大别山区域成矿体系与成矿规律的初步研究

在大别山主要金属矿床基本特征及其形成的地质背景研究基础上，通过对燕山期岩浆岩、金属矿床形成的物源一流体的综合研究，在大别山初步建立了两个燕山期岩浆一物源一流体一成矿系统，并在此基础上，就区域矿床的形成规律进行了讨论。     

异常东亚冬季风激发ENSO的数值模拟研究

利用中国科学院大气物理研究所发展的热带太平洋环流模式（OGCM）和海－气耦合模式（CGCM）分别就冬半年东亚冬季风异常对赤道太平洋的作用进行了数值模拟研究。结果清楚地表明,无论在 OGCM 中还是在 CGCM 中,持续的冬季风强异常将引起赤道中东太平洋海表水温（SST）的明显正异常,其分布类似观测到的El Ni?o事件;而持续的冬季风弱异常将引起赤道中东太平洋SST的明显负异常,其分布十分类似观测到的La Ni?a事件。因此,数值模拟进一步证实了我们过去从资料诊断和理论分析中得到的结论,即东亚冬季风异常是激发产生 ENSO 的重要机制。对模式资料的分析还清楚表明,异常东亚冬季风将激发异常海洋Kelvin波和使热带大气季节内振荡出现强异常,它们是激发ENSO的重要物理因素,这与观测资料的分析结果相一致。     

西藏近40年气温变化的气候特征分析

应用西藏1952~1995年温度序列资料, 对其基本气候特征、年代变化、气候突变、振荡周期、异常冷暖、变化趋势等进行了分析.结果表明:年与各季气温大都具有3个暖期和2个冷期, 60年代是最冷的10年, 以秋季降温最明显, 80年代中后期至90年代气温偏高. 22年、11年、3~4年是年与各季气温较为显著的周期.气候突变出现在60年代初和80年代初. 60年代、70年代多异常偏冷年, 80年代多异常偏暖年, 多发生在夏季和冬季, 90年代, 大多数年份发生气温异常. 40年来, 西藏年平均气温以0.065 ℃/10a的倾向率上升, 近10年春秋季增温率最大.     

The 30–60-day Intraseasonal Oscillations over the Subtropical Western North Pacific during the Summer of 1998简

The features of 30-60-day convection oscillations over the subtropical western North Pacific （WNP） were investigated, along with the degree of tropical-subtropical linkage between the oscillations over the WNP during summer 1998. It was found that 30-60-day oscillations were extremely strong in that summer over both the subtropical and tro]~ical WNP, providing a unique opportunity to study the behavior of subtropical oscillations and their relationship to tropical oscillations. Further analyses indicated that 30-60-day oscillations propagate westwards over the subtropical WNP and reach eastern China. In addition, 30-60-day oscillations in the subtropics are affected by those over the South China Sea （SCS） and tropical WNP through two mechanisms： （1） direct propagation from the tropics into the subtropics; and （2） a seesaw pattern between the tropics and subtropics, with the latter being predominant.     

Intensified Eastward and Northward Propagation of Tropical Intraseasonal Oscillation over the Equatorial Indian Ocean in a Global Warming Scenario

Northward propagation in summer and eastward propagation in winter are two distinguished features of tropical intraseasonal oscillation(TISO) over the equatorial Indian Ocean.According to numerical modeling results,under a global warming scenario,both propagations were intensified.The enhanced northward propagation in summer can be attributed to the enhanced atmosphere-ocean interaction and the strengthened mean southerly wind;and the intensified eastward propagation in winter is associated with the enhanced convection-wind coupling process and the strengthened equatorial Kevin wave.Future changes of TISO propagations need to be explored in more climate models.     

The tropical intraseasonal oscillation in SAMIL coupled and uncoupled general circulation models

Simulations of tropical intraseasonal oscillation(TISO) in SAMIL,the Spectral Atmospheric Model from the Institute of Atmospheric Physics(IAP) State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics(LASG) coupled and uncoupled general circulation models were comprehensively evaluated in this study.Compared to the uncoupled model,the atmosphere-ocean coupled model improved the TISO simulation in the following aspects:(1) the spectral intensity for the 30-80-day peak eastward periods was more realistic;(2) the eastward propagation signals over western Pacific were stronger;and(3) the variance distribution and stronger signals of Kelvin waves and mixed Rossby gravity waves were more realistic.Better performance in the coupled run was assumed to be associated with a better mean state and a more realistic relationship between precipitation and SST.In both the coupled and uncoupled runs,the unrealistic simulation of the eastward propagation over the equatorial Indian Ocean might have been associated with the biases of the precipitation mean state over the Indian Ocean,and the unrealistic split of maximum TISO precipitation variance over the Pacific might have corresponded to the exaggeration of the double Intertropical Convergence Zone(ITCZ) structure in precipitation mean state.However,whether a better mean state leads to better TISO activity remains questionable.Notably,the northward propagation over the Indian Ocean during summer was not improved in the mean lead-lag correlation analysis,but case studies have shown some strong cases to yield remarkably realistic northward propagation in coupled runs.     

热带大气准双周振荡对西北太平洋地区热带气旋路径的影响

利用美国国家海洋和大气管理局（National Oceanic and Atmospheric Administration,简称NO-An）的逐日对外长波辐射（outgoing longwave radiation,简称OLR）场资料,欧洲中期天气预报中心（European Center for Medium—Range Weather Forecasting,简称ECMWF）逐日风场（850hPa）资料,以及美国联合台风预警中心（Joint Typhoon Warning Center,简称JTWC）的热带气旋（tropicalcy—clone,简称TC）数据,参考Wheeler and Hendon（2004）提出的季节内振荡（Madden—Julianoscilla．tion,简称MJO）指数,通过多元EOF方法定义热带准双周振荡（quasi—biweekly oscillation,简称QBW）指数,诊断分析了西北太平洋地区QBW不同位相对于TC路径的影响。结果表明,TC主要生成在QSW对流湿位相中,集中位置随QBW向西北的传播而向西北移动。在QSW位相phasel中,南海上空盛行QBW反气旋性环流,西太副高西伸,其西南侧偏东南气流受QBW反气旋性环流东北侧气流抑制,生成在副高南侧的TC首先在副高南侧偏东气流的引导下移动至近海,在西南季风以及副高西侧偏南气流作用下顺时针北折,因此在140°E以西转折类路径的TC比例最高;而在phase3中,西太副高偏东,南海上空盛行QBW气旋性环流,西太副高西南侧气流强度受QBW气旋东北侧气流影响增强,季风槽偏东,140°E以东转折类的TC比例最高。本文还对TC个例中的QBW流场形势进行了分析,发现当QBW气旋或反气旋环流中心同TC中心一致时,热带气旋路径会发生突然的右折。     

天时、气候与中国历史(Ⅰ):太阳黑子周长与中国气候

依据太阳黑子周期长度 (SCL)资料 ,将过去 2 5 0 0年分为“好天时代”(SCL <11年 )和“坏天时代”(SCL >11年 ) ,发现在“坏天时代”中国旱灾频率显著高于“好天时代”。“好 (坏 )天世纪”与气候暖(冷 )期有好的对应 ;并提出了太阳活动影响气候的过程链     

北半球大气环流的纬向对称模态

运用自然正交分解方法（EOF）提取了北半球冬季热带外地区标准化纬向平均纬向风场的前两个模态。第1模态（方差贡献为34%）表现为中高纬带的西风（东风）异常和中纬带的东风（西风）异常,与之相联系的海平面气压场的异常表现为极区与中高纬度地区海平面气压场的反位相变化,即北极涛动（AO）;第2模态（方差贡献为21%）表现为中纬带的西风（东风）异常和中低纬带的东风（西风）异常,与之相联系的海平面气压场的异常表现为副极地地区与副热带地区海平面气压场的反位相变化,即副热带涛动STO（sub-tropical oscillation）。副热带涛动的水平结构表现出较强的纬向对称性,垂直方向上表现出相当正压性;与副热带涛动正位相相联系的纬向平均温度场表现为中高纬度地区负异常和副热带地区正异常,而且费雷尔环流加强南移。副热带涛动不仅在冬季有所表现,而且在整个冬半年（11月—翌年4月）都有所表现,但在夏半年则不存在。     

1981和1982年夏半年高原地区低频振荡与南亚高压活动

利用１９８１和１９８２年５—９月欧洲中期数值预报中心（ＥＣＭＷＦ）的１００ｈＰａ高度场客观分析资料，分析了四川盆地典型的“西涝东旱”年（１９８１年）、“西旱东涝”年（１９８２年）５—９月青藏高原地区大气低频振荡特征及其与南亚高压活动的关系。结果表明：青藏高原地区大气低频振荡是显著的，南亚高压活动与此密切相关；１９８１和１９８２年南亚高压活动的低频振荡特征具有明显差异，东西方向基本上呈反位相变化；这些事实对于认识四川盆地夏季旱涝异常有一定意义