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1.
利用全国175个测站1960—1999年间的日平均气温资料,分别选取1960—1989年(气候态A)、1970—1999年(气候态B)作为气候背景,采用蒙特卡洛显著性检验法检验了这两个气候态背景下我国冬夏两季季节平均气温的差异显著性。并在此基础上利用气候百分位法分别分析了在这两个气候态背景下2000—2010年间我国冬夏两季的极端气温特征。分析结果表明,相对于夏季,冬季气候态A、B背景下季节平均气温的差异更为显著。冬夏两季,我国大部分地区极端低温事件的发生频率相对较低,而极端高温事件的发生频率相对较高。由于气候态B包含了全球变暖特征最为显著的20a,故在气候态B背景下,冬夏两季极端低(高)温事件的发生频率要高(低)于气候态A,这与全球变暖的趋势相吻合。 相似文献
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利用1948—2012年NCEP/NCAR再分析全球格点日平均资料,将南海区域(110~120 °E,10~20 °N) 850 hPa 候平均纬向风稳定地由东(西)风转为西(东)风,且同一层上稳定地有θse≥335 K(θse<335 K)确定为南海夏季风建立(结束)日期,得到近65 a南海夏季风建立、结束、持续日期序列。赤道印度洋地区的顺时针旋转的涡旋与越赤道气流及副高对南海夏季风的爆发起着决定性作用。南海夏季风建立日期与其强度的关系密切,夏季风建立越晚(早)其强度越强(弱),纬向风在对流层高层先(后)发生突变。气候变暖对南海夏季风的建立和结束日期及强度的影响是显著的,气候变暖后南海夏季风建立早(晚)年明显偏多(少),强度明显偏弱。 相似文献
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1气候突变、翻转点和不可逆在古气候和历史时期气候变化中有时会发生气候突变,近几十年全球明显变暖,引发人们对是否会发生气候突变的关注。对气候突变与翻转点和不可逆有许多定义,根据IPCC报告,气候突变(abrupt climate change)是指气候从一种稳定态(或稳定持续的变化趋势)跳跃式和快速地(几十年或更短)转变到另一种稳定态(至少稳定几十年或稳定持续的变化趋势)的现象,对人类和自然系统产生严重干扰。它表现为气候在时空上从一个统计特性到另一个统计特性的急剧变化,或地球系统非线性响应。 相似文献
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利用玉屏国家地面气象观测站1961—2016年逐日平均气温资料,采用《气候季节划分》(QX/T15—2012)方法,对玉屏县四季起始日期及长度进行分析。结果表明:(1)玉屏县常年四季起始日期:入春3月5日,入夏5月23日,入秋9月22日,入冬11月28日;四季长度:春季79 d,夏季122 d,秋季67 d,冬季97 d。(2)56 a来玉屏县春季起始日期呈提前趋势,长度呈增加趋势,两者均在20世纪90年代前后出现了转折,但未发生气候突变;夏季起始日期及长度趋势变化不明显;秋季起始日期呈推后趋势,长度变化不明显;冬季起始日期变化不明显,长度呈减少趋势;春季长度增加、冬季长度减少主要为春季起始日期提前所致。(3)玉屏县四季起始日期的年际变幅大,起始日期比常年偏早(晚)连续2候以上的异常年份,春季为23%,夏季为27%,秋季为32%,冬季为25%。(4)玉屏县春季开始后出现低于季节指标≥1候的概率达41%,表明玉屏县春季出现倒春寒天气的概率很大。(5)比较气象行标法与稳定通过法的四季起始日期及长度,气象行标法对玉屏县的四季划分更能满足于农业生产的需要。 相似文献
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文章基于乌兰察布市11个气象观测站1962—2015年地面最低温度资料,以当年日地面最低温度≤0℃初终日期作为霜冻指标计算历年初、终霜冻日期,利用线性倾向估计法、经验正交函数分解(EOF)和Mann-Kendall法等统计分析方法,分析了乌兰察布市霜冻日期空间分布特征、年际和年代际变化规律及其突变特征。结果表明:1受地形特点影响,各旗县初、终霜日期气候态差异较大;2 54a来,全市初霜冻日期呈偏晚态势,终霜冻日期呈偏早的态势,年际变率大;3初、终霜日期的EOF特征向量空间分布以前两个模态为主,方差贡献率为50%~60%;4初、终霜冻日期在20世纪90年代都发生了显著性突变,突变后初霜日期延迟了6d,终霜则提前了7d。 相似文献
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《高原气象》2015,(6)
利用1961-2012年中国2000多个气象站气温、降水量资料,对1971-2000年、1981-2010年气候态与气候标准态进行了对比,分析了不同气候态下气象要素的基本特征,并运用气候评价等级指标和极值标准对中国历年基本气象要素数据进行了定量分析。结果表明:(1)1971-2000年、1981-2010年所描述的气候态与气候标准态相比,分别表现为略偏高和略偏低,由此对气候分析和评价产生减轻或加重的影响;(2)不同气候态下,气温等级中异常偏冷的频率均增大,异常偏热的频率有所不同;(3)在分析中国同时期同类要素极端高值出现概率时,采用不同气候态分析的结果出现了截然相反的变化,然而在分析气象要素极端低值概率时则一致出现概率增多现象,1981-2010年气候态的增多现象更为明显。 相似文献
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CMIP3气候模式对东亚冬季大气环流模拟能力的评估 总被引:1,自引:0,他引:1
利用1960—1999年ECMWF月平均再分析资料(ERA40)和耦合模式比较计划(Phase 3 of the CoupledModel Intercomparison Project,简称CMIP3)21个气候耦合模式对20世纪气候模拟试验的模式结果,从气候态和年际变化两个方面,评估了CMIP3气候模式对东亚冬季大气环流的模拟能力。结果表明:(1)模式对东亚地区冬季海平面气压、850 hPa纬向风、经向风和500 hPa高度场气候态的模拟存在不同程度的偏差,但均能较好模拟出上述要素气候态的空间分布特征。总体而言,模式对500 hPa高度场气候态的模拟效果最好,而对850 hPa经向风的模拟效果较差。(2)模式基本上能抓住近40年来东亚地区冬季500 hPa高度场的主要变化特征,但基本上不能模拟出冬季海平面气压、850 hPa纬向风和经向风的变化特征。此外,模式对阿留申低压、蒙古高压和东亚冬季风强度的变化特征几乎没有模拟能力。 相似文献
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在全球变暖背景下,全面掌握甘肃省霜冻日期的变化规律,有利于提高霜冻灾害的预警能力,保护区域环境,促进气候资源合理开发。使用0 cm地面最低温度资料,采用线性倾向估计法得到霜冻日期的气候倾向率,利用Mann-Kendall法和滑动t检验法探测霜冻日期的突变时间,构建霜冻站次比表征霜冻的影响范围,利用标准差方法计算霜冻日期的稳定性,采用Hurst指数法预测霜冻日期的未来趋势,结合相关系数法分析霜冻日期的影响因素。研究表明:(1)初霜冻日期、终霜冻日期、无霜冻日数发生突变的年份分别为2002,1996和1999年。(2)霜冻日期年际变化幅度为无霜冻日数>初霜冻日期>终霜冻日期;河西变化幅度整体高于河东,对全省霜冻日期变化的贡献较大。(3)全省霜冻日期稳定性顺序为初霜冻日期>终霜冻日期>无霜冻日数,河西霜冻日期稳定性好于河东。(4)初霜冻日期、终霜冻日期、无霜冻日数分别遵循"北早南迟,西早东迟"、"北迟南早,西迟东早"、"北短南长,西短东长"的空间分布规律。(5)在未来,初霜冻日期推迟,终霜冻日期提前,无霜冻日数延长,但变化幅度略有差异,无霜冻日数>终霜冻日期>初霜冻日期;河西终霜冻日期提前达到全省平均水平,无霜冻日数或超过河东。可知,霜冻日期的迟早、长短、稳定性,是由初、终霜冻日期、海拔以及经、纬度综合作用的结果,主导因素显著性差异较大。无霜冻日数的延长,是由初、终霜冻日期稳定性变差所致。 相似文献
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Based on daily precipitation data, the spatial-temporal features of heavy rainfall events (HREs) during 1960-2009 are investigated. The results indicate that the HREs experienced strong decadal variability in the past 50 years, and the decadal features varied across regions. More HRE days are observed in the 1960s, 1980s, and 1990s over Northeast China (NEC); in the 1960s, 1970s, and 1990s over North China (NC); in the early 1960s, 1980s, and 2000s over the Huaihe River basin (HR); in the 1970s-1990s over the mid-lower reaches of the Yangtze River valley (YR); and in the 1970s and 1990s over South China (SC). These decadal changes of HRE days in eastern China are closely associated with the decadal variations of water content and stratification stability of the local atmosphere. The intensity of HREs in each sub-region is also characterized by strong decadal variability. The HRE intensity and frequency co-vary on the long-term trend, and show consistent variability over NEC, NC, and YR, but inconsistent variability over SC and HR. Further analysis of the relationships between the annual rainfall and HRE frequency as well as intensity indicates that the HRE frequency is the major contributor to the total rainfall variability in eastern China, while the HRE intensity shows only relative weak contribution. 相似文献
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Short-termClimaticFluctuationsinNorthAtlanticOscillationandFrequencyofCyclonicDisturbancesoverNorthIndianOceanandNorthwestPac... 相似文献
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虽然中国降水以年际变化为主,但可利用奇异谱分析辨析出10—20 a、20—50 a 年代际变化的显著性区域以及>50 a 的长期趋势的显著性区域。本研究通过奇异值分解、多元线性回归等方法探究了1934—2018年不同海洋模态对6—8月(夏季)和12月—翌年2月(冬季)中国陆地降水趋势以及年代际振荡的相对贡献。通过对中国降水及中低纬度地区海温进行奇异值分解发现,不论冬夏,影响中国降水的主要模态是全球变暖,其次是太平洋年代际振荡。利用多元线性回归模型定量评估全球变暖、太平洋年代际振荡、大西洋多年代际振荡对中国不同区域降水的方差贡献及各因子的相对贡献,结果表明:夏季,三者可以解释西北和华北大约30%的年代际降水,其中全球变暖的相对贡献最大、太平洋年代际振荡次之;冬季,三者可以解释东北42%、西北和华北30%左右的年代际降水,东北和西北以全球变暖的相对贡献为主、大西洋多年代际振荡为辅,华北仍以全球变暖的影响为主、太平洋年代际振荡为辅。 相似文献
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年代际气候预测计划(DCPP)是第六次国际耦合模式比较计划(CMIP6)的子计划之一,其目标是利用多模式开展气候系统年代际预测、可预测性和变率机制研究。DCPP设计了3组试验,即年代际回报试验、预报试验以及理解年代际变率机制和可预测性的敏感性试验。目前有21个模式拟参与DCPP计划,其中包括5个来自中国的模式。DCPP将推动解决气候系统从年际到年代际尺度预测相关的多项科学问题,评估当前气候预测系统预报技巧,挖掘潜在可预报性,研究长时间尺度气候变率形成机制,提供对科学和社会有用的预测产品。 相似文献
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Prediction of the Pacific sea surface temperature (SST) anomaly in the coming decades is a challenge as the SST anomaly changes over time due to natural and anthropogenic climate forcing. The climate changes in the mid-1970s and late-1990s were related to the decadal Pacific SST variability. The changes in the mid-1970s were associated with the positive phase of decadal El Niño-Southern Oscillation (ENSO)-like SST variation, and the changes in the late-1990s were related to its negative phase. However, it is not clear whether this decadal SST variability is related to any external forcing. Here, we show that the effective solar radiation (ESR), which includes the net solar radiation and the effects of volcanic eruption, has modulated this decadal ENSO-like oscillation. The eastern Pacific warming (cooling) associated with this decadal ENSO-like oscillation over the past 139 years is significantly related to weak (strong) ESR. The weak ESR with strong volcanic eruption is found to strengthen the El Niño, resulting in an El Niño-like SST anomaly on the decadal time scale. The strong eruptions of the El Chicho’n (1982) and Pinatubo (1991) volcanoes reduced the ESR during the 1980s and 1990s, respectively. The radiation reduction weakened the Walker circulation due to the “ocean thermostat” mechanism that generates eastern Pacific warming associated with a decadal El Niño-like SST anomaly. This mechanism has been confirmed by the millennium run of ECHO-G model, in which the positive eastward gradient of SST over the equatorial Pacific was simulated under the weak ESR forcing on the decadal time scale. We now experience a reversal of the trend in the ESR. The strong solar radiation and lack of strong volcanic eruptions over the past 15 years have resulted in strong ESR, which should enhance the Walker circulation, leading to a La Niña-like SST anomaly. 相似文献
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In this study,the mechanisms underlying the decadal variability of late spring precipitation in South China are investigated by using the latest Community Earth System Model version 1 (CESM1).We aim to unravel the effects of different climate forcing agents such as aerosols and greenhouse gases (GHGs) on the decadal variation of precipitation,based on transient experiments from pre-industry (for year 1850) to present-day (for year 2000).Our results reveal that:(1) CESM1 can reproduce the climatological features of atmospheric circulation and precipitation for the late spring in South China; (2) only simulations including the forcing of anthropogenic aerosols can reproduce the observed decreasing trend of late spring precipitation from 1950-2000 in South China; (3) aerosols affect the decadal change of precipitation mainly by altering the large-scale atmospheric circulation,and to a less extent by increasing the lower-tropospheric stability to inhibit the convective precipitation; and (4) in comparison,other climate forcing agents such as GHGs have much smaller effects on the decadal change of spring precipitation in South China. 相似文献
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In this study,we investigate the decadal variability of subsurface ocean temperature anomaly(SOTA)in the tropical Pacific and associated anomalous atmospheric circulation over Asia-North Pacific-North America by analyzing 50 years of atmosphere-ocean data from the National Center for Environmental Prediction(NCEP)reanalysis project and Simple Ocean Data Assimilation(SODA).Relationship between the ENSO-Like variability and climate of China is also revealed.The results show that the decadal variability of tropical Pacific SOTA has two dominant ENSO-like modes:the primary mode is an ENSO-Like mature phase pattern,and the second mode is associated with the ENSO-like transition(developing or decaying)phase.These two modes consist of a cycle of ENSO-Like variability,which exhibits a quasi-40a fluctuation,superimposed with an oscillation of a 13a period.The ENSO-Like variability in the tropical Pacific influences the atmosphere system at the mid-and higher-latitudes and subtropical regions,resulting in decadal variability of south wind over North China,the East Asian monsoon and climate of China.During the mature phase of El Ni o-Like variability,the anomalous north wind prevails over the north part of China and the East Asian monsoon weakens,with little rain in North China but much rain in the middle-and lower-reaches of the Yangtze River.With El Ni o-Like decaying(La Ni a-Like developing),anomalous northerly wind also prevails over North China,then the East Asian monsoon weakens with drought occurring in North China.The situation during the La Ni a-Like variability is the opposite.The pattern of anomalous climate of China is primarily dominated by the first ENSO-like variability,while the second mode can modulate the contribution of the first one,depending on whether its phase agrees with that of the first mode.The climate shift in China around 1978 and successive occurrence of drought for more than 20 years in North China are primarily induced by the first two ENSO-like variabilities.The latest La Ni a-Like phase starts from 1998 and will presumably end around 2018.It is expected that more rainfall would be in North China and less rainfall would appear in the middle-and lower-reaches of the Yangtze River valley during this period. 相似文献
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By using the wavelet transform method,the ENSO (2-7 a) signal and the decadal variability (8-20 a) are filtered out from the long-term SST data sets in order to investigate characteristics of the decadal variability and its impact on the ENSO.It is found that there are two different kinds of decadal SSTA modes-horseshoe and horse saddle patterns in the tropical Pacific.The horseshoe pattern represents that the decadal SSTA variability in the central Pacific is in phase with that in the eastern Pacific.The horse saddle pattern is named that they are out of phase.The former constituted the decadal variability before 1990s and the latter mainly prevailed during 1990s.As the response of atmosphere to the ocean,two decadal wind patterns appear in association with the SST decadal modes.One is characterized by anomalous development of the zonal wind,the other by anomalous development of the meridional wind.These two kinds of modes can also be regarded as different phases of the decadal oscillation.Further studies have shown that the influences of the two kinds of modes on the ENSO are different.The horse saddle mode has a stronger impact on the ENSO than the horseshoe mode.A possible mechanism for the influence of the decadal variability on the ENSO signal is presented.The central part of the thermocline along the equatorial Pacific moves up or down simultaneously with its eastern part while the decadal variability bears the horseshoe pattern.But the two segments of the thermocline in the central and eastern Pacific act oppositely while the decadal variability shows the horse saddle pattern.In this case it has an-influence on the individual ENSO'events by the superposition of the decadal variability. 相似文献
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利用1951—2012年冬季全国160个站月平均气温以及NCEP/NACR再分析资料和海温、北极海冰等资料,分析了我国冬季气温及其关键影响因子的年代际变化特征,重点研究了关键影响因子对我国冬季气温影响关系的年代际变化。研究表明:我国冬季气温在1985年之前处于冷期,之后为暖期; 我国冬季气温异常与影响因子的关系发生了显著的年代际变化,而且影响因子之间的关系也发生了显著的年代际变化。针对这种年代际变化的基本事实,提出针对冷期和暖期中不同影响因子与冬季气温的关系分时段建立冬季气温的多因子回归预测模型,可以反映冬季气温及其影响因子关系的年代际变化特征。正确的预测策略是利用相同年代际背景下预测对象与预测因子的时间序列资料建立预测模型,以确保预测模型中反映的预测对象与预测因子关系的稳定性,进而保持较高的拟合及预测水平。 相似文献
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Observed,reconstructed, and simulated decadal variability of summer precipitation over eastern China 总被引:2,自引:0,他引:2 
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下载免费PDF全文 Jingyun Zheng Maowei Wu Quansheng Ge Zhixin Hao Xuezhen Zhang 《Acta Meteorologica Sinica》2017,31(1):49-60
Based on observations made during recent decades, reconstructed precipitation for the period A.D. 1736–2000, dry–wet index data for A.D. 500–2000, and a 1000-yr control simulation using the Community Earth System Model with fixed pre-industrial external forcing, the decadal variability of summer precipitation over eastern China is studied. Power spectrum analysis shows that the dominant cycles for the decadal variation of summer precipitation are: 22–24 and quasi-70 yr over the North China Plain; 32–36, 44–48, and quasi-70 yr in the Jiang–Huai area; and 32–36 and 44–48 yr in the Jiang–Nan area. Bandpass decomposition from observation, reconstruction, and simulation reveals that the variability of summer precipitation over the North China Plain, Jiang–Huai area, and Jiang–Nan area, at scales of 20–35, 35–50, and 50–80 yr, is not consistent across the entire millennium. We also find that the warm (cold) phase of the Pacific Decadal Oscillation generally corresponds to dry (wet) conditions over the North China Plain, but wet (dry) conditions in the Jiang–Nan area, from A.D. 1800, when the PDO became strengthened. However, such a correspondence does not exist throughout the entire last millennium. Data–model comparison suggests that these decadal oscillations and their temporal evolution over eastern China, including the decadal shifts in the spatial pattern of the precipitation anomaly observed in the late 1970s, early 1990s, and early 2000s, might result from internal variability of the climate system. 相似文献