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1.
1998 SCSMEX期间亚洲30-60天低频振荡特征的分析 总被引:34,自引:0,他引:34
对1998年 5-8月南海季风试验(SCSMEX)期间东亚地区 850 hPa中低纬环流指数、东亚季风指数和长江中下游降水进行了Morlet 小波分析,结果表明在此期间这些要素均有明显的30-60天周期低频振荡。在此基础上对 5-8月每隔 5天的 850 hPa低频流场进行分析,结果表明:(1)100°-150°E间东亚从中国东中部大陆经南海和西太平洋的南北半球中明显的存在一个以30-60天低频荡为特征的东亚季风低频环流系统,东亚季风活动主要受东亚季风系统中低频活动影响;(2)5月第5候南海热带季风爆发、6月中旬长江中下游人梅及产生大暴雨以及7月中旬以后的该地区大暴雨均与低频气旋带在该地区活动有关,而8月长江上游大暴雨则与低频反气旋伸人到大陆有关;(3)SCSMEX期间东亚低频振荡系统的源地有二个,即南海赤道和北半球中太平洋中高纬。南海低频系统向北传播,而中高纬低频系统自东北向西南传播为主。长江中下游6、7月二次大暴雨均与上述二个低频气旋系统自热带向北和中高纬向西南传播并于长江中下游汇合有关;(4)5-8月间东亚季风系统中有二次低频气旋带和二次低频反气旋带活动,这些低频环流系统的活动与印度季风低频环流系统活动并无明� 相似文献
2.
利用NCEP/NCAR逐日再分析资料和地面观测资料,基于改进的综合气象干旱指数(IC)对长江中下游地区2011年春季和2013年夏季干旱过程的低频振荡特征进行了分析。结果表明:2011年春季干旱过程的主要低频IC周期为30~60 d,西太平洋500 hPa正异常低频高度场系统的西移、南支锋区上游500 hPa正异常低频高度场系统的东移和北扩、西北地区东部低层低频反气旋的向南移动可能是低频IC传播变化特征的重要原因。2013年夏季干旱过程的主要低频IC周期也为30~60 d,西亚和西北太平洋500 hPa正异常低频高度场向我国南方地区移动、孟加拉湾和西北太平洋的低层低频反气旋向西和向北移动与低频IC传播变化特征有重要联系。 相似文献
3.
The wavelet analysis is performed of the mid- and low-latitude circulation index at 850 hPa over East Asia, the East Asian
monsoon index and the precipitation over the middle and lower reaches of the Yangtze River during 1998 South China Sea Monsoon
Experiment (SCSMEX) from May to August. Analysis shows that distinct 30–60 day low-frequency oscillation (LFO) exists in all
of the above elements during the exper-iment period. Analysis of low-frequency wind field at 850 hPa from May to August with
5 days interval is performed in this paper. Analysis results reveal that: (1) A low-frequency monsoon circulation system over
East Asia, characterized by distinct 30–60 day low-frequency oscillation, exists over 100°-150°E of East Asian area from the
middle and eastern parts of China continent and the South China Sea to the western Pacific in both the Northern and Southern
Hemisphere. The activity of East Asian monsoon is mainly af-fected by the low-frequency systems in it; (2) All of the tropical
monsoon onset over the South China Sea in the fifth pentad of May, the beginning of the Meiyu period and heavy rainfall over
the middle and lower reaches of the Yangtze River in mid-June and the heavy rainfall after mid-July are related to the activity
of low-frequency cyclone belt over the region, whereas the torrential rainfall over the upper reaches of the Yangtze River
in August is associated with the westward propagation of low-frequency anticyclone into the mainland; (3) There are two sources
of low-frequency oscillation system over East Asia during SCSMEX. i.e. the equatorial South China Sea (SCS) and mid-high latitudes
of the middle Pacific in the Northern Hemisphere. The low-frequency system over SCS propagates northward while that in mid-high
latitudes mainly propagates from northeast to southwest. Both of the heavy rainfall over the middle and lower reaches of the
Yangtze River in June and July are associated with the northward propagation of the above-mentioned SCS low-frequency systems
from the tropical region and the southwestward propagation from mid-high latitudes respectively and their convergence in the
middle and lower reaches of the Yangtze River; (4) There are two activities of low-frequency cyclone and anticyclone belt
each in the East Asian monsoon system during May to August. However the activity of these low-frequency circulation systems
is not clearly relevant to the low-frequency circulation system in the Indian monsoon system. This means that the low-frequency
circulation systems in Indian monsoon and East Asian monsoon are independent of each other. The concept previously put forward
by Chinese scholars that the East Asian monsoon circulation sys-tem (EAMCS) is relatively independent monsoon circulation
system is testified once more in the summer 1998.
This work was supported by the key project A of the State Ministry of Science and Technology “South China Sea Monsoon Experiment”
and the fruit of it. 相似文献
4.
2010年南方持续暴雨期大气环流异常及其低频特征研究 总被引:1,自引:0,他引:1
利用NCEP/NCAR逐日再分析资料以及国家气候中心台站降水资料等,应用多变量经验正交函数展开(MV—EOF)等方法,对2010年南方持续暴雨期大气环流异常及其低频特征进行了分析。结果表明:2010年东亚夏季风异常偏弱、西太平洋副热带高压位置异常偏南、三次季风涌的出现和高空急流与散度场活动异常及其相互配合,是南方降水异常的主要影响系统;对风场和降水场MV-EOF空间型分布的分析显示,低频降水中心与200hPa的气流辐散中心和850hPa辐合中心相关联;降水的第一模态反映了东亚夏季风的气候态演变,第二、三模态反映了夏季风在季节性推进过程中不同尺度的低频振荡,7月前半月和6月中下旬,第二、三模态分别处于低频振荡的正位相,使长江中下游梅雨和华南前汛期延迟结束,并且增强了江南的梅雨降水,夏季风的气候态演变和低频振荡相叠加导致2010年我国南方暴雨频发。 相似文献
5.
利用1979~2013年中国站点逐日降水资料和NCEP/NCAR再分析资料,对长江中下游夏季降水的季节内振荡最显著周期进行了分析研究。结果表明长江中游最显著周期为10~30天,长江下游最显著周期为30~60天。为了揭示这种差异产生的物理原因,进一步利用位相合成的方法对这两个区域不同周期的季节内振荡降水、高低空风场和高度场以及垂直结构和水汽等循环过程的演变特征进行分析。在200 hPa环流场上,长江中游的降水主要受到高纬度自西向东传播的波列影响,而长江下游的降水与鄂霍次克海的高度场的变化相关。在风场的垂直涡度和散度的位相结构演变过程中,10~30天的垂直涡度和散度有自北向南的移动,30~60天的垂直涡度和散度在长江以南地区有自南向北的传播。水汽输送的位相发展过程表明,长江中游的水汽分别来自于南海的向北输送和长江以北地区向南的水汽输送;长江下游地区的水汽则主要来自于热带东印度洋经孟加拉湾的向东输送并在南海的北向输送,以及西太平洋水汽向西输送到南海再向长江下游的输送。从高层大尺度环流场和整层积分的水汽通量输送上解释了长江中游10~30天降水的自北向南移动,和长江下游30~60天降水自南向北传播的原因。 相似文献
6.
Based on the daily maximum air temperature data from the China Meteorological Data Network and the NCEP/DOE reanalysis data, the intra-seasonal circulation and evolution of an extreme high temperature event (EHTE) in the middle reaches of the Yangtze River (MYR) from August 9-21, 2011 were explored, as well as the influence of diabatic heating on the position variation of the Western Pacific subtropical high (WPSH). Results show that the daily Tmax in the MYR exhibits a vigorous intraseasonal oscillation (ISO) of 10-25 days in the extended summer of 1980-2018. The main factors affecting the EHTE in the summer of 2011 are the low-frequency wave train propagating southeastward in the mid-latitude of the upper troposphere and the low-frequency anticyclone moving northwestward in the low- latitude of the mid-lower troposphere. The diagnosis of 925hPa thermodynamic equation indicates that the ISO features of the Tmax in the core region is determined by the intra-seasonal variation of the adiabatic variation. In addition, the variations of the WPSH correspond well to the distribution of apparent heat source. In the early stage of the high temperature process, the apparent heat source in the north of the Bay of Bengal is a certain indicator for the westward extension of the WPSH. 相似文献
7.
高空西风急流东西向形态变化对梅雨期降水空间分布的影响 总被引:17,自引:3,他引:14
利用40年的NCEP/NCAR再分析候平均资料和同期长江中下游地区逐日降水资料,使用合成方法分析了梅雨期东亚副热带高空西风急流的东西位置和形态变化特征,探讨了高空西风急流对梅雨期降水空间分布的影响.分析结果表明,梅雨期东亚大陆上空西风急流强度减弱且持续维持、西太平洋上空西风急流核分裂减弱直至出梅后消失,这是梅雨期200 hPa东亚高空西风急流东西向位置变化的主要特征.梅雨期,200 hPa副热带西风急流中心呈现东西向位置变化和海陆分布形态差异,西风急流中心东西向位置变化对梅雨起讫有着较好的指示意义.梅雨期东亚副热带高空西风急流东西形态分布差异不仅影响到长江中下游地区降水空间集中区的位置而且还影响到降水中心强度.进一步分析表明,当东亚西风急流主体位于西太平洋上空时,在长江下游地区形成高低空急流耦合的环流形势,强烈的辐合上升运动加上充足的水汽条件供应,有利于在长江下游形成集中的强降水区域.当高空西风急流位于东亚大陆上空时,在长江中下游地区高低空急流无耦合形势存在,长江中下游地区也没有强的集中降水区域.因此,东亚副热带高空西风急流东西向形态变化对长江中下游地区的高低空环流结构、地面集中降水区域的空间分布具有重要的影响. 相似文献
8.
利用1951—2010年NCEP/NCAR逐月再分析资料和中国160站月降水总量资料,研究了菲律宾海地区大气环流异常与长江中下游6月旱涝的关系。结果表明,菲律宾海附近是影响长江中下游地区6月降水的关键区。菲律宾异常反气旋(气旋)在对流层低层明显,强度随高度衰减。且这种大气环流异常与长江中下游地区6月降水的相关关系在低层850hPa最显著,到高层相关性减弱。当出现菲律宾异常反气旋环流时,垂直速度和水汽输送等异常分布特征有利于降水发生,使得长江中下游地区偏涝,反之则偏旱。 相似文献
9.
利用NCEP/NCAR再分析资料, 选择了1998年、2003年和2005年夏季我国东部雨带位置变化过程进行诊断分析。研究表明:夏季我国东部暴雨带位置的变动, 受西太平洋副热带高压西伸北跳 (南撤东退) 的调节。当副热带高压西伸北跳 (南撤东退) 时, 暴雨带向北 (向南) 移动。在副热带高压西伸北跳持续时期, 长江流域中下游地区出现高温酷暑天气。副热带高压西伸北跳是由于欧亚大陆上空存在静止Rossby波列, 波的能量沿着高空副热带急流向东传播到我国沿海海岸 (115°~130°E) 时, 在该地区激发出一个长波脊。这个长波脊的建立, 使得副热带高压和对流层上部的青藏高压都朝长波脊方向伸展, 表现为“相向”而行。而当在沿海海岸上空激发出一个长波槽时, 副热带高压南撤东退而青藏高压退回到高原上空。当夏季沿海海岸上空的长波脊持续维持时, 长江中下游会出现持久的高温酷暑天气。根据夏季天气预报的经验, 欧洲中期数值预报中心发布的预报对副热带高压的西伸北跳有较好的可预报性。 相似文献
10.
Relationship Between an Abrupt Drought-Flood Transition over Mid-Low Reaches of the Yangtze River in 2011 and the Intraseasonal Oscillation over Mid-High Latitudes of East Asia 
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下载免费PDF全文 NCEP/NCAR daily reanalysis data and Chinese daily gridded precipitation data are used to study the relationship between an aprupt drought-flood transition over the mid-low reaches of the Yangtze River in 2011 and the intraseasonal oscillation (ISO; 30-60 days) in the mid-high latitude meridional circulation of the upper troposphere over East Asia. The abrupt transition from drought to flood occurs in early June. The first two recovered fields of the complex empirical orthogonal function show that northward-propagating westerlies from low latitudes converge with southward-propagating westerlies from high latitudes over the mid-low reaches of the Yangtze River (MLRYR) in mid-late May. The timing of this convergence corresponds to the flood period in early-mid June. The ISO index is significantly and positively correlated with rainfall over the MLRYR. During the dry phase (before the transition), the upper troposphere over the MLRYR is characterized by cyclonic flow, easterly winds, and convergence. The regional circulation is dominated by a wave train with a cyclone over east of Lake Baikal, an anticyclone over northern China, and a cyclone over the MLRYR. During the wet phase, the situation is reversed. The configuration of the wave train during the dry phase favors the southward propagation of westerly wind disturbances, while the configuration of the wave train during the wet phase favors the development and maintenance of a pumping effect and sustained ascending motions over the MLRYR. 相似文献
11.
2016年梅雨期间长江中下游强降水与对流层上层斜压波包的关系 总被引:3,自引:0,他引:3
2016年6—7月,长江中下游地区发生了自1998年以来最严重的强降水事件,造成了重大的经济损失。利用NCEP/NCAR再分析资料和中国2479站逐月及逐日降水资料,研究了2016年梅雨期间长江中下游地区降水与欧亚大陆对流层上层斜压波包活动的关系,并诊断了两者之间的信息流向。结果表明,梅雨期间的高频斜压波动具有明显的下游频散效应。波动起源于黑海,沿西北—东南方向于3—4 d后传至长江中下游地区。斜压波包为长江中下游地区强降水的发生提供了必要的能量。波作用通量矢量的分布表明,梅雨期间逐日均有来自西风带上游的扰动能量向长江中下游流域传播。而梅雨期间降水与斜压波包的信息流关系表明,二者之间存在信息传递。因此,3—4 d并源于黑海附近的斜压波包活动是2016年长江中下游梅雨期间异常降水的成因。这些结果为深刻认识长江中下游地区强降水事件发生的成因和有效预测提供了线索。 相似文献
12.
利用1979—1998年NCEP/DOE逐日再分析资料和国家气象信息中心的常规观测站资料,研究了1997/1998年冬季、1998年夏季青藏高原 (简称高原) 季风的低频振荡特征,研究夏季高原和周边区域高低层大气低频环流系统的配置及其与我国降水的联系。结果表明:1997/1998年冬季和1998年夏季,高原季风不仅表现出很强的30~60 d的周期振荡特征,还伴随有较强的准双周低频振荡;相应区域对流层上层200 hPa上的环流系统则是30~60 d为主的周期变化。1998年夏季,高原地面气压也存在两个频带的低频振荡变化,且其强度存在明显的经向变化,即自南向北30~60 d低频振荡信号有逐渐减弱趋势,准双周信号则呈增强趋势。对30~60 d的低频信号而言,高原夏季风低频信号较强 (弱) 时,高原地面表现为低频低 (高) 压环流系统,在同纬度带的我国东部地区和西太平洋沿岸,是较强的低频北 (南) 风和低 (高) 压环流系统;相应地,在80°~90°E之间,自孟加拉湾到我国西北中部地区,是低频反气旋-气旋-反气旋的经向低频波列;受低频环流系统影响,高原东部、长江中下游地区降水偏多 (少)、川西高原、云南西南部降水偏少 (多)。 相似文献
13.
Changes of Frequency of Summer Precipitation Extremes over the Yangtze River in Association with Large-scale Oceanic-atmospheric Conditions 总被引:1,自引:0,他引:1
Changes of the frequency of precipitation extremes (the number of days with daily precipitation exceeding the 90th percentile of a daily climatology,referred to as R90N) in summer (June-August) over the mid-lower reaches of the Yangtze River are analyzed based on daily observations during 1961-2007.The first singular value decomposition (SVD) mode of R90N is linked to an ENSO-like mode of the sea surface temperature anomalies (SSTA) in the previous winter.Responses of different grades of precipitation events to the climatic mode are compared.It is notable that the frequency of summer precipitation extremes is significantly related with the SSTA in the Pacific,while those of light and moderate precipitation are not.It is suggested that the previously well-recognized impact of ENSO on summer rainfall along the Yangtze River is essentially due to a response in summer precipitation extremes in the region,in association with the East Asia-Pacific (EAP) teleconnection pattern.A negative relationship is found between the East Asian Summer Monsoon (EASM) and precipitation extremes over the mid-lower reaches of the Yangtze River.In contrast,light rainfall processes are independent from the SST and EASM variations. 相似文献
14.
利用1961—2009年长江中下游地区52个气象站逐日降水资料,研究了该地区春季降水与梅雨期降水的连续变化特征,划分了连续旱、连续涝、先旱后涝和先涝后旱4类连续性事件,并探讨其成因。结果表明:长江中下游地区春季降水量年际和年代际变化较为显著,其中连续旱和连续涝事件发生较多。前冬Ni?o3区的海温与春季和梅雨期降水量相关性超过0.05显著性水平,前冬青藏高原积雪深度与6月西太平洋季风指数与梅雨期降水量相关性均达到0.05显著性水平。当春季水汽丰富,同时春季与6月副热带高压中心位置持续偏西可能导致春季和梅雨期降水持续偏多;春季水汽丰富,但春季至6月副热带高压中心位置由偏西向偏东转变,可能造成先涝后旱;春季水汽偏少,且春季与6月副热带高压中心位置持续异常偏东,易造成持续干旱。2011年水汽突变可能是导致旱涝急转的直接原因,前冬的La Ni?a事件不利于春季降水而6月副热带高压位置异常西伸, 则容易引发旱涝急转。 相似文献
15.
2010年6月中国南方持续性强降水过程:天气系统演变和青藏高原热力作用的影响 总被引:1,自引:1,他引:0
2010年6月中国南方发生持续性强降水,其强度与2008年6月相当,超过近年来其他年份。但是,与2008年6月相比,2010年6月对流层中低层低值系统活动在青藏高原至长江中下游地区异常频繁,副热带高压(副高)位置异常偏西、强度偏强,导致低层异常风场辐合区及强降水区域相对偏北。分析2010年6月14—24日中国南方连续出现的4次持续性强降水过程,发现南亚高压、对流层中层的中纬度槽脊和西太平洋副高以及低层切变线和东移低涡是造成持续性强降水的主要天气系统。利用WRF模式对2010年6月强降水过程实施显式对流集合模拟试验,在控制试验重现观测到的地面降水和天气系统特征的基础上,在敏感性试验中将青藏高原的地表短波反照率修改为1.0,对比两组模拟试验的结果表明:控制试验中青藏高原的地表感热加热作用使得高原及其周边地区的大气温度发生变化,相应的热成风平衡调整使得对流层低层至高层大气环流和天气系统特征发生显著变化,增强了中国南方的持续性降水。200 hPa青藏高原西部形成反气旋性环流异常,东部形成气旋性环流异常,青藏高原东部南下的冷空气加强,中国南方辐散增强;500 hPa青藏高原北部的脊加强,中国东部的槽加深,副高西北侧的西南风明显增强,从青藏高原向下游传播的正涡度也显著加强;850 hPa的低涡强烈发展并逐步东移,华南沿海的西南低空急流更为强盛,导致降水区的水汽辐合、上升运动及降水强度都增强。 相似文献
16.
通过分析中国160站1952—2013年的月平均降水观测资料,揭示了长江中下游地区冬季和夏季降水间存在显著的韵律现象,即当该地区冬季降水异常偏少(偏多)时,次年夏季降水也趋于异常偏少(偏多),这里称之为干(湿)韵律现象。对干、湿韵律年大气环流背景的分析结果显示,干韵律年和湿韵律年对应的环流形势基本相反:在干(湿)韵律年冬季,东亚地区500 hPa位势高度距平呈现西高东低(东高西低)的分布型,中国南方东部主要受偏北(南)风异常控制,这不利(有利)于低纬度暖湿气流向长江中下游地区输送,导致该地区冬季降水异常偏少(多);在次年夏季,西北太平洋副热带高压异常偏弱(强),不利(有利)于西南暖湿气流向中国东部地区输送,使得长江中下游地区夏季降水也异常偏少(多)。研究进一步指出,长江中下游地区的冬夏干、湿韵律现象与东亚冬夏季风活动的强度密切相关。干、湿韵律现象多在东亚冬夏季风强度变化一致的情况下出现:冬、夏季风一致偏强时多导致干韵律现象,而一致偏弱时易导致湿韵律现象。 相似文献
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18.
Analysis of Simulated Heavy Rain over the Yangtze River Valley During 11-30 June 1998 Using RIEMS 总被引:15,自引:0,他引:15
RIEMS‘ ability to simulate extreme monsoon rainfall is examined using the 18-month (April 1997 September 1998) integrated results. Model-simulated heavy precipitation over the Yangtze River valley during 11-30 June 1998 is compared with the observation, and the relationships between this heavy rainfall process and the large-scale circulations, such as the westerly jet, low-level jet, and water vapor transport,are analyzed to further understand the mechanisms for simulating heavy monsoon rainfall. The analysis results show that (1) RIEMS can reproduce the pattern of heavy precipitation over the Yangtze River valley during 11-30 June 1998, but it is shifted northwestwards. (2) The simulated West Pacific Subtropical High (WPSH) that controls the East Asia Monsoon evolution is stronger than the observation and is extended westwards, which possibly leads to the north westward shift of the heavy rain belt. (3) The Westerly jet at 200 hPa and the Low-level jet at 850 hPa, both of which are related to the heavy monsoon rainfall,are reasonably reproduced by RIEMS during 11-30 June 1998~ although the intensities of the simulated Westerly/Low-level jets are strong and the location of the Westerly jet leans to the southeast,which may be the causes of RIEMS producing too much heavy rainfall in the north of the Yangtze River valley. 相似文献
19.
基于台站降水观测数据和MERRA-2再分析资料,分析了2014年夏季我国长江流域降水的季节内振荡特征,并从位涡角度重点研究了与之相关的环流演变。结果表明:2014年夏季长江流域降水季节内变率以10~20d的准双周振荡为主。在降水准双周振荡的极端湿位相,受对流层高层随中纬度波列东传的正异常位涡和南亚高压东侧西南向传播的正异常位涡的共同影响,南亚高压呈“马鞍型”分布,在长江流域形成高空辐散环流;在对流层中低层,当中纬度波列的异常气旋向东南传播至长江流域以北时,西太平洋异常反气旋延伸至中国东南沿海,二者共同导致长江流域低空水汽辐合加强;在高、低层环流的共同作用下,长江流域持续性降水显著偏多,形成准双周振荡的极端湿位相;同时,长江以北高空位涡正异常导致其下方冷空气下沉,触发长江流域异常上升运动和南海地区异常下沉运动,该经向垂直环流圈的形成有利于长江流域正异常降水的维持。反之则形成极端干相位。 相似文献