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1.
利用全球环流模式进行我国汛期短期气候预测的试验 总被引:11,自引:2,他引:9
利用OSU/NCC全球大气环流模式耦合全球混合层海洋与海冰模式,采用集合预报的方法,对中国汛期降水进行了1982~1995年共14年的跨季度综合性回报检验研究。结果表明,该模式对我国汛期降水具有一定的跨季度预报能力,对部分地区(江淮至华东沿海、东北部分地区等)有较强的预报能力。 相似文献
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EXTRA-SEASONAL PREDICTIONS OF SUMMER RAINFALL IN CHINA AND ENSO IN 2001 BY CLIMATE MODELS* 
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下载免费PDF全文 China is a monsoon country.The most rainfalls in China concentrate on the summer seasons.More frequent floods or droughts occur in some parts of China.Therefore,the prediction of summer rainfall in China is a significant issue.As we know,the obvious impacts of the sea surface temperature anomalies(SSTA)on the summer rainfall over China have been noticed.The predictions of the SSTA have been involved in the research.The key project on short-term climate modeling prediction system has been finished in 2000.The system included an atmospheric general circulation model named AGCM95,a coupled atmospheric-oceanic general circulation model named AOGCM95,a regional climate model over China named RegCM95,a high-resolution Indian-Pacific OGCM named IPOGCM95,and a simplified atmosphere-ocean dynamic model system named SAOMS95.They became the operational prediction models of National Climate Center(NCC).Extra-seasonal predictions in 2001 have been conducted by several climate models,which were the AGCM95,AOGCM95,RegCM95,IPOGCM95,AIPOGCM95,OSU/NCC,SAOMS95,IAP APOGCM and CAMS/ZS.All of those models predicted the summer precipitation over China and/or the annual SSTA over the tropical Pacific Ocean in the Modeling Prediction Workshop held in March 2001.The assessments have shown that the most models predicted the distributions of main rain belt over Huanan and parts of Jiangnan and droughts over Huabei-Hetao and Huaihe River Valley reasonably.The most models predicted successfully that a weaker cold phase of the SSTA over the central and eastern tropical Pacific Ocean would continue in 2001.The evaluations of extra-seasonal predictions have also indicated that the models had a certain capability of predicting the SSTA over the tropical Pacific Ocean and the summer rainfall over China.The assessment also showed that multi-model ensemble(super ensembles)predictions provided the better forecasts for both SSTA and summer rainfall in 2001,compared with the single model.It is a preliminary assessment for the extra-seasonal predictions by the climate models.The further investigations will be carried out.The model system should be developed and improved. 相似文献
4.
EXTRA-SEASONAL PREDICTIONS OF SUMMER RAINFALL IN CHINA AND ENSO IN 2001 BY CLIMATE MODELS 总被引:3,自引:0,他引:3
China is a monsoon country.The most rainfalls in China concentrate on the summer seasons.More frequent floods or droughts occur in some parts of China.Therefore,the prediction ofsummer rainfall in China is a significant issue.As we know,the obvious impacts of the sea surfacetemperature anomalies(SSTA)on the summer rainfall over China have been noticed.Thepredictions of the SSTA have been involved in the research.The key project on short-term climate modeling prediction system has been finished in 2000.The system included an atmospheric general circulation model named AGCM95,a coupledatmospheric-oceanic general circulation model named AOGCM95,a regional climate model overChina named RegCM95,a high-resolution Indian-Pacific OGCM named IPOGCM95,and asimplified atmosphere-ocean dynamic model system named SAOMS95.They became theoperational prediction models of National Climate Center(NCC).Extra-seasonal predictions in 2001 have been conducted by several climate models,which werethe AGCM95,AOGCM95,RegCM95,IPOGCM95,AIPOGCM95,OSU/NCC,SAOMS95,IAPAPOGCM and CAMS/ZS.All of those models predicted the summer precipitation over China and/or the annual SSTA over the tropical Pacific Ocean in the Modeling Prediction Workshop held inMarch 2001.The assessments have shown that the most models predicted the distributions of main rain beltover Huanan and parts of Jiangnan and droughts over Huabei-Hetao and Huaihe River Valleyreasonably.The most models predicted successfully that a weaker cold phase of the SSTA over thecentral and eastern tropical Pacific Ocean would continue in 2001.The evaluations of extra-seasonal predictions have also indicated that the models had a certaincapability of predicting the SSTA over the tropical Pacific Ocean and the summer rainfall overChina.The assessment also showed that multi-model ensemble(super ensembles)predictionsprovided the better forecasts for both SSTA and summer rainfall in 2001,compared with the singlemodel.It is a preliminary assessment for the extra-seasonal predictions by the climate models.Thefurther investigations will be carried out.The model system should be developed and improved. 相似文献
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西太平洋副热带高压强度和东亚地表热通量的年代际变化特征及关系 总被引:2,自引:0,他引:2
利用NCEP/NCAR的月平均再分析资料以及中国国家气候中心的西太平洋副热带高压(副高)强度资料,分析了西太平洋副高强度、500hPa环流场以及东亚地表感热、潜热通量场的年代际变化特征,发现各个季节的西太平洋副高强度及其环流形势均存在一定的年代际变化,变化发生的时间为1978年前后,20世纪70年代中期以后副高强度有所增强。副高强度在季节间的延续性也发生了一定的年代际变化,1978年以后季节间的延续性增强,全时段的延续性受后一时段的影响较大。东亚地表感热、潜热通量场也存在明显的年代际变化,感热通量的变化关键区在大陆上,主要为青藏高原东、西部,其发生年代际变化要早于西太平洋副高强度变化的时间(20世纪60年代中后期),但它们发生差异变化的时间则接近西太平洋副高强度发生年代际变化的时间,在20世纪60年代中后期以前,高原感热通量体现为稳定的西高东低,而20世纪70年代中期以后则转为稳定的东高西低,其中,近10年时间为调整过渡期,因此,它们各自的年代际变化所造成的影响会有所滞后。潜热通量的变化关键区则位于海洋上,主要是西太平洋地区,1978年以前春季地表潜热通量距平为南正北负,之后转为南负北正,而夏季潜热通量距平则... 相似文献
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中国业务动力季节预报的进展 总被引:26,自引:9,他引:26
利用动力模式开展季节到年际的短期气候预测 ,是目前国际上气候预测的发展方向。自 1996年以来 ,经过 8a多的研制和发展 ,国家气候中心已建立起第 1代动力气候模式预测业务系统 ,其中包括 1个全球大气 海洋耦合模式 (CGCM )、1个高分辨率东亚区域气候模式 (RegCM_NCC)和 5个简化的ENSO预测模式 (SAOMS) ,可用于季节—年际时间尺度的全球气候预测 ;全球海气耦合模式与区域气候模式嵌套 ,可以提供高分辨率的东亚区域气候模式制做季节预测。CGCM对 1982~ 2 0 0 0年夏季的历史回报试验表明 ,该模式对热带太平洋海表面温度和东亚区域的季节预测具有较好的预测能力。RegCM NCC的 5a模拟基本上能再现东亚地区主要雨带的季节进展。利用嵌套的区域气候模式RegCM NCC对 1991~ 2 0 0 0年的夏季回报表明 ,在预报主要季节雨带方面有一定技巧。 2 0 0 1~ 2 0 0 3年 ,CGCM和RegCM NCC的实时季节预报与观测相比基本合理。特别是 ,模式成功地预报了 2 0 0 3年梅雨季节长江和黄河之间比常年偏多的降水。SAOMS模式系统的回报试验表明 ,该系统对热带太平洋海表面温度距平有一定的预报能力 ,模式超前 6~ 12个月的回报与观测的相关系数明显高于持续预报。 1997~ 2 0 0 3年 ,SAOMS多模式集合实时预报与观测的相关系数达到 相似文献
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热带大气季节内振荡 (Madden-Julian oscillation,MJO) 是次季节-季节时间尺度气候变率的支配模态。它不仅对低纬度地区天气气候产生重要影响,还能够通过经向传播和激发大气遥相关波列对中高纬度地区产生影响,是延伸期尺度最重要的可预报性来源。因此,MJO预报是次季节-季节气候预测中极为重要的部分,近年来受到国际学术界广泛关注。该文回顾了MJO预报发展历史,概述了当前国际上主要科研业务机构的MJO预报发展现状。目前基于统计方法和气候模式的MJO预报研究取得了较大进展,特别是多个耦合气候模式和一种基于时空投影方法的统计模型均能够显著提升MJO预报技巧 (有效预报可达20 d以上)。该文还介绍了中国气象局国家气候中心在MJO预报技术发展和业务系统研制方面的新进展,当前基于第2代大气环流模式的MJO业务预报填补了国内空白,技巧为16~17 d,而耦合气候模式试验的技巧已达到约20 d。总体来看,利用耦合模式预报MJO是未来发展的主要方向,其中,面向MJO的模式初始化和集合预报新方法研究将是关注重点。 相似文献
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多模式集合和降尺度技术是提升模式预测能力的有效工具。该文对国家气候中心多模式解释应用集成预测 (MODES) 技术与业务应用现状进行了综合介绍。MODES采用欧洲中期天气预报中心、东京气候中心、美国国家环境预报中心和中国气象局国家气候中心4个气候业务季节预测模式输出场,利用EOF迭代、变形的典型相关分析、最优子集回归和高相关回归集成4种统计降尺度方法以及等权平均、经典超级集合等集成方法进行全国月及季节降水和气温预测。目前对MODES进行了夏季回报检验和约1年的实时业务应用。回报检验和业务应用表明,MODES对气温有较好的预测能力 (月预测平均PS评分为76),对降水有一定预测技巧 (月预测平均PS评分为68),具有短期气候预测业务应用价值。 相似文献
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最优多因子动态配置的东北汛期降水相似动力预报试验 总被引:4,自引:0,他引:4
基于中国气象局国家气候中心季节预报业务模式27a(1983—2009年)预报结果和同期美国气候预报中心组合降水分析(CMAP)资料及国家气候中心气候系统诊断预报室74项环流指数和NOAA40个气候指数(1951—2009年),提出了客观定量化的最优多因子动态配置汛期降水相似-动力预测新技术,并对中国东北地区汛期降水进行了预报试验。利用历史资料有用信息估算模式预报误差原理,选取4个历史相似年对应模式误差来估算当前模式预报误差。通过单因子交叉检验距平相关系数确定主导因子及演化相似因子,结合当前及前期优化多因子组合配置确定预报因子集,最后利用历史相似年对应模式误差来估算当前模式预报误差并订正国家气候中心季节预报业务模式的预报结果,得到预报的汛期降水。对2005—2009年进行独立样本检验的结果表明,此技术对中国东北地区汛期降水有一定预报技巧。证实了利用历史资料估计业务模式预报误差的另类途径是可行的,显示了在业务预报应用中的潜在能力。 相似文献
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Analogue-dynamical prediction of monsoon precipitation in Northeast China based on dynamic and optimal configuration of multiple predictors 下载免费PDF全文
下载免费PDF全文 Based on the National Climate Center (NCC) of China operational seasonal prediction model results for the period 1983–2009
and the US National Weather Service Climate Prediction Center merged analysis of precipitation in the same period, together
with the 74 circulation indices of NCC Climate System Diagnostic Division and 40 climate indices of NOAA of US during 1951–2009,
an analogue-dynamical technique for objective and quantitative prediction of monsoon precipitation in Northeast China is proposed
and implemented. Useful information is extracted from the historical data to estimate the model forecast errors. Dominant
predictors and the predictors that exhibit evolving analogues are identified through cross validating the anomaly correlation
coefficients (ACC) among single predictors, meanwhile with reference of the results from the dynamic analogue bias correction
using four analogue samples. Next, an optimal configuration of multiple predictors is set up and compared with historical
optimal multi-predictor configurations and then dynamically adjusted. Finally, the model errors are evaluated and utilized
to correct the NCC operational seasonal prediction model results, and the forecast of monsoon precipitation is obtained at
last. The independent sample validation shows that this technique has effectively improved the monsoon precipitation prediction
skill during 2005–2009. This study demonstrates that the analogue-dynamical approach is feasible in operational prediction
of monsoon precipitation. 相似文献
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A modified version of the NCAR/RegCM2 has been developed at the National Climate Center (NCC), China Meteorological Administration, through a series of sensitivity experiments and multi-year simulations and hindcasts, with a special emphasis on the adequate choice of physical parameterization schemes suitable for the East Asian monsoon climate. This regional climate model is nested with the NCC/IAP (Institute of Atmospheric Physics) T63 coupled GCM to make an experimental seasonal prediction for China and East Asia. The four-year (2001 to 2004) prediction results are encouraging. This paper is the first part of a two-part paper, and it mainly describes the sensitivity study of the physical process paraxneterization represented in the model. The systematic errors produced by the different physical parameterization schemes such as the land surface processes, convective precipitation, cloud-radiation transfer process, boundary layer process and large-scale terrain features have been identified based on multi-year and extreme flooding event simulations. A number of comparative experiments has shown that the mass flux scheme (MFS) and Betts-Miller scheme (BM) for convective precipitation, the LPMI (land surface process model I) and LPMII (land surface process model Ⅱ) for the land surface process, the CCM3 radiation transfer scheme for cloud-radiation transfer processes, the TKE (turbulent kinetic energy) scheme for the boundary layer processes and the topography treatment schemes for the Tibetan Plateau are suitable for simulations and prediction of the East Asia monsoon climate in rainy seasons. Based on the above sensitivity study, a modified version of the RegCM2 (RegCM_NCC) has been set up for climate simulations and seasonal predictions. 相似文献
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Development of a Downscaling Method in China Regional Summer Precipitation Prediction 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 A downscaling method taking into account of precipitation regionalization is developed and used in the
regional summer precipitation prediction (RSPP) in China. The downscaling is realized by utilizing the
optimal subset regression based on the hindcast data of the Coupled Ocean-Atmosphere General Climate
Model of National Climate Center (CGCM/NCC), the historical reanalysis data, and the observations. The
data are detrended in order to remove the influence of the interannual variations on the selection of predictors
for the RSPP. Optimal predictors are selected through calculation of anomaly correlation coe±cients (ACCs)
twice to ensure that the high-skill areas of the CGCM/NCC are also those of observations, with the ACC
value reaching the 0.05 significant level. One-year out cross-validation and independent sample tests indicate
that the downscaling method is applicable in the prediction of summer precipitation anomaly across most
of China with high and stable accuracy, and is much better than the direct CGCM/NCC prediction. The
predictors used in the downscaling method for the RSPP are independent and have strong physical meanings,
thus leading to the improvements in the prediction of regional precipitation anomalies. 相似文献
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利用1979—2015年中国国家气候中心整编的160站月平均气温和NCEP/NCAR全球大气再分析资料,从1979/1980—2008/2009年冬季前期500 h Pa高度场、200 h Pa势函数和850 h Pa势函数场选择预测因子,考虑不同时效因子的组合及其独立性,综合应用多因子回归集合、交叉检验集合、逐月滚动集合,建立了针对中国冬季气温的逐月滚动预测模型,并利用该模型对2010/2011—2014/2015年冬季气温进行了独立预测试验和检验。结果表明,综合运用多种集合可提高短期气候客观定量预测的可行性和稳定性。多因子回归集合能增加可预测站点数,交叉检验集合可减少因统计关系不稳定而产生的对预报效果的影响,逐月滚动集合的应用不仅增加了可预测站点数,而且使预测效果更加稳定。本文建立的预测模型可对中国冬季气温进行长时效的预测,且有一定的预报技巧,对实际的季节预测业务有重要应用价值。 相似文献
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降尺度方法在中国不同区域夏季降水预测中的应用 总被引:5,自引:1,他引:4
在中国降水气候分区的基础上,利用降尺度方法进行区域夏季降水预测(RSPP),预测模型建立的基础是寻找影响区域气候的关键因子。降尺度预测模型中使用的资料有国家气候中心海-气耦合模式(CGCM/NCC)回报资料、NCEP/NCAR再分析资料和台站观测资料。为了避免年代际变化特征对季节尺度降水预测的影响,首先对CGCM/NCC模式输出资料、NCEP/NCAR再分析资料、区域平均降水资料去除年代际线性变化趋势,即去除所有预报因子场和预报对象场的长期变化趋势。然后分别计算预报对象和模式资料的预报因子场以及再分析资料的预报因子场的相关系数,把相关系数值同时达到0.05显著性检验水平的区域平均环流特征作为预测因子,保证挑选出的预测因子既能反映实际大气中预测因子与预报对象的关系,同时又是海-气耦合模式预测的高技巧信息。利用最优子集回归作为转换函数的降尺度方法建立区域夏季降水预测模型。交叉检验和独立样本检验结果表明,文中设计的区域夏季降水预测模型对中国大部分地区的夏季降水趋势预测的准确率较高且比较稳定,其预测效果远高于CGCM/NCC直接输出降水结果。进一步对具有较高预测技巧的代表性区域的可预报性来源分析发现,物理意义明确且独立性强的预测因子有助于提高预测准确率。 相似文献
15.
经过近60年的发展,我国短期气候预测技术和方法也有了长足进步。近年来,一些新的预报技术和机理认识不断应用于短期气候预测业务。ARGO海洋观测资料的使用大大提高了业务模式的预测技巧,新一代气候预测模式系统已经投入准业务化运行,研发了多种模式降尺度释用技术,多模式气候预测产品解释应用集成系统(MODES)和动力-统计结合的季节预测系统(FODAS)逐渐应用于业务中,大气季节内振荡(MJO)逐步在延伸期预报中得到应用。近年来,对全球海洋、北极海冰、欧亚积雪、南半球环流系统对东亚季风影响的新认识也不断引入到短期气候预测业务中。这些新技术和新认识的应用极大提高了我国短期气候预测的业务能力。 相似文献
16.
基于中国气象局国国家气候中心海气耦合模式(CGCM/NCC)预测产品和山西省50站夏季降水资料,利用典型因子回归的方法(CCA),建立了山西省夏季降水的统计降尺度预测模型。该预测模型选取了CGCM/NCC模式夏季500 h Pa高度场和海平面气压作为预测因子,分别选取了长江中下游地区和热带中东太平洋作为预报关键区。统计降尺度模型对2007~2014年山西省夏季降水的回算较模式原始结果有显著提高,除2008年外,空间距平相似系数(ACC)均通过了0.01的显著性检验,时间相关系数(TCC)在山西省大部分地区都有显著提高,最大可达0.6,降水预测(PS)评分在70分以上。检验结果显示,基于CCA降尺度方法建立的预测模型对山西省夏季降水模态预测的准确率较高且比较稳定,其预测效果远高于CGCM/NCC直接输出降水结果。 相似文献
17.
DING Yihui SHI Xueli LIU Yiming LIU Yan LI Qingquan QIAN Yongfu MIAO Manqian ZHAI Guoqing GAO Kun 《大气科学进展》2006,23(3)
A modified version of the NCAR/RegCM2 has been developed at the National Climate Center (NCC), China Meteorological Administration, through a series of sensitivity experiments and multi-year simulations and hindcasts, with a special emphasis on the adequate choice of physical parameterization schemes suitable for the East Asian monsoon climate. This regional climate model is nested with the NCC/IAP (Institute of Atmospheric Physics) T63 coupled GCM to make an experimental seasonal prediction for China and East Asia. The four-year (2001 to 2004) prediction results are encouraging. This paper is the first part of a two-part paper, and it mainly describes the sensitivity study of the physical process parameterization represented in the model. The systematic errors produced by the different physical parameterization schemes such as the land surface processes, convective precipitation, cloud-radiation transfer process, boundary layer process and large-scale terrain features have been identified based on multi-year and extreme flooding event simulations. A number of comparative experiments has shown that the mass flux scheme (MFS) and Betts-Miller scheme (BM) for convective precipitation, the LPMI (land surface process model I) and LPMII (land surface process model Ⅱ) for the land surface process, the CCM3 radiation transfer scheme for cloud-radiation transfer processes, the TKE (turbulent kinetic energy) scheme for the boundary layer processes and the topography treatment schemes for the Tibetan Plateau are suitable for simulations and prediction of the East Asia monsoon climate in rainy seasons. Based on the above sensitivity study, a modified version of the RegCM2 (RegCM_NCC) has been set up for climate simulations and seasonal predictions. 相似文献
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动力气候模式是目前国际上开展气候预测的主要工具。经过 8年多的研制、发展和业务化过程 ,国家气候中心已建立起第一代动力气候模式预测业务系统 ,并以此为平台 ,形成了一套包括月、季节到年际时间尺度的动力模式预测业务。 2 0年历史回报试验和 1年多的试验性业务运行结果表明 ,该系统对东亚区域的季节预测具有较好的预测能力 ,其预测结果已经在实际业务中得到了应用 ,并成为我国短期气候预测业务的重要参考依据。该文是对该动力模式系统性能的介绍 ,也是对国家“九五”重中之重课题的加强课题“短期气候预测综合动力模式预测系统业务化”专题的总结汇报。 相似文献
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一个改进的沙尘天气数值预测系统及其模拟试验 总被引:10,自引:3,他引:7
在中尺度气象模式最新版本MM5V3.7的基础上,通过与一个起沙模式的耦合,建立了一个新的中国科学院大气物理研究所(IAP/CAS)沙尘天气数值预测系统(IAPS 2.0).该系统与IAP原有的沙尘天气数值预测系统(IAPS 1.0)最主要的差异在于气象模式中陆面过程模式的改进.利用改进前后两个版本的预测系统对2002年4月发生在我国北方地区的两次较强沙尘(暴)过程进行了数值模拟,并与观测实况进行了比较,结果表明改进的系统对沙尘天气的预测能力比改进前的版本有显著的改进,这主要是由于新的陆面模式改善了地表土壤湿度的模拟,进而改进了决定起沙与否的关键因子临界摩擦速度的模拟,从而提高了预测系统对起沙范围和强度的模拟效果.总的说来,采用了更为先进的Noah陆面模式的IAP沙尘(暴)天气数值预测系统对中国北方春季沙尘(暴)天气过程具有更好的模拟能力. 相似文献