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1.
云南夏季降水年际变化较大,影响因子众多,夏季降水的预测较为困难。使用1965—2017年云南省122个气象观测站的逐日降水资料和NCEP大气环流资料,采用年际增量的方法来预测云南夏季降水。文中基于云南夏季降水年际增量变化规律和影响夏季降水的环流形势及物理过程,选取了6个具有物理意义的预测因子,包括:前期2月南太平洋海温异常、前期2月东亚北部海平面气压异常、前期4月北美500hPa位势高度异常、前期5月太平洋北部海平面气压异常、前期1月印度半岛北部500hPa位势高度异常及前期2月澳洲以南地区200hPa高度场偶极子异常,来建立云南夏季降水预测模型。并对预测模型进行逐年交叉检验和1998—2017年逐年独立样本检验。交叉检验中夏季降水年际增量预测值和观测值的相关系数为0.85,相对均方根误差为8.0%。回报检验中夏季降水年际增量的相对均方根误差为9.1%,63.0%的异常年份预测值能够准确地预报出夏季降水异常。该预测模型有较好的预测能力。 相似文献
2.
年际增量方法在西南夏季降水预测中的应用 总被引:1,自引:0,他引:1
利用中国西南地区80站逐月降水资料及NCEP/NCAR再分析资料等,采用降水预测新方法——年际增量法,考察影响中国西南地区夏季降水年际增量的前期冬、春季大气环流年际增量状况,并选取5个关键影响因子,采用多元回归法建立中国西南夏季降水年际增量预测模型。对降水年际增量进行预测,在1971—2010年的建模阶段,预测模型的拟合率为0.78,在2011—2017的后报检验7年中,有6年与实况值同位相。后报检验2011—2017年的降水距平百分率,均方根误差为16%。为考察对降水异常分布型的预报效果,逐站建立回归方程,并进行趋势预报检验,近5年的趋势异常综合评分高于发布预测,预报效果较好。因此,该方法的应用及模型的建立对提高西南地区夏季降水预测水平有重要意义。 相似文献
3.
中国夏季降水大幅度月际尺度变化往往造成极端旱涝事件交替或转折,但其月际异常会被季节平均掩盖,影响季节尺度气候预测准确度,因此亟需考虑月际气候预测,提升月际—季节尺度气候预测准确度。本文首先采用年际增量和场信息耦合型预测方法研制中国夏季6~8月月际尺度降水动力和统计结合气候预测模型,之后根据月际尺度降水预测,开展季节平均降水预测。首先,基于前期观测信息和美国第二代气候预测系统(CFSv2)预测结果,选取前期12月观测的南太平洋中高纬关键区海温、1月北极关键区海冰密集度以及CFSv2预测系统2月起报的夏季同期关键区海温作为月际尺度降水预测因子,分别研制以上具有物理意义的单预测因子预测模型,并采用奇异值分解(SVD)误差订正方法对其改进;之后,利用多因子择优集合方案,研制预测效能较高且稳定的中国160站夏季月际尺度降水动力和统计结合预测模型,进而基于月际尺度预测开展夏季季节平均气候预测。1983~2022年夏季(6~8月)中国160站逐月降水预测模型的交叉检验结果表明:逐月回报与观测降水距平百分率的时间相关系数通过90%置信水平的站点占比分别为90%,88%,82%,多年平均的空间相关系数分... 相似文献
4.
北太平洋涛动与淮河流域夏季降水异常的关系 总被引:9,自引:0,他引:9
研究了北太平洋涛动(NPO)与淮河流域夏季降水异常的关系。结果表明:冬季北太平洋涛动与次年夏季我国淮河流域降水异常呈明显的负相关:强(弱)涛动年,次年夏季淮河流域降水偏少(多)。进一步研究表明,1976年冬季NPO突变前,冬季北太平洋涛动指数(North Pacific Oscilla-tion index,INPO)与次年夏季淮河流域降水的负相关显著;突变后,负相关明显减弱;冬季INPO对淮河流域夏季降水预测的参考意义在突变前较好,在突变后减弱。 相似文献
5.
利用1980—2016年第二松花江流域(SSR)夏季(6—8月)平均降水量资料、NCEP/NCAR再分析月平均环流场资料、NOAA的月平均海温场资料,采用年际增量预测方法,通过分析与SSR夏季降水年际增量相关的环流及海温,确定了超前12个月内的6个预测因子,包括:11月东亚200hPa纬向风、12月西藏高原-2指数、12月赤道中东太平洋200hPa纬向风、2月印度洋海温、10月西太平洋暖池海温、4月东亚100hPa经向风。在此基础上利用这 6个预测因子,利用1980—2010资料建立SSR夏季降水年际增量的统计预测模型,最后根据年际增量给出SSR夏季降水的预测结果。经检验,1981—2010年,SSR夏季降水年际增量的预测拟合系数是0.83,SSR夏季降水预测结果拟合系数为0.67,SSR夏季降水预测结果相对均方根误差为15%,均通过了显著性检验;对2011—2016年进行试报实验,该模型也很好的预测出降水的年际增量变化趋势,除2014年以外,SSR夏季降水预测结果相对均方根误差绝对值都控制在23%以内,2016年仅为-9.9%。因此,通过预测降水的年际增量,进而再预测降水的方法,具有一定的预测技巧,可作为有效方法投入实际业务应用。 相似文献
6.
基于旋转经验正交函数分解 (REOF) 方法探讨淮河流域1961—2010年夏季降水与厄尔尼诺/南方涛动 (ENSO)、北大西洋涛动 (NAO)、印度洋偶极子 (IOD)、太平洋年代际振荡 (PDO) 之间的关系,并进一步分析各气候因子不同位相单独以及联合对淮河流域夏季降水的影响。结果表明:淮河流域夏季降水与ENSO,PDO,NAO,IOD等气候因子具有较稳定的相关性,其中,PDO和IOD是影响淮河流域夏季降水的关键因子,且PDO与夏季降水呈显著负相关关系;各气候因子的冷暖位相单独及联合对淮河流域夏季降水的影响不同,PDO的冷期以及NAO,IOD冷位相使流域北部的夏季降水量呈显著增加趋势,PDO分别联合ENSO,NAO和IOD的冷、暖位相对流域北部地区和淮河上游地区的夏季降水影响显著。 相似文献
7.
基于土壤湿度和年际增量方法的我国夏季降水预测试验 总被引:1,自引:0,他引:1
选取欧亚大陆9个关键区的土壤湿度年际增量作为预测因子,采用变形的典型相关分析(BP-CCA)结合集合典型相关分析(ECC)方法建立集合预测模型,对我国东部夏季降水的年际增量进行预测,进而预测夏季降水。其中,1980~2004年的资料用于历史预测试验,而2005~2014年的资料用于独立样本预测试验。首先利用BP-CCA方法对9个因子分别建立单因子预测模型,然后采用ECC方法对9个预测因子按照不同的组合方式建立集合预测模型,并且对独立样本检验的效果进行了评估。结果表明,不同预测因子的组合对我国夏季降水均表现出一定的预测能力:东欧平原、贝加尔湖以北、我国河套地区及长江以南地区的土壤湿度对华北夏季降水预测效果较好;而巴尔喀什湖以北地区、我国西北地区、河套地区以及长江以南地区的土壤湿度对江淮夏季降水有较好预测效果;东欧平原、巴尔喀什湖以北地区以及我国河套地区的土壤湿度对华南降水预测技巧较高。这三组模型预测出的降水变化趋势与相应区域的观测结果较为一致,且预测评分(PS)均超过70分,距平相关系数(ACC)均为正值。研究表明土壤湿度因子中包含了对我国夏季降水有用的预测信号,可以考虑将土壤湿度应用于夏季降水的预测业务中。 相似文献
8.
北极涛动对东亚夏季降水的预测意义 总被引:11,自引:0,他引:11
分析了春季北极涛动(AO)指数的变化对梅雨—Changma——Baiu带夏季降水年际变化的影响。对观测的东亚10个站的降水长序列资料(1899—1999年),进行滤波处理,保留10年以下的年际时间尺度的变化,再进行相关分析。结果表明,近百年的5月北极涛动指数与10站夏季平均降水相关最高达—0.45,超过99%信度水平。当北极涛动偏强一个标准差时,整个长江中下游地区到日本南部一带,降水减少平均约8%左右。降水的这种变化与对流层东亚急流的变化密切相关:春季北极涛动强时,随后夏季急流位置通常偏北,雨带位置也北移,从而造成梅雨—Changma——Baiu带降水减少,反之亦然。较强的AO异常对降水的影响更明显,而较弱的AO与降水异常的对应关系并不显著。这对东亚夏季年际降水异常具有一定的预测意义。 相似文献
9.
对近五十年全球海平面气压场和我国夏季降水资料进行奇异值分解,得到海平面气压场与夏季降水的分布特征及其反映年际变化的关键区,据此分别构造了春季(3~5月)经向气压指数(IMP)、纬向气压指数(IZP).结果表明长江中下游夏季旱涝的发生与前期春季的环流异常有关,春季IMP和IZP与长江中下游夏季降水有很好的相关性,并能有效地反映极端降水(旱/涝)情况.在强(弱)气压指数年,长江中下游地区降水偏多(少).同时两气压指数与华南地区夏季降水有显著的负相关,这与我国东部长江中下游与华南地区降水负相关相一致.因此,春季IMP和IZP具有预报意义. 相似文献
10.
多因子和多尺度合成中国夏季降水预测模型及预报试验 总被引:10,自引:4,他引:6
根据青藏高原60个站平均的月积雪深度、热带太平洋Nino 3区月海温和中国160个站月降水量等资料,用小波变换和相关分析,分析了1958~1998年秋冬季青藏高原异常雪盖与El Nino-南方涛动(ENSO)的关系、多时间尺度变化的特征及其与中国夏季降水的相关型式.并取青藏高原积雪和Nino 3区海温的年际变化、年代际变化和线性趋势三种不同时间尺度的小波分量作为预报因子,对我国夏季降水距平作线性回归,建立了相应的预测模型.最后,利用1999~2002年的独立资料进行了预报试验,并在2003年和2004年应用于实际预报.研究表明,青藏高原雪盖与ENSO这两个物理因子彼此具有一定的独立性.它们都是多时间尺度现象,并与中国夏季降水有较好的关系.在不同时间尺度上不仅有不同的相关型式,而且相对贡献也有变化.回归预测模型的拟合情况和预报试验表明,综合考虑前期秋冬季青藏高原雪盖和ENSO这两个物理因子的年际变化、年代际变化和线性趋势作为预报因子建立的预测我国夏季降水距平分布的模型,有一定的预报能力. 相似文献
11.
Summary An investigation of the relationships between New South Wales (NSW) seasonal rainfalls and fluctuations of geopotential height at four Australian radiosonde stations is presented. The connection between the Southern Oscillation Index (SOI) and the geopotential height was explored up to the mid-troposphere. The study determined that the 800 and 600 hPa heights at Woomera show stronger and more consistent correlations with winter and spring rainfalls respectively, than occur between SOI and rainfall. The 900 hPa height at Brisbane is also strongly correlated with autumn rainfall for much of coastal NSW. These correlations are found to be stable during high and low phases of the SO cycle. It was found that the effects of the considered geopotential data on rainfall are independent of the influence of the SO phenomenon. The study also found that the fluctuations of geopotential heights at Woomera are related to rainfall variability over a wide region of southern Australia. At Darwin the 800 hPa surface appears to be the highest altitude at which there is any influence from the Southern Oscillation during winter. Furthermore, airmass movement over inland NSW is quite strongly related to SOI but coastal airmass movement is only weakly related to SOI. A mechanism for the influence of the Southern Oscillation on NSW rainfall is suggested.With 9 Figures 相似文献
12.
Seasonal Prediction of Summer Temperature over Northeast China Using a Year-to-Year Incremental Approach 总被引:4,自引:0,他引:4 
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下载免费PDF全文 We present a model for predicting summertime surface air temperature in Northeast China (NESSAT) using a year-to-year incremental approach. The predicted value for each year's increase or decrease of NESSAT is added to the observed value within a particular year to yield the net forecast NESSAT. The seasonal forecast model for the year-to-year increments of NESSAT is constructed based on data from 1975-2007. Five predictors are used: an index for sea ice cover over the East Siberian Sea, an index for central Pacific tropical sea surface temperature, two high latitude circulation indices, as well as a North American pressure index. All predictors are available by no later than March, which allows for compilation of a seasonal forecast with a two-month lead time. The prediction model accurately captures the interannual variations of NESSAT during 1977-2007 with a correlation coefficient between the predicted and observed NESSAT of 0.87 (accounting for 76% of total variance) and a mean absolute error (MAE) of 0.3℃. A cross-validation test during 1977 2008 demonstrates that the model has good predictive skill, with MAE of 0.4℃ and a correlation coefficient between the predicted and observed NESSAT of 0.76. 相似文献
13.
2005年北半球大气环流特征及其对中国气候异常的影响 总被引:3,自引:0,他引:3
2005年北半球主要环流特征为,500hPa西太平洋副热带高压较常年明显偏强,位置总体偏西偏北,春季副高位置异常偏西;东亚地区夏季500hPa位势高度距平场上大部地区为正距平分布,贝加尔湖南部为正距平中心。亚洲中纬度经、纬向环流交替出现,冬季经向环流异常发展,造成我国东部地区气温异常偏低;夏李纬向环流发展,同时东亚夏季风偏强,汛期主要雨带位置位于淮河流域。冬、春李热带对流活动减弱,入夏以后迅速加强,台风活动活跃。热带海洋为暖水位相。在海洋和大气环流的共同影响下我国天气气候发生了明显异常。 相似文献
14.
A new prediction model for grain yield in Northeast China based on spring North Atlantic Oscillation and late-winter Bering Sea ice cover 下载免费PDF全文
下载免费PDF全文 Accurate estimations of grain output in the agriculturally important region of Northeast China are of great strategic significance for guaranteeing food security. New prediction models for maize and rice yields are built in this paper based on the spring North Atlantic Oscillation index and the Bering Sea ice cover index. The year-to-year increment is first forecasted and then the original yield value is obtained by adding the historical yield of the previous year. The multivariate linear prediction model of maize shows good predictive ability, with a low normalized root-mean-square error (NRMSE) of 13.9%, and the simulated yield accounts for 81% of the total variance of the observation. To improve the performance of the multivariate linear model, a combined forecasting model of rice is built by considering the weight of the predictors. The NRMSE of the model is 12.9% and the predicted rice yield explains 71% of the total variance. The corresponding cross-validation test and independent samples test further demonstrate the efficiency of the models. It is inferred that the statistical models established here by applying year-to-year increment approach could make rational prediction for the maize and rice yield in Northeast China before harvest. The present study may shed new light on yield prediction in advance by use of antecedent large-scale climate signals adequately. 相似文献
15.
Seasonal prediction skill of ECMWF System 4 and NCEP CFSv2 retrospective forecast for the Northern Hemisphere Winter 总被引:1,自引:1,他引:0
The seasonal prediction skill for the Northern Hemisphere winter is assessed using retrospective predictions (1982–2010) from the ECMWF System 4 (Sys4) and National Center for Environmental Prediction (NCEP) CFS version 2 (CFSv2) coupled atmosphere–ocean seasonal climate prediction systems. Sys4 shows a cold bias in the equatorial Pacific but a warm bias is found in the North Pacific and part of the North Atlantic. The CFSv2 has strong warm bias from the cold tongue region of the eastern Pacific to the equatorial central Pacific and cold bias in broad areas over the North Pacific and the North Atlantic. A cold bias in the Southern Hemisphere is common in both reforecasts. In addition, excessive precipitation is found in the equatorial Pacific, the equatorial Indian Ocean and the western Pacific in Sys4, and in the South Pacific, the southern Indian Ocean and the western Pacific in CFSv2. A dry bias is found for both modeling systems over South America and northern Australia. The mean prediction skill of 2 meter temperature (2mT) and precipitation anomalies are greater over the tropics than the extra-tropics and also greater over ocean than land. The prediction skill of tropical 2mT and precipitation is greater in strong El Nino Southern Oscillation (ENSO) winters than in weak ENSO winters. Both models predict the year-to-year ENSO variation quite accurately, although sea surface temperature trend bias in CFSv2 over the tropical Pacific results in lower prediction skill for the CFSv2 relative to the Sys4. Both models capture the main ENSO teleconnection pattern of strong anomalies over the tropics, the North Pacific and the North America. However, both models have difficulty in forecasting the year-to-year winter temperature variability over the US and northern Europe. 相似文献
16.
Extreme value analysis in the Danube lower basin discharge time series in the twentieth century 总被引:1,自引:0,他引:1
The daily discharge time series in the lower Danube basin (Orsova) have been considered for the 1900–2005 period. The extreme value theory (EVT) is applied for the study of daily discharges incorporating some covariates. Two methods are applied for fitting the data to an extreme value distribution: block maxima and peaks over thresholds (POT). Using the block maxima approach associated with the use of the generalised extreme value (GEV) distribution, monthly and seasonal maxima of daily discharge for 1900–2005 have been analysed. Separately the monthly maxima of daily discharge for the 1958–2001 was analysed in order to be compatible with atmospheric circulation available from ERA-40. For performing parameter estimation, the maximum likelihood estimation (MLE) method was used. From the three possible types of GEV distribution, a Weibull distribution fits both the monthly and seasonal maxima of the daily discharges very well. The North Atlantic Oscillation (NAO) and the first ten principal components (PC) of the decomposition in multi-variate empirical orthogonal functions (MEOF) of three atmospheric fields (sea level pressure, 500 hPa and 500–1000 hPa thickness) over the Atlantic-European region (ERA-40), have been introduced as covariates. An improvement over the model without the covariate is found by incorporating NAO as the covariate in location parameter, especially for the spring maxima having the NAO as predictor during the winter. Related to atmospheric circulation influence, the most significant results are obtained by incorporating the first 10 PCs of the MEOF in the location parameter of GEV distribution within a month before the month of the discharge level. Regarding the POT approach associated with generalised Pareto distribution (GPD), different thresholds have been tested for daily discharges in the period 1900–2005, where the maxima were fitted by a bounded (or beta) distribution. 相似文献
17.
该研究利用1961—2015年贵州省逐日雨凇观测资料,NCEP/NCAR海平面气压场和500 h Pa高度场逐月再分析资料,以及NOAA ERSSTV4逐月海表温度资料,初步构建了贵州省冬季雨凇灾害预测模型。模型主要量化为以下指标:雨凇灾害偏强/弱时,对应500 h Pa位势高度异常场正/负(50~70°N、40~80°E)和负/正(20~40°N、60~100°E),对应海平面气压异常场正/负(45~65°N、40~80°E),对应前期秋季北大西洋关键区(25~35°N,60~40°W)的海表温度异常为负/正异常。且强雨凇年时,该模型的可信度更高。利用该模型,本研究展开了对2016年冬季雨凇强度的试报,试报结果为强度偏弱,与实况场吻合,表明该模型有一定的参考价值。 相似文献
18.
FAN Ke 《大气和海洋科学快报》2009,2(5):251-254
The year-to-year increment prediction approach proposed by was applied to forecast the annual number of tropical cyclones (TCs) making landfall over China.The year-to-year increase or decrease in the number of land-falling TCs (LTCs) was first predicted to yield a net number of LTCs between successive years.The statistical prediction scheme for the year-to-year increment of annual LTCs was developed based on data collected from 1977 to 2007,which includes five predictors associated with high latitude circulations in both Hemispheres and the circulation over the local,tropical western North Pacific Ocean.The model shows reasonably high predictive ability,with an average root mean square error (RMSE) of 1.09,a mean absolute error (MAE) of 0.9,and a correlation coefficient between the predicted and observed annual number of LTCs of 0.86,accounting for 74% of the total variance.The cross-validation test further demonstrated the high predictive ability of the model,with an RMSE value of 1.4,an MAE value of 1.2,and a correlation coefficient of 0.74 during this period. 相似文献