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1.
极端降水事件变化的观测研究 总被引:68,自引:4,他引:64
回顾了气候变化背景下的极端降水事件变化观测研究的主要进展,结合全球变化的特点,重点讨论了中国极端降水事件的变化特征。指出:最近50多年,我国降水强度普遍趋于增加,降水日数除西北地区外其他大部分地区显著减少。极端降水与总降水量变化之间的关系很密切,西北西部、长江及长江以南地区极端强降水事件趋于频繁,华北地区虽然极端降水事件频数明显减少,但极端降水量占总降水量的比例仍有所增加。连阴雨产生的年降水量在华北、东北东部和西南东部地区明显减小,在青藏高原东部和一些东南沿海地区则增加。降水日数和微量降水日数减少是近年来我国干旱化趋势发展的一个重要特点。 相似文献
2.
Spatial and temporal characteristics of wet spells in the Yangtze River Basin from 1961 to 2003 总被引:1,自引:0,他引:1
G.-J. Zhao G. Hörmann N. Fohrer J.-F. Gao J.-Q. Zhai Z.-X. Zhang 《Theoretical and Applied Climatology》2009,98(1-2):107-117
Daily precipitation records of 147 meteorological stations over the Yangtze River Basin have permitted a detailed analysis of the spatio-temporal distribution of wet spells during the period 1961–2003 by distinguishing average daily amount thresholds of 90th and 95th percentiles. The analysis are based on several time series, namely the number of the days in wet spells, the longest wet spell and the precipitation amount in wet spells. Time series trends analyses are compiled for each station by means of the Mann-Kendall test, for four sub-regions. The results show that the annual precipitation in wet spells is higher in the southeast area and the eastern Tibetan Plateau than in the other parts. The longest wet spells are found in the eastern Tibetan Plateau for both the thresholds. The indices in wet spells for most stations have no significant trends. In contrast, only some stations in eastern Tibetan Plateau and the lower Yangtze River Basin increase significantly, while some in the middle reaches show significant decreasing trends. The regional trends analysis presents a noticeable downward trend in the middle Yangtze River Basin and upward trends in the eastern Tibetan Plateau for both 90th and 95th percentiles, however, the upward trend in the lower Yangtze River Basin and downward trends in the upper Jinshajiang River Basin are not significant. 相似文献
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Projection of Future Precipitation Change over China with a High-Resolution Global Atmospheric Model 总被引:10,自引:0,他引:10
Projections of future precipitation change over China are studied based on the output of a global AGCM, ECHAM5, with a high resolution of T319 (equivalent to 40 km). Evaluation of the model’s performance in simulating present-day precipitation shows encouraging results. The spatial distributions of both mean and extreme precipitation, especially the locations of main precipitation centers, are reproduced reasonably. The simulated annual cycle of precipitation is close to the observed. The performance of the model over eastern China is generally better than that over western China. A weakness of the model is the overestimation of precipitation over northern and western China. Analyses on the potential change in precipitation projected under the A1B scenario show that both annual mean precipitation intensity and extreme precipitation would increase significantly over southeastern China. The percentage increase in extreme precipitation is larger than that of mean precipitation. Meanwhile, decreases in mean and extreme precipitation are evident over the southern Tibetan Plateau. For precipitation days, extreme precipitation days are projected to increase over all of China. Both consecutive dry days over northern China and consecutive wet days over southern China would decrease. 相似文献
5.
1951/1952~2004/2005年中国冬季降水变化研究 总被引:12,自引:1,他引:11
运用AREM模式对2005年5月31日发生在湖南新邵的一次特大暴雨天气过程进行模拟分析.利用模式输出的1 h基本物理量计算螺旋度,结果表明:螺旋度对特大暴雨的预报有指示意义,特大暴雨产生在低层正螺旋度中心与高层负螺旋度中心相配合的区域.在暴雨强盛期,螺旋度中低层最大正值位于750 hPa,最大负值位于450 hPa.比较新邵1 h实况降雨量和AREM模式模拟的降水值与相应时刻的螺旋度,发现5月31日19~22时之间的暴雨增幅最大,为172 mm/3 h,而螺旋度值也相应出现了最大的增幅20 m2/(s2·3 h),31日21~22时新邵暴雨出现峰值,但螺旋度却开始减小,此后两者又一致地逐渐减弱. 相似文献
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Zhihong Jiang Jie Song Laurent Li Weilin Chen Zhifu Wang Ji Wang 《Climatic change》2012,110(1-2):385-401
Observations from 550 surface stations in China during 1961–2000 are used to evaluate the skill of seven global coupled climate models in simulating extreme temperature and precipitation indices. It is found that the models have certain abilities to simulate both the spatial distributions of extreme climate indices and their trends in the observed period. The models’ abilities are higher overall for extreme temperature indices than for extreme precipitation indices. The well-simulated temperature indices are frost days (Fd), heat wave duration index (HWDI) and annual extreme temperature range (ETR). The well-simulated precipitation indices are the fraction of annual precipitation total due to events exceeding the 95th percentile (R95T) and simple daily intensity index (SDII). In a general manner, the multi-model ensemble has the best skill. For the projections of the extreme temperature indices, trends over the twenty-first century and changes at the end of the twenty-first century go into the same direction. Both frost days and annual extreme temperature range show decreasing trends, while growing season length, heat wave duration and warm nights show increasing trends. The increases are especially manifested in the Tibetan Plateau and in Southwest China. For extreme precipitation indices, the end of the twenty-first century is expected to have more frequent and more intense extreme precipitation. This is particularly visible in the middle and lower reaches of the Yangtze River, in the Southeast coastal region, in the west part of Northwest China, and in the Tibetan Plateau. In the meanwhile, accompanying the decrease in the maximum number of consecutive dry days in Northeast and Northwest, drought situation will reduce in these regions. 相似文献
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1960~2011年中国日降水集中程度的时空变化特征 总被引:1,自引:0,他引:1
利用1960~2011 年的日降水资料,计算降水集中指数(Concentration Index,CI),分析中国区域降水集中程度的空间分布及时间变化特征,得到以下主要结论:CI 指数可有效描述我国日降水集中程度;我国CI 指数介于0.575 与0.750 之间,平均为0.652,总体呈现出东部大、西部小,夏季大、冬季小的特征;44.17%站点的CI 指数表现出增加趋势,55.83%的站点表现出减少趋势,其中10.36%站点的变化趋势通过95%信度水平的显著性检验,CI 指数显著增大的站点主要分布在西北、华中和西南地区,显著减小的站点主要分布在东北、华北、东南沿海及青藏高原东部等地区;3~5 年是各子区域CI 指数变化的主要周期,与对应区域降水量的变化周期较一致;1970 年左右和2000 年左右是显著周期性变化出现较集中的时间段。 相似文献
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中国大风集中程度及气候趋势研究 总被引:3,自引:0,他引:3
利用1961—2010年中国553个地面气象站大风资料,并且定义和采用大风集中度和大风集中期的方法,讨论了大风日数年内分布形态的时空特征。结果表明:中国大风日数呈现出西多东少的空间分布特点。近50 a来全国范围内,大风日数都具有减少的变化趋势,其中青藏高原地区减少趋势最显著。在大风天气的年内分布形态上,青藏高原地区出现的大风天气较为集中;而内蒙古地区的大风天气较为分散。青藏高原地区大风集中期最早;而东南沿海地区大风集中期最晚。近50 a来中国大风集中度均有增加的趋势,其中东南沿海地区增加最显著;内蒙古地区和华北地区的大风集中期有显著增加的趋势。同时,西太平洋副热带高压强度、北半球极涡强度和欧亚经向环流型与中国大风集中度的变化关系密切。 相似文献
9.
Chaoxia Yuan Wei Zhang Yahan Zhong Xinyu Lu Jingchan Liu Md Wahiduzzaman 《大气和海洋科学快报》2022,15(1):76-80
干旱持续时间长,因此往往和缓慢变化的海温异常相关.本文利用观测降水和NCEP-DOE再分析资料,探讨了北大西洋中高纬地区东北-西南走向的偶极子海温异常对我国西南地区秋季干旱的影响.结果 显示该偶极子海温异常可激发向东南方向传播的Rossby波,在印度北部和青藏高原西部引起正压气旋性环流和上升运动异常,并在我国西南地区引... 相似文献
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中国西部积雪类型划分 总被引:7,自引:0,他引:7
利用中国105°E以西地区189个地面气象台站1960-2004年积雪日资料和1981-2004年SMMR、SSM/Ⅰ反演的逐日雪深资料,使用积雪年际变率方法划分中国西部积雪类型,并与积雪日数方法的划分结果进行比较.在此基础上,尝试建立了结合以上两种要素的综合分类指标.利用积雪年际变率方法和台站资料,将中国西部积雪划分为3类.其中,稳定积雪区主要包括北疆、天山和青藏高原东部高海拔山区;年周期性不稳定积雪区包括南疆和东疆盆地周边、河西走廊、青海北部、青藏高原中西部、藏南谷地以及青藏高原东南缘;其他积雪区均为非年周期性不稳定积雪区.气候突变后,积雪日数方法划分的积雪类型变化反映出沙漠和低纬度地区积雪变幅增大,在积雪年际变率方法的结果中体现出青藏高原东部地区趋于稳定的积雪面积在增加.在没有台站记录地区,卫星遥感资料很大程度上弥补了台站观测的缺陷,使用这种资料划分积雪类型时,积雪年际变率方法比积雪日数方法的结果更符合西部积雪的分布特点,反映出积雪分布与地形的密切关系.利用综合分类指标划分西部积雪类型的结果表明,台站资料的划分结果很大程度上受积雪持续时间的影响,而在卫星遥感结果中,积雪年际变率则是影响类型划分的主要因素. 相似文献
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基于青藏高原低涡和切变线(简称高原低值系统)年鉴、国家气象站地面观测资料及ERA-Interim再分析资料,分析了高原低值系统多、少发年夏季高原地气温差变化的差异及其对我国降水的影响。结果表明:(1)高原夏季地气温差对高原低值系统的发生和移动有明显的影响。在低值系统频发区,多发年的地气温差明显比少发年高。(2)我国西部的青藏高原中部、东北部及西南地区在多发年降水偏多,高原南部和东南部则在少发年降水偏多;我国东部地区,多、少发年降水差异自南至北呈“+”、“?”、“+”、“?”、“+”的差值带分布特征,即华南、江淮流域、华北和东北地区降水在多发年偏多,江南地区和黄淮流域降水则在少发年偏多。(3)高原低值系统多、少发年夏季对流层的环流系统及相应垂直速度、水汽输送变化有明显差异,并影响青藏高原和我国降水的变化。在高原地区,多、少发年之间环流的差异是受高原东部和南部的气流辐合(辐散)场、相应的垂直运动差值上升(下沉)、水汽输送辐合(辐散)区域变化的影响;在东部地区,则是受南海到华南、长江流域、华北到东北为气旋(反气旋)环流系统及其间辐合(辐散)带变化的影响。 相似文献
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中国降水极值变化趋势检测 总被引:215,自引:9,他引:206
利用中国296个分布均匀的测站的逐日降水资料,研究了中国过去45a中降水量、降水频率、降水强度等方面的极值变化趋势。结果表明,总体上讲,中国年降水量、1日和3日最大降水量以及不同级别的强降水总量没有发现明显的极端化倾向,但伴随着降水日数极端偏多的区域范围越来越小的变化趋势,平均降水强度极端偏高的区域范围表现为扩大的趋势。中国降水极值变化还反映出明显的区域性特点。在中国东部,平均降水强度极值出现的范围趋于扩大。如华北地区在年降水量明显趋于减少的同时,年降水量极端偏多的范围减少,1日和3日最大降水量、日降水≥50mm和100mm的暴雨日数极端偏多的情况也趋于减少,而平均降水强度极值显著增加。在年降水明显趋于增多的西北西部地区,降水日数的极值变化趋势不明显,但年降水量、1日和3日最大降水量以及日降水≥10mm的降水总量极端偏多的区域范围均反映出趋于增加的变化趋势。 相似文献
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中国东部夏季主要降水型与高原春季热力因子间的关系 总被引:3,自引:2,他引:1
采用中国地面气象观测站2 474个站的降水资料以及NCEP/NCAR再分析资料,利用经验正交函数展开、相关分析和小波分析等方法,探讨了中国东部夏季主要降水型与春季高原大气视热源之间的可能相关特征,并初步分析了前春高原大气加热对东部夏季降水异常分布的影响机制。降水EOF分析表明,中国东部夏季降水主要分为:华南—江淮型和长江中下游型;相关和周期分析表明,300 hPa和400 hPa高原南部地区、500 hPa高原北部地区视热源与华南—江淮降水型之间相关显著,3个区域视热源均与华南降水呈负相关,且与江淮降水呈正相关;200 hPa高原偏北地区、500 hPa高原东部地区视热源与长江中下游地区降水呈负相关,而500 hPa高原西部地区视热源则与长江中下游降水呈正相关关系。以上春季高原不同高度关键区域的视热源可为预报夏季降水提供重要判据;从视热源与各个降水中心的相关特征可见,春季高原上空视热源加热场结构会影响中国东部夏季雨带南北位置的分布情况。由春至夏高原加热的"气泵"作用,使得由孟加拉湾和南海地区水汽输送经高原东部地区后,折向东输送至中国大陆东部地区。加热偏强时,水汽向北输送分量加强,雨带偏北,降水"南少北多",反之亦然。 相似文献
14.
《Atmospheric Research》2010,95(4):616-628
The objective of this study is to find out the spatial and temporal variability of the dry and wet spells in Greece, during the period 1958–2007. The meteorological data with respect to daily precipitation totals were acquired from 27 meteorological stations of the Hellenic National Meteorological Service, which are uniformly distributed over the country. The dry spells concern consecutive dry days (CDD); the largest number of consecutive days with daily precipitation amount less than 1 mm, within a year. The wet spells concern consecutive wet days (CWD); the largest number of consecutive days with daily precipitation amount more than or equal to 1 mm, within a year, as defined by the Expert Team on Climate Change Detection and Indices (ETCCDI), jointly sponsored by the Commission for Climatology (CCl) of the World Meteorological Organization's (WMO) World Climate Data and Monitoring Programme (WCDMP), the Climate Variability and Predictability (CLIVAR) Programme of the World Climate Research Programme (WCRP) and the Joint WMO-IOC Technical Commission for Oceanography and Marine Meteorology (JCOMM).As results from the analysis, the spatial distributions of the mean annual CDD and the mean annual CWD along with their trends, within the examined period, are presented. The findings indicate that CDD obtain maxima in the Cyclades Islands and the southeastern Aegean Sea, while minima are found in the northwestern Greece. On the contrary, the longest CWD are observed in western Greece and western part of Crete Island and the shortest in the eastern continental Greece and in the majority of the Aegean Sea. On an annual basis, the temporal variability of CWD shows statistically significant (confidence level of 95%) negative trends, mainly in the western region of Greece, while insignificant positive trends for CDD appear almost all over the country with emphasis in the southeastern region. Finally, in order to interpret the drier and wetter periods within the examined period, the 850 hPa and the 500 hPa geopotential height (m) composites of the anomalies from 1958–1996 climatological normal (clino), are analysed using the National Centers for Environmental Prediction (NCEP) reanalysis data. 相似文献
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利用我国地面606个气象观测台站1951—2006年的逐日降水量和平均气温资料, 使用《气象干旱等级》国家标准中推荐使用的综合气象干旱指数(IC), 分析了近半个世纪以来全国及不同地区干旱变化情况。结果表明:总体而言, 全国干旱面积在近50年没有显著增加或减少的趋势, 但不同地区差异较大; 其中东北和华北地区干旱化趋势显著, 特别是20世纪90年代后期至21世纪初, 上述地区发生了连续数年的大范围严重干旱, 在近半个世纪中十分罕见; 东北、华北和西北地区东部的大部分地区在近50年中持续时间最长的干旱事件多发生在1980年以后的20多年中, 而且上述地区在近20多年来干旱发生得更加频繁。另外, 我国干旱化趋势最显著的地区与增暖幅度最大的地区有很大的一致性, 表明区域增暖在干旱变化中起着一定作用。 相似文献
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利用中国1961—2014年逐日降水观测等资料,分析了西南地区的干湿季变化特征。结果表明:西南地区东部和西北部最早进入湿季;干季由四川盆地、贵州南部开始。西南中东部以及南部等地的湿季长度较长,干季则与之相反。干湿季开始日期以及干湿季长度均具有明显的年代际变化特征,在1970年代中期到1980年代发生了气候突变,呈现湿季长度变短,干季变长的趋势。湿季降水呈现东南多、西北少的特征,并表现出中东部减少,西部增加的趋势;干季降水则表现为东多西少的特点,在东部呈增加,在四川等地呈减少趋势。进一步分析表明:湿季异常偏湿(干)年,开始日期易偏早(晚),结束易偏晚(早),长度偏长(短);干季开始异常偏早(晚)年,干季长度长(短),干季略偏湿(干);太平洋、印度洋海温异常影响东亚大气环流的异常是造成西南地区干湿季出现异常的主要原因。 相似文献
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近几十年来,随着全球气候变暖,青藏高原降水整体呈现增加趋势,气候暖湿化趋势明显;与此同时,位于青藏高原东南缘的中国西南地区整体上呈现暖干化趋势,干旱事件频发。探讨青藏高原及其周边地区降水的水汽来源变化、揭示降水趋势性变化的原因已经成为当前研究热点。本文评述了近年来青藏高原降水的水汽来源研究,重点关注青藏高原变湿、西南地区变干的水汽来源变化原因以及青藏高原南北水汽来源差异,讨论了尚未解决的科学问题,展望了未来研究方向。现有研究表明,青藏高原以西的西风带控制区蒸散发贡献的水汽整体呈现减少趋势,青藏高原以南和以东的季风控制区蒸散发贡献的水汽整体呈现增加趋势,上述水汽源区贡献变化导致了青藏高原及其周边不同区域降水趋势性变化的差异。展望未来,水汽来源分析的模型和数据需要进一步验证及减少不确定性,青藏高原下垫面和蒸散发变化对周边地区降水的影响机制研究有待加强,全球变化与青藏高原降水水汽来源变化的关系尚需深入分析。 相似文献
18.
利用1951-2011年中国160站降水资料及NCEP/NCAR再分析资料,分析了中国东南部冬季降水的年际变化及与之相关的环流和水汽输送特征。结果表明:中国东南部冬季降水年际差异较明显,当降水异常偏多(少)时,蒙古高压及中国广大南方地区海平面气压异常偏低(高),而亚洲附近的洋面上则异常偏高(低);500 hPa上,巴尔喀什湖附近的高压脊和东亚大槽均偏弱(强);高层东亚西风急流异常偏弱(强),中东地区急流异常偏强(弱);中国东部20~30°N出现显著异常上升(下沉)运动,低纬度地区出现异常下沉(上升)运动。影响中国东南部冬季降水的水汽输送主要有两支:来自西风带绕高原的南支气流,经过阿拉伯海和孟加拉湾向华南的输送水汽;来自低纬西太平洋,经南海向中国西南的水汽输送。此外,东亚冬季风与中国东南部冬季降水关系密切。 相似文献
19.
Summary In the present study the trends in frequency and duration of dry spells in six sub-regions of China were analyzed for the summer-half-year season (April–September) in period 1956–2000. A dry spell was defined as a number of consecutive days without measurable precipitation. For the frequency of short dry spells (length <10 days), significant changes are observed in the North, Northeast and Southwest China. For the frequency of long dry spells (length 10 days) there are significant trends in North and Northeast China; while no remarkable trends in frequency are found in other regions. There are also significant lengthening trends in dry spell duration in North and Northeast China, resulting mainly from the long-term changes in short dry spells. No significant change is observed for the maximum length in all regions. It is found that the temporal distribution of precipitation within the rainy season would notably impact the features of dry spells. An increase in the precipitation amount does not necessarily mean a synchronous reduction in dry spell frequency and/or duration. Seasonal mean anomalies of 500hPa heights in association with the long dry spells show similar spatial patterns over the middle to high latitudes for five of the six sub-regions (with exception of the case of Southwest China), resembling a west–east direction dipole in latitudes about 30°N northwards. For the case of Southwest China the dominant feature in 500hPa heights is the negative anomalies over most middle to high latitude Asia. Among these cases there are recognizable differences, particularly, in the tropical regions in western Pacific. That would provide useful information of circulation background for understanding the climate extremes. 相似文献
20.
基于1981-2015年中国逐日降水量加密观测资料和NCEP/NCAR再分析资料,采用主、客观相结合的方法,以天气过程为单元建立了中国95°E以东地区及其6个子区的区域性暴雨过程个例谱,进一步使用小波功率谱、9点二项式平滑及离差平方和聚类等方法剖析了中国95°E以东区域性暴雨过程的时、空分布统计特征。结果表明:(1)中国95°E以东区域性暴雨过程平均年总次数接近30次;其中,江淮流域是出现区域性暴雨过程最多的子区,平均为19次/a;其次为华南和西南地区东部,平均为10.5和5.8次/a;东北地区、华北和西北地区东部平均仅为1-3次/a。(2)中国95°E以东及各子区区域性暴雨过程次数的年及年代际变化主要表现为波动特征,各子区中江淮流域与中国95°E以东地区的年及年代际波动变化最为一致;华南与西南地区、东北地区与华北的波动变化互为显著的正相关。中国95°E以东及各子区区域性暴雨过程年总次数都表现出2-4 a的周期变化,此外,江淮流域、华南和西北地区东部还表现出6-10 a的周期变化,华北表现出13-17 a的周期变化。(3)中国95°E以东区域性暴雨过程总体呈夏季最多、冬季最少、春季多于秋季的分布特征,其中以7月出现次数最多。各子区中,江淮流域和西南地区东部区域性暴雨过程以6、7月最多,华南以5、6月最多;东北地区、华北、西北地区东部集中出现在7、8月。(4)中国95°E以东地区的极端区域性暴雨过程可划分为7种分布类型。第Ⅰ-Ⅳ型强降雨区从江南南部和华南呈阶梯状逐步北抬至黄淮和四川盆地东部一带,第Ⅴ-Ⅶ型除在东南沿海均有强降雨区外,第Ⅴ型在华南东部至江淮、第Ⅵ型在黄淮北部至东北地区中南部、第Ⅶ型在黄淮西部和华北中南部还分布有强降雨区。 相似文献