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1.
ENSO对IOD与中国夏季降水关系的影响 总被引:17,自引:4,他引:13
利用1950~1999年Hadley中心海温资料、NCEP/NCAR再分析资料和中国160站降水资料,通过讨论印度洋偶极子(IOD)独立发生时及IOD与ENSO联合发生时中国夏季降水的差异,研究了ENSO对IOD与中国夏季降水关系的影响.IOD独立发生时,其正位相年以湖南为中心的华南地区夏季降水偏多;IOD与ENSO联合发生时,正位相年河套、华北地区夏季降水偏少,东南沿海地区降水偏多.ENSO对IOD与中国夏季降水关系的影响主要表现为:在华南西部、江淮流域、河套及华北地区起抵消作用,而在东南沿海地区起协同作用.还从环流场角度分析了ENSO对IOD与中国夏季降水关系影响的初步成因. 相似文献
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根据西南地区夏季及夏季各月1951~1999年逐年的降水资料和同期北半球100hPa位势高度场资料,分析了我国西南地区夏季降水的年际变化特征及旱涝分布状况.结果表明:西南地区夏季降水存在3~4年的年际周期和10~16年的年代际周期.西南夏季降水量及西南夏季的旱涝分布与南亚高压存在较好的相关关系.由此认为,南亚高压是影响西南夏季降水的一个较为的重要因子. 相似文献
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1999年中国夏季气候的预测和检验 总被引:35,自引:6,他引:29
利用改进的中国科学院大气物理研究所短期气候预测系统(IAPPSSCA),结合IAPENSO预测系统所预测的1999年热带太平洋地区的海温异常,对1999年中国夏季气候进行了适时集合预测。预测结果表明:IAPPSSCA较好地预测出了1999年夏季北半球大尺度环流场的异常情况,并较好地预测出1999年中国南涝北旱的大范围降水形势。IAPPSSCA对长江下游的强降水中心、中国南方大部夏季多雨的特征以及中国北方大部的干旱少雨形势的预测,与实测较相符。但IAPPSSCA预测的南方大范围雨带的北界比实测的略为偏北,北方的小范围的降水正距平区域也没有能预报出来。另外,对于月平均降水距平的预测亦存在较大的不确定性。这说明我们的预测系统还有待于进一步的改进和完善。 相似文献
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中国东部夏季降水80年振荡与东亚夏季风的关系 总被引:22,自引:4,他引:22
利用中国东部1470-1999年夏季降水级别资料和1951-1999年夏季降水观测资料,以及1871-2000年北半球海平面气压资料研究了中国东部夏季降水与东亚夏季风的关系。研究表明华北及东北南部、长江中下游地区和华南夏季降水存在明显的80年振荡,华北夏季降水的80年振荡与华南同位相,与长江中下游反位相。华北夏季降水与海平面气压在120°-130°E,20°-25°N区域内呈负相关,在121°-130°E,20°-25°N区域内呈正相关,并达到 95%信度。因此,利用这两个区域平均海平面气压差定义了一个表征夏季西南风强度的东亚夏季风指数。当东亚夏季风强时,华北夏季降水偏多,同时长江中下游少雨;当东亚夏季风接近正常时,华北干旱,长江中下游多雨。最后,利用530年的华北夏季降水长序列资料研究了东亚夏季风的年代际变率。 相似文献
6.
中国西南地区夏季降水的年际变化及与南亚高压的关系 总被引:1,自引:0,他引:1
根据西南地区夏季及夏季各月1951-1999年逐年的降水资料和同期北半球100hPa位势高度场资料,分析了我国西南地区夏季降水的年际变化特征及旱涝分布状况。结果表明:西南地区夏季降水存在3-4年的年际周期和10-16年的年代际周期。西南夏季降水量及西南夏季的旱涝分布与南亚高压存在较好的相关关系。由此认为,南亚高压是影响西南夏季降水的一个较为的重要因子。 相似文献
7.
东部夏季降水变化及其与北太平洋SSTA的联系 总被引:2,自引:5,他引:2
采用REOF分析和小波变换方法对1900-1999年中国东部39站夏季降水资料进行分析,结果表明:华南、西南地区和长江中下游地区及华北、东北西南部地区是中国东部夏季降水异常3个最主要的区域,都存在显著的年际变化和年代际变化。分析了这3个区域夏季降水的年际、年代变化与北太平洋冬季海表温度异常的关系。 相似文献
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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
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海表温度和地表温度与中国东部夏季异常降水 总被引:18,自引:2,他引:16
主要研究太平洋与印度洋海表温度和地表温度场与中国东部夏季降水的相关关系,以及异常大降水产生的下垫面条件.研究结果表明:(1)夏季黑潮区海温与同期长江流域的降水存在明显正相关,北方地区夏季降水与靠近非洲东岸的印度洋海域存在明显负相关.(2)夏季海温异常与同期中国降水异常场之间的相关分析(SVDI)表明,20世纪70年代后期当海温由La Nina多发期向El Nino多发期转变后,长江流域向异常多雨转变,而其北方和南方地区则向异常少雨方向发展.(3)中国东部区域降水与陆面温度的明显相关区有:(a)春,夏季热带非洲和夏季亚洲大陆部分地区地表温度与当年长江流域夏季降水存在显著正相关;(b)春季4、5月份部分亚洲大陆地表温度与当年华北地区夏季降水有明显负相关.(4)通过对比分析发现:长江(1954,1998和1999年)或江淮(1991年)流域几次特大异常降水的下垫面条件是黑潮区为海温正距平,同期欧亚大陆主要为正地表温度距平场. 相似文献
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为了研究大尺度背景场对ENSO和印度夏季风降水关系的调制作用,更好地预报气候变暖背景下印度夏季风降水的年际变化,本文利用重建的10套ENSO指数和印度降水资料,研究了ENSO和印度夏季风降水在过去500 a(1470—1999年)中的关系,其存在的原因以及如何理解这一现象,主要侧重于ENSO对印度夏季风的影响。结果表明:1)在过去500 a中,ENSO与印度夏季风降水的关系并非是一成不变的,大体上呈现负相关关系;在小冰期负相关较弱,在现代暖期负相关加强,19世纪80年代后负相关开始减弱。2)在过去500 a中,印度夏季风降水异常与ENSO的关系是确定存在的,并非是随机产生的。3)在小冰期和现代暖期,印度夏季降水异常与Ni1o指数的振幅及周期的关系有很大的不同,现代暖期明显较大,即相对于小冰期,现代暖期ENSO的振幅增强、周期偏大,导致印度夏季风与ENSO呈现较强的负相关关系;但两者的平均状态相差不大。 相似文献
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Jinling PIAO Wen CHEN Ke WEI Yong LIU Hans-F. GRAF Joong-Bae AHN Alexander POGORELTSEV 《大气科学进展》2017,34(4):456-468
A decadal change in summer rainfall in the Asian inland plateau(AIP) region is identified around 1999. This decadal change is characterized by an abrupt decrease in summer rainfall of about 15.7% of the climatological average amount,leading to prolonged drought in the Asian inland plateau region. Both the surface air temperature and potential evapotranspiration in the AIP show a significant increase, while the soil moisture exhibits a decrease, after the late 1990s. Furthermore,the normalized difference vegetation index shows an apparent decreasing trend during 1999–2007. Three different drought indices—the standardized precipitation index, the standardized precipitation evapotranspiration index, and the self-calibrating Palmer drought severity index—present pronounced climate anomalies during 1999–2007, indicating dramatic drought exacerbation in the region after the late 1990s. This decadal change in the summer rainfall may be attributable to a wave-like teleconnection pattern from Western Europe to Asia. A set of model sensitivity experiments suggests that the summer warming sea surface temperature in the North Atlantic could induce this teleconnection pattern over Eurasia, resulting in recent drought in the AIP region. 相似文献
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Summary Climatic changes of summer temperature and precipitation in the greater Alpine region are assessed by using statistical-dynamical
downscaling. The downscaling procedure is applied to two 30-year periods (1971–2000 and 2071–2100, summer months only) taken
from the results of a transient coupled ocean/atmosphere climate scenario simulation with increasing greenhouse gas concentrations.
The downscaling results for the present-day climate are compared with observations. The estimated regional climate change
during the next 100 years shows a general warming. The mean summer temperatures increase by 3 to 5 Kelvin. The most intense
climatic warming is predicted in the western parts of the Alps. The amount of summer precipitation decreases in most parts
of central Europe by more than 20 percent. Increasing precipitation is simulated only over the Adriatic area and parts of
eastern central Europe.
The results are compared with observed climate trends for the last decades and results of other regional climate change estimations.
The observed trends and the majority of the simulated trends (including ours) have a number of common features. However, there
are also climate change estimates of other groups which completely contradict our results.
Received April 8, 1999 Revised November 16, 1999 相似文献
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J. P. R. Fernandez S. H. Franchito V. B. Rao 《Theoretical and Applied Climatology》2006,86(1-4):261-270
Summary This study investigates the capabilities of two regional models (the ICTP RegCM3 and the climate version of the CPTEC Eta
model – EtaClim) in simulating the summer quasi-stationary circulations over South America during two extreme cases: the 1997–1998
El Ni?o and 1998–1999 La Ni?a. The results showed that both the models are successful in simulating the interannual variability
of summer quasi-stationary circulation over South America. Both the models simulated the intensification of subtropical jet
stream during the El Ni?o event, which favoured the blocking of transient systems and increased the precipitation over south
Brazil. The models simulated the increase (decrease) of precipitation over north (west) Amazonia during the La Ni?a (El Ni?o)
event. The upper level circulation is in agreement with the simulated distribution of precipitation. In general, the results
showed that both the models are capable of capturing the main changes of the summer climate over South America during these
two extreme cases and consequently they have potential to predict climate anomalies. 相似文献
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华北夏季降水的年代际变化及其与东亚地区大气环流的联系 总被引:25,自引:6,他引:25
利用1990-1999年华北夏季降水,海平面气压和1950-1999年NCEP月平均资料,借助小波变换研究了华北夏季降水的年代际变化特征,再用合成分析研究了华北夏季降水的年代际变化与东亚地区大气环流的联系,结果表明:近百年的华北夏季降水经历了20世纪30年代末之前和40年代末到70年代末两个多雨期阶段,20世纪30年代末到40年代末和70年代末之后两个少雨期阶段,华北夏季少雨期,东亚夏季风偏弱,亚洲地区500hPa高度场为正距平,副高脊线和北界位置偏南,贝加尔湖附近常伴有阻塞高压存在,而华北夏季多雨期则相反。 相似文献
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Yongjian Ren Lianchun Song Zunya Wang Ying Xiao Bing Zhou 《Acta Meteorologica Sinica》2017,31(2):397-408
Historical studies have shown that summer rainfall in eastern China undergoes decadal variations, with three apparent changes in the late 1970s, 1992, and the late 1990s. The present observational study indicates that summer precipitation over eastern China likely underwent a change in the late 2000s, during which the main spatial pattern changed from negative–positive–negative to positive–negative in the meridional direction. This change in summer precipitation over eastern China may have been associated with circulation anomalies in the middle/upper troposphere. A strong trough over Lake Baikal created a southward flow of cold air during 2009–15, compared with 1999–2008, while the westward recession of the western Pacific subtropical high strengthened the moisture transport to the north, creating conditions that were conducive for more rainfall in the north during this period. The phase shift of the Pacific Decadal Oscillation in the late 2000s led to the Pacific–Japan-type teleconnection wave train shifting from negative to positive phases, resulting in varied summer precipitation over eastern China. 相似文献
19.
Recent changes in the summer precipitation pattern in East China and the background circulation 总被引:21,自引:0,他引:21
This study documents the decadal changes of the summer precipitation in East China, with increased rainfall in the Huang-Huai River region (HR) and decreased in the Yangtze River region (YR) during 2000?C2008 in comparison to 1979?C1999. The main features of the atmospheric circulation related to the increased precipitation in the HR are the strengthened ascending motion and slightly increased air humidity, which is partly due to the weakened moisture transport out of the HR to the western tropical Pacific (associated with the weakened westerly over East Asia and the warming center over the Lake Baikal). The rainfall decrease in the YR is related to the weakened ascending motion and reduced water vapor content, which is mainly related to the weakened southwesterly moisture flux into the YR (associated with the eastward recession of the Western Pacific Subtropical High). The global sea surface temperature (SST) also shows significant changes during 2000?C2008 relative to 1979?C1999. The shift of the Pacific decadal oscillation (PDO) to a negative phase probably induces the warming over the Lake Baikal and the weakened westerly jet through the air-sea interaction in the Pacific, and thus changes the summer precipitation pattern in East China. Numerical experiments using an atmospheric general circulation model, with prescribed all-Pacific SST anomalies of 2000?C2008 relative to 1979?C1999, also lend support to the PDO??s contribution to the warming over the Lake Baikal and the weakened westerlies over East China. 相似文献
20.
1999年夏季江淮地区热源和水汽汇时空变化特征 总被引:4,自引:1,他引:3
利用1999年的NCAR再分析网格点风场、温度场、湿度场及含HUBEX试验加密观测的降水资料等,诊断分析了夏季长江流域梅雨暴雨集中期及其前后江淮地区的大气热源、水汽汇的时空分布及多时间尺度特征. 相似文献