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1.
我国西南地区秋季降水年际变化的空间差异及其成因 总被引:3,自引:0,他引:3
使用1980~2010年全国站点降水资料、ERA-Interim再分析环流资料、哈德莱海表温度资料,运用聚类分析和旋转经验正交函数分解,对西南地区的秋季降水按照其年际变化规律进行分区,进而分析影响各区域降水变化的物理过程和机理。结果表明:西南地区被分为东、西两个区域。西南东、西区域秋季降水的年际变化、显著周期、旱涝异常年份、相关的环流系统都有明显差异。西南东部秋季降水主要与热带海温异常有关,受低纬度环流影响。当赤道东太平洋为暖海温异常,热带印度洋为西正东负的偶极子型海温异常时,分别激发出西北太平洋反气旋和孟加拉反气旋,共同向西南东部输送水汽,造成西南东部降水偏多。西南西部降水在秋季三个月份与不同的环流形势对应:9月降水由中南半岛反气旋输送的暖湿气流决定;10月降水受高原以东反气旋环流和孟加拉湾低槽共同影响;11月降水主要受中高纬环流异常的影响,与斯堪的纳维亚遥相关存在显著负相关。 相似文献
2.
This study investigates the relationship between North Atlantic sea surface temperatures (SST) and persistent drought in North America using modern observations, proxy paleo-data, and simulations from multiple climate models. The observational results show that persistent droughts in the Great Plains and the southwest North America are closely related to multidecadal variations of North Atlantic SST (Atlantic Multidecadal Oscillations, AMO). During the AMO warm (cold) phases, most of North America is dry (wet). This relationship is persistent since at least 1567 AD, as based on proxy SST for the North Atlantic and the reconstructed drought index for North America. On centennial timescales, proxy SST records from the North Atlantic and proxy drought records for North America suggest that major periods of AMO-like warm (cold) SST anomalies during the last 7.0?ka correspond to dry (wet) conditions in the Great Plains. The influence of North Atlantic SST on North American droughts is examined using simulations made by five global climate models. When forced by warm North Atlantic SST anomalies, all models captured significant drying over North America, despite some regional differences. Specifically, dry summers in the Great Plains and the southwest North America are simulated by all models. The precipitation response to a cold North Atlantic is much weaker and contains greater disagreement among the models. Overall, the ensemble of the five models could well reproduce the statistical relationship between the dry/wet fluctuations in the North America and North Atlantic SST anomalies. Our results suggest that North Atlantic SSTs are likely a major driver of decadal and centennial timescale circulation, including droughts, in North America. Possible mechanisms that connect North Atlantic SST with North American drought, as well as interactions between North Atlantic and tropical Pacific SST and their relative roles on drought are also discussed. 相似文献
3.
前期印度洋海温异常对夏季高原“湿池”水汽含量的影响及其可能原因 总被引:1,自引:0,他引:1
利用Hadley中心提供的逐月海温资料、ERA-Interim再分析资料以及NOAA(National Oceanic and Atmospheric Administration)的逐月向外长波辐射(OLR)资料探讨了1979~2011年夏季青藏高原“湿池”的水汽含量与前期印度洋海温异常的关系,并对可能的原因进行了分析。结果表明,夏季青藏高原水汽(去趋势)EOF第二模态与前期印度洋海温存在密切的正相关,前期3~4月关键区(5°S~20°N,45°E~75°E)的海温异常可以作为夏季高原水汽的预测信号。在暖水年,赤道附近显著的东风异常对夏季高原水汽输送起到了至关重要的作用。500 hPa上副热带高压显著增强并西移,600 hPa上赤道附近为显著的异常东风,将水汽从西太平洋、南海、孟加拉湾向西输送到印度半岛,并在异常反气旋环流西侧的南风作用下,将水汽带向青藏高原。高层风场上,西太平洋地区辐合,青藏高原上空辐散。以上环流形势表明暖水年夏季青藏高原水汽偏多;冷水年则相反。就影响机制而言,前期春季印度洋海温显著偏暖,引起其上空异常的对流上升运动,驱动异常沃克环流从春到夏显著维持,副热带高压的季节性北跳和异常增强西移,有利于赤道东风异常的增强和西移,并经过水汽输送通道将水汽带向青藏高原上空。 相似文献
4.
利用西藏高原39个气象站自1961年或建站开始至2010年汛期(5—9月)的逐月降水资料,根据Z指数和区域旱涝指数分析了近50年西藏高原汛期旱涝的变化特征。在此基础上,选取了典型旱、涝年,采用NCEP/NCAR再分析月平均资料,通过合成分析方法分析了旱、涝年的水汽输送特征的差异。结果表明:近50年以来,西藏高原以旱为主,涝灾较少,干湿状况具有明显年代际变化;西藏高原汛期旱涝与水汽输送异常联系紧密,典型旱(涝)年北印度洋、西北太平洋和亚洲中纬度地区的整层水汽通量经向、纬向及整层水汽通量和水汽通量散度均存在显著差异,呈反位相分布。越赤道急流区的差异最为显著,索马里越赤道气流区的水汽输送差异主要表现在经向上,而菲律宾越赤道气流区的水汽输送差异主要表现在纬向上。 相似文献
5.
6.
南疆夏季降水异常的环流和青藏高原地表潜热通量特征分析 总被引:4,自引:0,他引:4
利用1980—2004年NCEP/DOE新再分析月平均资料及我国225个测站1980—2004年月降水量资料,通过诊断分析,研究了南疆夏季降水异常的环流和高原地表潜热通量特征。结果表明:南疆夏季降水偏少年,南亚高压西部偏强,西风急流位置偏北,500 hPa中高纬环流经向度减弱,伊朗高压偏北、偏东,西太平洋副热带高压偏西、偏南;降水偏多年则相反。南疆夏季降水偏少年,高原北部和南疆地区为下沉的垂直环流距平,Ferrell环流增强;降水偏多年则相反。南疆夏季降水偏少年和偏多年的前期冬春季开始孟加拉湾、青藏高原和南疆地区地表潜热通量具有相反的变化,南疆夏季降水与高原北部地表潜热通量呈显著正相关,与南部地表潜热通量呈反相关关系。 相似文献
7.
Relations between Tibetan Plateau precipitation and large-scale climate indices are studied based on the Standardized Precipitation Index (SPI) and the boreal summer season. The focus is on the decadal variability of links between the large-scale circulation and the plateau drought and wetness. Analysis of teleconnectivity of the continental northern hemisphere standardized summer precipitation reveals the Tibetan Plateau as a major SPI teleconnectivity center in south-eastern Asia connecting remote correlation patterns over Eurasia. Employing a moving window approach, changes in covariability and synchronizations between Tibetan Plateau summer SPI and climate indices are analyzed on decadal time scales. Decadal variability in the relationships between Tibetan Plateau summer SPI and the large-scale climate system is characterized by three shifts related to changes in the North Atlantic, the Indian Ocean, and the tropical Pacific. Changes in the North Atlantic variability (North Atlantic Oscillation) result in a stable level of Tibetan Plateau summer SPI variability; the response to changes in tropical Pacific variability is prominent in various indices such as Asian monsoon, Pacific/North America, and East Atlantic/Western Russia pattern.
相似文献8.
我国西南地区干湿季降水的主模态分析 总被引:3,自引:2,他引:1
利用我国西南地区26个台站降水资料,通过经验正交函数(EOF)分解的方法,分析了1980~2009年该地区干季(10~4月)和湿季(5~9月)降水的主模态。我国西南地区干季降水的时空变化存在两种主模态,它们分别可以解释总方差的22.4%和15.6%。第1主模态为全区一致型,具有准两年周期振荡的年际变化特征;第2主模态为东南—西北反向型,从20世纪90年代中期至21世纪初呈现2~3年的变化周期。我国西南地区湿季降水的时空变化存在三种主模态,它们分别可以解释总方差的17.1%,13.8%和11.1%。第1主模态为全区一致型,20世纪90年代初期具有较强的2~4年周期;第2主模态为经向偶极子型分布,并具有显著的4年周期;第3主模态为纬向偶极子型分布,具有2~4年的年际变化信号。进一步利用NCEP/NCAR再分析资料以及美国国家海洋和大气管理局(NOAA)的海表面温度(SST)资料,通过合成分析和回归分析的方法探讨了与干湿季降水各主模态对应的大尺度大气环流和海温状况。我国西南地区干季降水第1主模态与北极涛动(AO)有明显的正相关关系,对应的大气环流和海温状况表现为高纬北冰洋与中纬度地区上空高度场的反向异常分布,北大西洋和北太平洋海温低纬与中高纬的偶极子型异常分布;第2主模态与中高纬欧亚大陆上空高度场经向偶极子型异常分布有关,中纬度北太平洋的海温异常与该模态具有紧密的联系。我国西南地区湿季降水第1主模态与北大西洋涛动(NAO)显著负相关,对应的大气环流和海温状况表现为北大西洋上,高纬度与中纬度地区上空高度场的偶极子型异常分布,海温从低纬到中高纬的三极子型异常分布;第2主模态受欧亚大陆上空高度场经向三极子型异常分布影响,并与北太平洋海温异常的一致型分布有关;第3主模态可能与El Ni?o Modoki有关,同时受到南亚高压的影响,赤道太平洋海温的纬向三极子型异常分布对该模态具有一定的潜在预报意义。 相似文献
9.
基于全球降水气候中心(GPCC)和全球降水气候计划(GPCP)的降水数据及ERA-interim再分析资料,分析了1979~2012年冬季青藏高原(简称高原)西侧地区降水的基本特征及影响其年际变率的潜在因子。结果表明高原冬季降水主要发生在其西侧地区且为全区变化一致型,降水所需的水汽主要来自上游地区,从该区域的西边界输入。然而,高原西侧地区冬季降水的年际变率主要由水汽输送的动力过程所决定,表现为高原西侧的西南风异常。此外,高原西侧冬季降水的年际变率与其上游典型的大气内部变率北大西洋涛动和北极涛动相关性不强,而与赤道西印度洋和热带中东太平洋的海温显著相关。热带中东太平洋海温异常通过影响大气环流变化,在印度洋北部激发一个反气旋式的环流异常,使得高原西侧地区出现异常西南风,从而加强了水汽通量输送的动力作用。同时在赤道异常东风的作用下,暖水也向印度洋西部输送堆积。赤道中东太平洋海温的异常可进一步导致西风急流发生南北移动,从而也在一定程度上影响了高原西侧冬季水汽输送以及降水的年际变率。 相似文献
10.
Two types of three-dimensional circulation of the East Asian summer monsoon(EASM) act as the coupling wheels determining the seasonal rainfall anomalies in China during 1979–2015. The first coupling mode features the interaction between the Mongolian cyclone over North Asia and the South Asian high(SAH) anomalies over the Tibetan Plateau at 200 hPa. The second mode presents the coupling between the anomalous low-level western Pacific anticyclone and upperlevel SAH via the meridional flow over Southeast Asia. These two modes are responsible for the summer rainfall anomalies over China in 24 and 7 out of 37 years, respectively. However, the dominant SST anomalies in the tropical Pacific, the Indian Ocean, and the North Atlantic Ocean fail to account for the first coupling wheel's interannual variability, illustrating the challenges in forecasting summer rainfall over China. 相似文献
11.
基于1979~2017年欧洲中期天气预报中心(ECMWF)提供的ERA-Interim逐日再分析资料和热力学方程,本研究估算了大气视热源,分析研究了青藏高原夏季大气视热源的异常与中国东部降水关系的年代际变化,以及青藏高原大气视热源影响我国东部夏季降水的物理机制。结果表明:(1)高原热源东、西部反相变化模态的重要性发生了年代际转变,表现为由1994年之前方差贡献相对小的第二变异模态变为1994之后方差贡献明显增大而成为第一主导变异模态。(2)青藏高原夏季大气视热源的东、西反相变化模态与中国东部降水的关系存在年代际变化。1993年之前和2008年之后,高原大气视热源的异常分别仅与长江下游降水和长江中游降水异常存在密切的联系;而在1994~2007年,其对长江流域及附近区域和华南地区的夏季降水的影响显著,具体表现为,当高原夏季大气视热源异常表现为东强西弱(东弱西强)时,长江中上游、江淮地区的降水偏多(少),华南地区降水偏少(多)。(3)高原大气视热源显著影响我国东部夏季降水主要是通过经高原上空发展加强的天气系统东移过程影响长江流域及附近地区的降水,以及通过垂直环流影响华南地区的降水。 相似文献
12.
Climatology and trends of wet spells in China 总被引:3,自引:0,他引:3
Summary Climatological features and variations of wet spells, especially their trends over China, are investigated using a dataset
of 594 meteorological stations across China from 1951 to 2003. The results show that the lower the latitude is, the longer
the annual duration of wet spells is. The mean annual precipitation from wet spells is higher in southeastern coastal areas
and much lower in western and northern China. The longest wet spells are found in Southwest China and the eastern Tibetan
Plateau. The maximum daily precipitation of wet spells decreases from the southeast to the northwest, with the highest in
southeastern coastal areas and the lowest in western China. The trends of wet spells exhibit striking regional differences.
In most areas of western China, the annual number of days in wet spells has slightly increased, but significantly decreased
over North China, Central China and Southwest China. The annual precipitation amount from wet spells displays significant
downward trends in North China, eastern Northeast China and the eastern part of Southwest China, but upward trends in the
eastern Tibetan Plateau and some southeastern coastal areas. Two clearly-contrasting regions in climatic changes of wet spells
are the mid-lower reaches of the Yellow River and the eastern Tibetan Plateau, characterized by a decrease of about 24 days
and an increase of about 6 days in annual wet spell days from 1953 to 2003, respectively. 相似文献
13.
采用1961—2014年逐月全球标准化降水蒸散指数(Standardized Precipitation Evapotranspiration Index,SPEI)数据集、ORA-S4海温资料及NCEP/NCAR再分析资料,对华南地区秋季干旱的年代际转折及其与热带印度洋热含量的关系进行了研究。结果表明:华南秋季SPEI主要表现为全区一致变化型,且具有明显的年代际变化特征,在1988年发生了年代际转折,转折后(前)为偏旱(涝)期。进一步分析表明,华南秋季SPEI与同期热带西印度洋海洋热含量变化呈显著的正相关关系,即当秋季热带西印度洋热含量偏低时,华南地区SPEI偏小,易发生干旱。热带西印度洋热含量异常影响华南秋季干旱的可能机制为:秋季热带印度洋热含量变化表现为""型的东西向偶极子分布,即当热带西印度洋热含量偏低时,热带东印度洋热含量将会偏高;而热带东印度洋热含量偏高将会使热带东印度洋—西太平洋海表温度偏高、外逸长波辐射偏小、降水增多,凝结潜热释放增强,产生偏强的东亚Hadley环流,使华南地区存在异常下沉运动,不利于产生降水;热带东印度洋—西太平洋海表温度偏高,还会使西北太平洋副热带高压位置偏西、面积偏大,西北太平洋存在气旋性环流异常,使华南地区受偏北气流异常控制,从而削弱了向华南地区的水汽输送。热带东印度洋—西太平洋海表温度年代际变化是热带西印度洋热含量异常影响华南秋旱年代际变化的重要环节,因此用NCAR CAM5.1全球大气环流模式进行了热带东印度洋—西太平洋海表温度年代际变化的敏感性试验,证实该区海表温度年代际升高对华南秋季年代际干旱具有重要作用。 相似文献
14.
CHARACTERIZATION AND CAUSAL ANALYSIS OF TEMPORAL AND SPATIAL VARIATION IN DRY-WET CONDITIONS IN AUTUMN IN SOUTHWEST CHINA 总被引:1,自引:0,他引:1
Based on the daily precipitation and temperature data of 97 stations in Southwest China(SW China) from1960 to 2009, a dry-wet index is calculated. The spatiotemporal variation characteristics of dry-wet conditions,precipitation and temperature are studied. Then the abnormal atmospheric circulation characteristics are discussed using reanalysis data. The results show that SW China has exhibited an overall trend of autumnal drought since the late1980 s, and this drought trend became more significant early in the 2000 s, especially in the eastern SW China. Autumnal dry-wet variation in southwestern China showed two major modes: consistent change across the entire region and opposing changes in the eastern and western regions. The spatial distribution of dry-wet anomalies was more significantly affected by precipitation, while temporal variation in dry-wet conditions was more strongly influenced by temperature. The former mode is affected by the anomalies of the precedent SST near the Western Pacific Warm Pool,the Western Pacific Subtropical High, the East Asian Trough and the South Trough. The latter mode is related to the wind anomalies in the eastern SW China and the vertical movement in the western and eastern SW China. These are the main influencing factors for the autumn dry-wet variation in SW China, which are of great significance to the prediction of drought. 相似文献
15.
采用1961—2005年NCEP/NCAR再分析资料, 研究了夏季青藏高原东南部水汽收支的气候特征及其影响效应。结果表明:夏季青藏高原东南部总体上是一个水汽汇区, 平均总收入为39.9×106 kg/s。东亚夏季风的建立、推进对青藏高原东南部的水汽输入有重要影响, 而青藏高原东南部的水汽输出则与夏季我国东部雨带的推进过程密切相关。该区对周边地区的水汽收支有重要影响, 是向我国西北地区东部、长江中下游地区输送水汽的重要通道, 青藏高原东南部的水汽“转运站”效应是长江中下游流域洪涝和北方夏季干旱异常的关键因子之一。青藏高原东南部东、北边界夏季水汽收支均具有准两年周期振荡特征, 并分别与长江中下游、西北地区东部夏季降水的准两年振荡特征具有一定的联系。 相似文献
16.
Winter precipitation over Central Asia and the western Tibetan Plateau (CAWTP) is mainly a result of the interaction between the westerly circulation and the high mountains around the plateau. Empirical Orthogonal Functions (EOFs), Singular Value Decomposition (SVD), linear regression and composite analysis were used to analyze winter daily precipitation and other meteorological elements in this region from 1979 to 2013, in order to understand how interactions between the regional circulation and topography affect the intraseasonal variability in precipitation. The SVD analysis shows that the winter daily precipitation variability distribution is characterized by a dipole pattern with opposite signs over the northern Pamir Plateau and over the Karakoram Himalaya, similar to the second mode of EOF analysis. This dipole pattern of precipitation anomaly is associated with local anomalies in both the 700 hPa moisture transport and the 500 hPa geopotential height and is probably caused by oscillations in the regional and large-scale circulations, which can influence the westerly disturbance tracks and water vapor transport. The linear regression shows that the anomalous mid-tropospheric circulation over CAWTP corresponds to an anti-phase variation of the 500 hPa geopotential height anomalies over the southern and northern North Atlantic 10 days earlier (at 95% significance level), that bears a similarity to the North Atlantic Oscillation (NAO). The composite analysis reveals that the NAO impacts the downstream regions including CAWTP by controlling south-north two branches of the middle latitude westerly circulation around the Eurasian border. During the positive phases of the NAO, the northern branch of the westerly circulation goes around the northwest Tibetan Plateau, whereas the southern branch encounters the southwest Tibetan Plateau, which leads to reduced precipitation over the northern Pamir Plateau and increased precipitation over the Karakoram Himalaya, and vice versa. 相似文献
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本文基于铜仁市10个国家自动观测站1981-2020年近40a降水资料,计算多时间尺度标准化降水指数(SPI),确定旱涝程度,分析旱涝时空分布特征,筛选典型旱、涝年进行环流分析。结果表明:(1)铜仁市20世纪80年代后期总体偏旱,90世纪后期总体偏涝。铜仁市夏季呈现出旱涝交替变化特征。(2)铜仁市中西部、东北部干旱相对频繁,并向四周逐渐减弱;市中西部、东南部发生雨涝的频率相对较高,西北部最低。夏季的干旱和雨涝均以轻、中程度为主,特重程度情况发生很少。(3)夏季偏涝年整个欧亚中高纬均为位势高度的负异常,偏旱年欧亚中高纬的乌拉尔山和中国东北的位势高度异常中心转为正异常分布。(4)赤道中东太平洋的厄尔尼诺现象与南、北太平洋海温异常分布对铜仁夏季偏涝现象的发生发展有密切关系;赤道中东太平洋拉尼娜现象、印度洋及西太平洋的海温异常分布对铜仁夏季偏旱现象的发生发展有密切关系。 相似文献
18.
青藏高原热力异常与华北汛期降水关系的研究 总被引:24,自引:3,他引:24
利用1980~1994年NCEP/NCAR再分析资料,以及我国336个测站1956~1994年月降水量资料,通过诊断分析和数值实验,研究了夏季高原上热力异常与华北汛期降水的关系.结果表明:华北汛期干旱年,青藏高压及西太平洋副热带高压偏南、偏东,华北汛期降水偏多年则相反;华北汛期旱年时,高原上升、高原东侧邻近地区下沉的垂直环流明显加强,而降水偏多年时,垂直环流减弱,华北地区为上升气流控制;夏季高原为热源和水汽汇区,它们的异常对华北地区降水有很大影响,当热源和水汽汇增强(减弱)时,华北地区降水偏少(偏多).数值试验表明,高原上潜热加热异常引起青藏高压、西太平洋副热带高压、亚洲季风以及欧亚中高纬地区环流的变化,进而影响到华北地区的降水. 相似文献
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The role of tropical Atlantic sea surface temperature (SST) anomalies during ENSO episodes over northeast Brazil (Nordeste) is investigated using the CPTEC/COLA Atmospheric General Circulation Model (AGCM). Four sets of integrations are performed using SST in El Niño and La Niña (ENSO) episodes, changing the SST of the Atlantic Ocean. A positive dipole (SST higher than normal in the tropical North Atlantic and below normal in the tropical South Atlantic) and a negative dipole (opposite conditions), are set as the boundary conditions of SST in the Atlantic Ocean. The four experiments are performed using El Niño or La Niña SST in all oceans, except in the tropical Atlantic where the two phases of the SST dipole are applied. Five initial conditions were integrated in each case in order to obtain four ensemble results. The positive SST dipole over the tropical Atlantic Ocean and El Niño conditions over the Pacific Ocean resulted in dry conditions over the Nordeste. When the negative dipole and El Niño conditions over the Pacific Ocean were applied, the results showed precipitation above normal over the north of Nordeste. When La Niña conditions over Pacific Ocean were tested together with a negative dipole, positive precipitation anomalies occurred over the whole Nordeste. Using the positive dipole over the tropical Atlantic, the precipitation over Nordeste was below average. During La Niña episodes, the Atlantic Ocean conditions have a larger effect on the precipitation of Nordeste than the Pacific Ocean. In El Niño conditions, only the north region of Nordeste is affected by the Atlantic SST. Other tropical areas of South America show a change only in the intensity of anomalies. Central and southeast regions of South America are affected by the Atlantic conditions only during La Niña conditions, whereas during El Niño these regions are influenced only by conditions in the Pacific Ocean. 相似文献