我国夏季雨型的前期异常特征及预报方法的初步研究

用１９５１～１９９５年资料研究了我国东部夏季降水各雨型的前期大气环流及我国地面气象要素场的异常特征．结果表明,在冬季１月份北太平洋地区、秋季中国南海地区的海平面气压场有预报我国夏季雨型的信号．夏季不同雨型的前期冬季特征不同,我国的降水、气温场也有差异,４月份我国大范围的温度异常也是值得注意的预测信号．这些特征可以作为我国夏季雨型的预报信号及预报工具．     

北半球月平均环流异常与我国夏季月降水量异常之间关系的时空综合EOF分析

本文利用一种时空综合的经验正交函数（ＥＯＦ）方法探讨了我国夏季降水场与同期及前期北半球５００ｈＰａ环流场之间的关系。这种方法能够同时给出降水场的距平分布及其对应的同期和前期环流场距平分布型。分析了前三个特征向量场的空间结构，得到了三种不同降水异常分布型及其与之相应的同期和前期５００ｈＰａ环流异常型。结果发现，前期（冬季）５００ｈＰａ高度距平场在中高纬度地区有着同夏季几乎完全相反的分布特征，在这一特征下，我国东部夏季降水场有较一致的距平分布，此外，当前期冬季５００ｈＰａ出现ｗｐ型环流异常时，我国长江流域夏季降水会出现显著异常。     

夏季淮河流域大气环流型在降水趋势预测中的应用

采用NCEP/NCAR逐日海平面气压场资料,利用Lamb-Jenkinson大气环流分型方法对淮河流域夏季环流进行分型,并利用逐步回归方法建立了淮河流域夏季降水趋势的预测模型。结果表明:影响夏季淮河流域的主要环流型有南风型、西南风型、东南风型及气旋性环流,这些环流型都具有显著的年际和年代际变化特征,利用大气环流型建立的夏季淮河流域降水趋势预测模型具有一定的预报能力。     

我国东部夏季降水型与北半球大气环流和北太平洋海温的关系

用历年北半球５００ｈＰａ月平均高度场及北太平洋海温资料,运用合成分析,奇异值分解等方法,分析了我国夏季降水型与同期,前期环流及海温场的关系,结果表明我国夏季降水型与大气环流及北太平海之间有密切的关系。     

山东夏季降水量场预测模型研究及预测试验

从预测山东夏季降水场的需要出发，用山东1961－2001年夏季降水资料，研究了山东夏季降水的基本分布型式及其与北半球500hPa月平均高度、大气环流特征量及北太平洋海温之间关系。结果表明：不同的分布型存在不同的前期预测强信号。以这些强信号为主要预报因子结合考虑降水趋势振荡，构建出山东夏季降水场预测模型，并进行了预测试验。     

河北平原夏季旱涝与大气环流季节变化的关系

本文根据1951—1975年北半球500毫巴旬平均图和月平均图资料,分析了河北平原旱涝前期东亚上空强西风带的位置和强度随季节变化的特征,讨论了河北平原7—8月的降水与前期各月500毫巴高度场的相关分布及其天气学意义。发现东亚上空大气环流季节变化的过程与河北平原夏季旱涝有密切联系。并提供了一些预报指标,可作旱涝长期预报参考。     

海温强迫下的东亚夏季大气环流潜在可预报性特征

利用大气环流模式NCARCAM3,进行22a（1979—2000年）、每年8个初值的集合试验,并采用方差分析方法,研究了观测海温强迫下东亚夏季大气环流的潜在可预报性。结果表明,夏季东亚地区海平面气压场的潜在可预报性总体偏低,在中国区域呈东南高、西北低的分布特征;850hPa纬向风场、对流层500～200hPa平均温度场和500hPa位势高度场在低纬度地区的潜在可预报性明显高于中高纬度地区。500hPa位势高度场的潜在可预报性较高,东亚大部分地区大于0.5,尤其华南地区大于0.7。夏季东亚500hPa位势高度场的潜在可预报性具有明显的年际变化特征,并与夏季南海海温异常关系密切。与正常年份相比,在夏季南海海温偏暖或者偏冷年,东亚500hPa位势高度场的潜在可预报性较高     

云南夏季降水异常的影响因子及物理统计预测方法

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。     

对中国东部夏季降水有重要影响的一种东亚遥相关型

 利用重建的1880-1950年500 hPa高度场资料和1951-2004年的NCEP/NCAR再分析资料,分析了年际尺度上东亚地区夏季大气环流变化特征。结果表明：夏季在东亚沿岸存在一个明显的自北向南的正-负-正环流模态,即鄂霍次克海阻塞高压与副热带高压存在一种同向变化、而它们之间区域的高度场为反向变化的遥相关关系;同时分析了这种大气环流模态与1880-2004年中国东部地区夏季降水的关系。在年际尺度上,正-负-正的环流模态与长江中下游地区和东北的降水有很好的正相关,当夏季的环流处在阻塞高压偏强,且副热带高压偏南偏强、日本及其以东地区上空高度场偏低时,中国长江中下游地区和东北降水偏多。     

对中国东部夏季降水有重要影响的一种东亚遥相关型

利用重建的1880-1950年500 hPa高度场资料和1951-2004年的NCEP/NCAR再分析资料,分析了年际尺度上东亚地区夏季大气环流变化特征。结果表明：夏季在东亚沿岸存在一个明显的自北向南的正-负-正环流模态,即鄂霍次克海阻塞高压与副热带高压存在一种同向变化、而它们之间区域的高度场为反向变化的遥相关关系;同时分析了这种大气环流模态与1880-2004年中国东部地区夏季降水的关系。在年际尺度上,正-负-正的环流模态与长江中下游地区和东北的降水有很好的正相关,当夏季的环流处在阻塞高压偏强,且副热带高压偏南偏强、日本及其以东地区上空高度场偏低时,中国长江中下游地区和东北降水偏多。     

A Statistical-Dynamical Scheme for the Extraseasonal Prediction of Summer Rainfall for 160 Observation Stations across China

The purpose of this study was to design and test a statistical-dynamical scheme for the extraseasonal(one season in advance) prediction of summer rainfall at 160 observation stations across China.The scheme combined both valuable information from the preceding observations and dynamical information from synchronous numerical predictions of atmospheric circulation factors produced by an atmospheric general circulation model.First,the key preceding climatic signals and synchronous atmospheric circulation factors that were not only closely related to summer rainfall but also numerically predictable were identified as the potential predictors.Second,the extraseasonal prediction models of summer rainfall were constructed using a multivariate linear regression analysis for 15 subregions and then 160 stations across China.Cross-validation analyses performed for the period 1983-2008 revealed that the performance of the prediction models was not only high in terms of interannual variation,trend,and sign but also was stable during the whole period.Furthermore,the performance of the scheme was confirmed by the accuracy of the real-time prediction of summer rainfall during 2009 and 2010.     

EFFECTS OF PACIFIC SSTA ON SUMMER PRECIPITATION OVER EASTERN CHINA, PART Ⅰ: OBSERVATIONAL ANALYSIS

With the methods of REOF (Rotated Empirical Orthogonal Function), the summer precipitation from 43 stations over eastern China for the 1901 - 2000 period was examined. The results show that South China and Southwest China, the middle and lower reaches of Changjiang River, North China and the southwestern of Northeast China are the three main areas of summer rainfall anomaly. Furthermore, correlation analysis is used in three time series of three mostly summer rainfall modes and four seasonal Pacific SSTA (Sea Surface Temperature Anomaly), and the results suggest that the Pacific SSTA which notably causes the summer rainfall anomaly over eastern China are the SSTA of the preceding winter over Kuroshio region of Northwest Pacific, SSTA of the preceding spring in the eastern and central equatorial Pacific, and SSTA of the current summer in the central region of middle latitude. The relationship between summer precipitation over eastern China and SSTA of Pacific key regions was further verified by SVD (Singular Value Decomposition) analysis.The composite analysis was used to analyze the features of atmospheric general circulation in the years of positive and negative precipitation anomaly. Its results were used to serve as the base of numerical simulation analysis.     

EFFECTS OF PACIFIC SSTA ON SUMMER PRECIPITATION OVER EASTERN CHINA, PART Ⅰ: OBSERVATIONAL ANALYSIS

With the methods of REOF (Rotated Empirical Orthogonal Function), the summer precipitation from 43 stations over eastern China for the 1901 - 2000 period was examined. The results show that South China and Southwest China, the middle and lower reaches of Changjiang River, North China and the southwestern of Northeast China are the three main areas of summer rainfall anomaly. Furthermore, correlation analysis is used in three time series of three mostly summer rainfall modes and four seasonal Pacific SSTA (Sea Surface Temperature Anomaly), and the results suggest that the Pacific SSTA which notably causes the summer rainfall anomaly over eastern China are the SSTA of the preceding winter over Kuroshio region of Northwest Pacific, SSTA of the preceding spring in the eastern and central equatorial Pacific, and SSTA of the current summer in the central region of middle latitude. The relationship between summer precipitation over eastern China and SSTA of Pacific key regions was further verified by SVD (Singular Value Decomposition) analysis.The composite analysis was used to analyze the features of atmospheric general circulation in the years of positive and negative precipitation anomaly. Its results were used to serve as the base of numerical simulation analysis.     

前期高度场和海温场变化对我国汛期降水的影响

利用1952～2001年我国160个测站汛期降水和前期500 hPa高度场和太平洋海温场资料以及三因子最佳子集回归求最大复相关系数的方法,把前期不同时间步长、不同时段的高度场和海温场同时作为预报因子与汛期降水求相关.结果发现:前期两个场共同作为预报因子比把其中某场单独作为预报因子的相关要好.并且存在着较好的"隔多季度相关"现象.预报因子具有实际预报意义的最佳时段为上一年的6～9月.影响我国汛期降水的最佳预报因子主要集中于高度场和海温场具有重要天气气候意义的关键区域.汛期降水可预报性在北方和长江以南均较好.     

Interannual Relationship between the Winter Aleutian Low and Rainfall in the Following Summer in South China

Using observations and reanalysis data, this study investigates the interannual relationship between the winter Aleutian Low(AL) and the rainfall anomalies in the following summer in South China(SC). Results show that the winter AL is significantly positively(negatively) correlated with the SC rainfall anomalies in the following July(August). Specifically, SC rainfall anomalies have a tendency to be positive(negative) in July(August) when the preceding winter AL is stronger than normal. The winter AL-related atmospheric circulation anomalies in the following summer are also examined. When the winter AL is stronger, there is a significant anticyclonic(cyclonic) circulation anomaly over the subtropical western North Pacific in the following July(August). Southerly(northerly) wind anomalies to the west of this anomalous anticyclonic(cyclonic) circulation increase(decrease) the northward moisture transportation and contribute to the positive(negative) rainfall anomalies over SC in July(August). This study indicates that the AL in the preceding winter can be used as a potential predictor of the rainfall anomalies in the following July and August over SC.     

EFFECTS OF PACIFIC SSTA ON SUMMER PRECIPITATION OVER EASTERN CHINA, PART Ⅱ: NUMERICAL SIMULATIONS

Based on an observational analysis, seven numerical experiments are designed to study the impacts of Pacific SSTA on summer precipitation over eastem China and relevant physical mechanism by NCAR CCM3. The numerical simulation results show that preceding winter SSTA in the Kuroshio region leads to summer precipitation anomaly over the Yangtze River valleys by modifying atmospheric general circulation over eastern Asia and middle-high latitude. West Pacific subtropical high is notably affected by preceding spring SSTA over the middle and east of Equator Pacific; SSTA of the central region of middle latitude in the corresponding period causes the summer rainfall anomaly over eastern China so as to trigger the atmospheric Eurasia-Pacific teleconnection pattern.     

EFFECTS OF PACIFIC SSTA ON SUMMER PRECIPITATION OVER EASTERN CHINA, PART Ⅱ: NUMERICAL SIMULATIONS

Based on an observational analysis, seven numerical experiments are designed to study the impacts of Pacific SSTA on summer precipitation over eastem China and relevant physical mechanism by NCAR CCM3. The numerical simulation results show that preceding winter SSTA in the Kuroshio region leads to summer precipitation anomaly over the Yangtze River valleys by modifying atmospheric general circulation over eastern Asia and middle-high latitude. West Pacific subtropical high is notably affected by preceding spring SSTA over the middle and east of Equator Pacific; SSTA of the central region of middle latitude in the corresponding period causes the summer rainfall anomaly over eastern China so as to trigger the atmospheric Eurasia-Pacific teleconnection pattern.     

EFFECTS OF PACIFIC SSTA ON SUMMER PRECIPITATION OVER EASTERN CHINA, PART II: NUMERICAL SIMULATIONS

Based on an observational analysis, seven numerical experiments are designed to study the impacts of Pacific SSTA on summer precipitation over eastern China and relevant physical mechanism by NCAR CCM3. The numerical simulation results show that preceding winter SSTA in the Kuroshio region leads to summer precipitation anomaly over the Yangtze River valleys by modifying atmospheric general circulation over eastern Asia and middle-high latitude. West Pacific subtropical high is notably affected by preceding spring SSTA over the middle and east of Equator Pacific; SSTA of the central region of middle latitude in the corresponding period causes the summer rainfall anomaly over eastern China so as to trigger the atmospheric Eurasia-Pacific teleconnection pattern.     

A STUDY ON RELATION BETWEEN EAST ASIAN WINTER MONSOON AND CLIMATE CHANGE DURING RAINING SEASON IN CHINA

1 INTRODUCTION The Asian monsoon and its anomalies play an important role in the global general circulation and climatic change. As an essential component of the monsoon system, the East Asian winter monsoon is not only the most vigorous across the globe …