of the WNPAC with summer rainfall anomalies in China, are also discussed. At the end of this paper some issues calling for further investigation are discussed.

Relationship between Indian and East Asian Summer Rainfall Variations

The Indian and East Asian summer monsoons are two components of the whole Asian summer monsoon system. Previous studies have indicated in-phase and out-of-phase variations between Indian and East Asian summer rainfall. The present study reviews the current understanding of the connection between Indian and East Asian summer rainfall. The review covers the relationship of northern China, southern Japan, and South Korean summer rainfall with Indian summer rainfall; the atmospheric circulation anomalies connecting Indian and East Asian summer rainfall variations; the long-term change in the connection between Indian and northern China rainfall and the plausible reasons for the change; and the influence of ENSO on the relationship between Indian and East Asian summer rainfall and its change. While much progress has been made about the relationship between Indian and East Asian summer rainfall variations, there are several remaining issues that need investigation. These include the processes involved in the connection between Indian and East Asian summer rainfall, the non-stationarity of the connection and the plausible reasons, the influences of ENSO on the relationship, the performance of climate models in simulating the relationship between Indian and East Asian summer rainfall, and the relationship between Indian and East Asian rainfall intraseasonal fluctuations.

A REVIEW OF THE ATMOSPHERIC GENERAL CIRCULATION AND MONSOON IN EAST ASIA

Important progresses of the study of the general circulation and monsoons in East Asia,which have been made since the pioneering work“Monsoons in Southeast Asia and rainfall amount in China”by Prof.Zhu Kezhen,are extensively reviewed in memory of this founder of modern meteorology in China.The first part has addressed the bimodality of the general circulation and the abrupt seasonal change.The second part has dealt with the role of the continent-ocean contrast and topography in the dynamic and thermal processes of mon- soon development,including winter and summer monsoons,and associated heat sources and sinks.The third part has discussed the monsoonal precipitation,with a special emphasis on the mesoscale disturbance,low-level jet and interannual variability of Meiyu(plum rains).

CHARACTERISTICS OF ATMOSPHERIC HEATING AND ATMOSPHERIC CIRCULATION DURING ACTIVE PERIOD OF 500 hPa HIGH OVER THE TIBETAN PLATEAU IN SUMMER

In correspondence with the establishment of the“upper high and lower high”pressure pattern due to the activities of 500 hPa high over the Tibetan Plateau in summer,a series of changes of the East Asia atmospheric circulation will take place.In this paper,the distributions of divergence and vertical velocity of 500 hPa high,the evolutions of atmos- pheric heat source,the variations of vorticity and zonal wind at 100 hPa level and vertical meridional cell over the Tibetan Plateau etc.are statistically analyzed.Thus,we can see that the ascending motion and the convective heating over the Tibetan Plateau,the South Asia high and the westerly jet on the north of the Plateau at 100 hPa level are weak- ened.The northern branch and the southern branch of the easterly jet on the south of the Plateau merge into a single whole and situate on the south of the former northern branch.In the meantime,thermodynamic land-sea discrepancy in South Asia and the convective heating over the Bay of Bengal is enhanced.It will play an important role in the mainte- nance of the easterly jet and the South Asia monsoon.

塔里木河流域夏季降水年际和年代变化的环流异常

基于1961-2020年夏季(6-8月)NCAR/NCEP再分析资料和塔里木河流域38个气象站降水资料,使用5 a滑动平均分离出该流域夏季降水年代际和年际变化,选出年际变化典型的干年和湿年与年代际变化的干期(1963-1986年)和湿期(1989-2018年),分析与这两种时间尺度变化相关联的大气环流异常。结果表明:影响年代际变化的大气环流异常主要是大西洋和欧亚大陆的对流层位势高度场从西北至东南交替出现反气旋和气旋距平环流。在湿期,分别在蒙古国和中亚的反气旋和气旋距平环流加强,塔里木河流域东部和西部分别出现明显的东风和西南风异常,来自西北太平洋和印度洋的水汽增多;在干期则相反。影响年际变化的大气环流异常主要是:在湿年,塔里木河流域之外的西北部和东北部的对流层都为显著的反气旋距平环流,塔里木河流域西部对流层为气旋距平环流,流域东部对流层为反气旋和气旋距平环流影响区;从南北方向向塔里木河流域输送的水汽增多,北风的水汽输送增加较多,南风的水汽输送增加较少,来自北冰洋和印度洋水汽增多;在干年则相反。

Interdecadal change of the linkage between the North Atlantic Oscillation and the tropical cyclone frequency over the western North Pacific

The relationship between the North Atlantic Oscillation(NAO) and the tropical cyclone frequency over the western North Pacific(WNPTCF) in summer is investigated by use of observation data. It is found that their linkage appears to have an interdecadal change from weak connection to strong connection. During the period of 1948–1977, the NAO was insignificantly correlated to the WNPTCF. However, during the period of 1980–2009, they were significantly correlated with stronger(weaker) NAO corresponding to more(fewer) tropical cyclones in the western North Pacific. The possible reason for such a different relationship between the NAO and the WNPTCF during the former and latter periods is further analyzed from the perspective of large-scale atmospheric circulations. When the NAO was stronger than normal in the latter period, an anomalous cyclonic circulation prevailed in the lower troposphere of the western North Pacific and the monsoon trough was intensified, concurrent with the eastward-shifting western Pacific subtropical high as well as anomalous low-level convergence and high-level divergence over the western North Pacific. These conditions favor the genesis and development of tropical cyclones, and thus more tropical cyclones appeared over the western North Pacific. In contrast, in the former period, the impact of the NAO on the aforementioned atmospheric circulations became insignificant, thereby weakening its linkage to the WNPTCF. Further study shows that the change of the wave activity flux associated with the NAO during the former and latter periods may account for such an interdecadal shift of the NAO–WNPTCF relationship.

Interdecadal change of the connection between winter North Pacific Oscillation and summer precipitation in the Huaihe River valley

The relationship between the winter North Pacific Oscillation (NPO) and the following summer precipitation in the Huaihe River valley before and after the mid-1970s is investigated by using the Chinese 160-station precipitation data and NCEP/NCAR reanalysis data from 1951 to 2008.It is found that their linkage appears to have an apparent interdecadal variation.Before the mid-1970s, there was a prominent out-of-phase relationship between the winter NPO and the summer precipitation in the Huaihe River valley.However, such a relationship is significantly weakened afterwards.The change of atmospheric circulations related to the winter NPO before and after the mid-1970s is further addressed.Before the mid-1970s, a strong (weak) winter NPO was followed by the summer situations with anomalous low-level cyclonic (anticyclonic) circulation over the western Pacific and descending (ascending) over the Huaihe River valley.Meanwhile, the water vapor transporting to the Huaihe River valley was reduced (enhanced).These conditions are unfavorable (favorable) for the precipitation occurring in the Huaihe River valley, and thus the local precipitation was decreased (increased).After the mid-1970s, however, the impact of winter NPO on the summer atmospheric circulation system associated with the rainfall in the Huaihe River valley becomes diluted, thereby weakening its linkage to the summer precipitation in the Huaihe River valley.

中国北方沙尘暴研究的若干进展

为了回顾总结中国北方沙尘暴研究的现状,本文评述了近20多年来中国北方沙尘暴研究的三个主要阶段,从沙尘观测、气候学、预报、变化趋势以及防御对策等6方面简要评述了它的研究进展和问题。指出北方沙尘主要源于中国西北及蒙古地区;随沙尘天气强度逐渐加强,不同沙尘天气时地面沙尘浓度约按3倍的比率依次递增;揭示了我国北方的五大沙尘暴多发区;主要有纯冷锋型和冷锋加中系统混合型两类沙尘暴爆发环流型;近50年来的沙尘暴活动呈波动变化,这与生态环境恶化,特别是东亚大气环流的年代际变化有关;防御沙尘暴重点要抓五大多发区生态环境的治理及沙尘暴预警系统的建立。

2592～1225 a B.P.湖北神农架石笋氧同位素记录及区域气候意义

选择处于典型季风区中国内部湖北神农架地区青天洞一支具有连续清晰年纹层发育的石笋样品(QT6),通过精确的年纹层计数,结合高精度230Th年龄,建立2592～1225aB.P.期间长达1367a的石笋δ18O时间序列。石笋δ18O记录的17个持续时间在80a左右的峰谷旋回,与格陵兰冰芯δ18O记录具有非常好的一一对应关系,说明在年代际尺度上石笋δ18O同样能反映区域性气候变化,可能的机制是北高纬温度的变化通过大气传输影响热带辐合带(ITCZ)的迁移,从而影响东亚季风的强弱变化。

2014年海洋和大气环流异常及对中国气候的影响

本文基于实时、历史观测资料和再分析资料,综合分析2014年海洋和大气环流异常特征,并讨论这些异常特征对中国气候的主要影响。分析表明:2013/2014年冬季,极涡偏向西半球,东亚冬季风和西伯利亚高压均偏弱,导致我国冬季气温总体偏高。受冬季风强度季节内变化影响,前冬暖、后冬冷。2014年赤道中东太平洋形成一次厄尔尼诺事件,4月以来热带印度洋全区一致海温模态正位相维持发展,受暖海温外强迫影响,夏、秋季西太平洋副热带高压强度偏强、位置偏南,主汛期我国东部降水呈"北少南多"型异常分布。2014年南海夏季风爆发异常偏晚,强度偏弱。东亚夏季风强度偏弱,有利于我国东部主汛期雨带偏南,江南梅雨区和长江中下游梅雨区梅雨量偏多,北方大部夏季降水偏少。

中国东部夏季极端降水年代际变化特征及成因分析

本研究利用逐日降水资料对中国东部夏季极端降水进行检测,并对转变前后的特征进行对比分析,进而从海、陆对增温的响应不同导致的环流调整给出成因分析。结果表明,(1)中国东部夏季极端降水在1990年前后出现显著的年代际转变,极端降水由偏少转为偏多。转折后与转折前相比,中国东部夏季极端降水落区南移,南方偶极子分布型加强,南方极端降水增加、北方极端降水减少,其中华南和华东地区,极端降水量和降水日数增加,对夏季降水的贡献率增大;华北地区,极端降水量和降水日数减少,对夏季降水的贡献率减小。(2)西太平洋暖池区异常升温造成的海陆温差减小是中国东部夏季极端降水1990年前后转变的重要驱动因素之一。它造成1990年之后低纬度季风强度减弱、西太平洋副热带高压增强并南移、南海副高增强,而中高纬度气旋性环流异常被破坏、东亚大槽增强,进而导致华北经向水汽输送减弱,下沉运动显著加强,极端降水量和降水日数减少。于此同时,华南和华东地区则水汽输送加强,上升运动显著,有利于降水偏多,并伴随极端降水量和降水日数有所增加。

青藏高原加热对东亚地区夏季降水的影响

东亚地区降水主要集中在夏季,是亚洲夏季风系统的重要特征。本文利用NCEP再分析资料和CRU的降水资料,分析了青藏高原非绝热加热对东亚夏季降水的影响。结果表明,东亚地区夏季降水的分布形势与青藏高原非绝热加热变化有很好的相关关系。由于高原非绝热加热可在亚洲东部沿海地区强迫出类似Rossby波列的大气环流低频振荡结构,而此低频波可以影响到西太平洋副热带高压的形态和位置变化,从而使得东亚夏季降水的形势发生变化。而青藏高原非绝热加热的形态从春季到夏季有很好的持续性,春季高原加热与夏季东亚的降水形势分布也有很好的相关。本研究中采用的青藏高原非绝热加热指数可作为东亚夏季降水预测的一个指标,亚洲季风降水不仅受赤道太平洋海温的影响,青藏高原地区的非绝热加热对其也有显著的影响作用。

2009/2010年我国西南秋冬春连旱特征及其大气环流异常分析

利用中国逐日站点降水资料、逐日季风监测指数及逐日副热带高压指数、74项环流指数及NCEP/NCAR再分析资料,分析了2009年秋季至2010年春季的秋冬春西南特大干旱过程中各指数及大气环流异常特征.结果表明:自2009年10月底东亚冬季风建立以来,至2010年春季,东亚冬季风强度持续偏强,加之西太平洋副热带高压较常年偏西偏南,西南地区长期受副高控制,气温持续偏高,加之冷空气虽然总体偏强,但主要控制我国北方地区,造成冷暖空气在西南地区少有交汇,致使降水偏少,干旱发生发展.印缅槽强度较常年偏弱,来自印度洋、孟加拉湾以及南海的水汽条件不足,向西南地区输送的来自南海和孟加拉湾两条水汽通道的水汽通量均较常年偏弱很多,加之西南地区、特别是云南地区自2009年秋季以来,长期处于下沉运动的正距平区,造成这段时间西南地区干旱少雨,旱情持续.2009年9月El Nin珘o事件全面爆发,南海-西太平洋地区形成异常反气旋流场,该反气旋流场较常年偏西偏南,造成副高位置偏西偏南,从而使得云贵高原及其周边的印度季风区的降雨量明显偏少;高原地区及南海、菲律宾附近及热带辐合带地区OLR异常对西太平洋副热带高压的变化有一定影响,进而影响西南地区降水,其内在机制还有待深入研究.

大气模式估算的东亚区域人为硫酸盐和黑碳气溶胶辐射强迫及其时间变化特征

本文利用大气环流模式及大气化学模式所得气溶胶资料,估算了相对1850s时期硫酸盐和黑碳气溶胶引起的全球及东亚区域人为辐射强迫,重点分析其在东亚区域的季节和长期变化特征.结果表明,就当前全球年平均全天空而言,人为硫酸盐气溶胶对大气顶的直接和云反照率强迫分别为-0.37和-0.98 W·m-2,黑碳气溶胶对大气顶和整层大气的辐射强迫值为0.16和0.47 W·m-2;中国东部区域是目前上述气溶胶辐射强迫最强的区域,硫酸盐的直接和间接辐射强迫分别超过-2.0和-4.0 W·m-2,黑碳对大气顶和整层大气的直接辐射强迫分别可达2.0和5.0W·m-2;估算的东亚区域上述气溶胶辐射强迫仍在不断增强,峰值预计出现在2010s时段,而且中国东部较强的辐射强迫还可能维持至2030s左右;在未来中、高排放情景下,东亚区域以上两种气溶胶预计对全球气溶胶辐射强迫有更大的贡献.分析还表明,夏季东亚区域较强的水汽会增强吸湿性硫酸盐气溶胶的光学厚度和晴空直接辐射强迫;云的作用一方面会强化东亚区域全天空条件下大气顶黑碳的辐射强迫,另一方面会影响硫酸盐气溶胶间接云反照率强迫的季节变化;上述气候特征的差异使得东亚区域的气溶胶辐射强迫表现出与欧美区域有所不同的特征.本文所用的气溶胶资料与模式气象场的偏差会给气溶胶辐射强迫计算带来一些不确定性,进一步改进气候模式中气溶胶过程、水汽和云等气象场的模拟将有助于获得更为合理的区域气溶胶辐射强迫估算结果.

青藏高原季节冻融过程与东亚大气环流关系的研究

利用青藏高原 46个气象站的最大冻土深度观测资料、中国 16 0个气象站降水资料和NCAR NCEP资料 ,对青藏高原冻土的季节性冻融过程进行合成分析 ,发现青藏高原土壤的季节冻融过程对青藏高原上空及东亚大气环流有显著的影响 ,在高原最大冻土深度较小的年份中 ,7月份 ,南亚高压强且偏西 ,5 0 0hPa印度低压强 ,西太平洋副热带高压弱且偏东 ,高原南部的东风较强 ;最大冻土深度较大的年份 ,南亚高压弱且偏东 ,印度低压弱 ,西太平洋副热带高压强且偏西 .在不同的冻融年份 ,85 0hPa上纬向风的差异显著区反映了西南季风的活动 .最大冻土深度与中国夏季 ( 7月份 )降水有 3条显著相关带 ,雨带的分布与中国夏季平均雨带相吻合 .由此 ,青藏高原季节冻融过程引起的水热变化是影响东亚气候的一个重要外源 .

2008年1月中国南部低温雨雪冰冻天气特征及其与东亚大气环流异常探讨

根据NCEP/NCAR提供的1968—1996年全球逐月、2008年1月全球逐日再分析资料以及中国气象局提供的降水资料,分析了2008年1月中国南部持续低温雨雪冰冻天气期间东亚地区中低空大气环流异常特征。结果表明,乌拉尔山阻塞高压和地面蒙古冷高压是这次灾害性天气重要的冷空气源地;700 hPa异常偏强的低空西南风急流以及低空急流大风速中心随时间沿急流轴的传播为此次低温雨雪冰冻天气提供了充足的动量、热量和水汽;850 hPa流场西太平洋上空异常东南风、印度洋上空异常西南风以及850 hPa垂直速度场中国南部大陆异常上升气流,在很大程度上影响着2008年1月中国南部的天气;赤道辐合带、西太平洋副热带高压以及南支槽的异常,致使东亚上空不仅存在异常的南支槽前西风带水汽输送和西太平洋副热带高压西南侧东风带水汽输送,还存在异常的由印度洋经孟加拉湾向中国南方大陆的水汽输送。