赤道太平洋次表层海水温度异常的信号通道

应用热带太平洋上层XBT温度资料,分析探讨了西太平洋暖池区次表层海温冷暖异常信号的变化规律,揭示了影响西太平洋暖池区次表层海温冷变异常的信号通道。分析表明,西太平洋暖池区的次表层海温异常变冷与太平洋北赤道流的海温冷异常信号西传有重要关系。北赤道流的海温异常冷(暖)信号是沿温跃层由赤道中东太平洋潜沉向西太平洋暖池区传播,与西太平洋次表层海温异常(冷)暖信号向赤道中东太平洋传播构成了热带海洋信号的气旋式"环流通道"。在这一"环流通道"中,北赤道流的海温异常信号西传是导致西太平洋暖池区及西太平洋次表层海温异常的重要机制,是影响厄尔尼诺(ElNino)和拉尼娜(LaNina)事件发生的关键。     

祁连党河南山北坡中-基性火山岩地质特征及时代

根据地质研究、区域对比，结合首次获得的Rb-Sr等时线年龄数据，从祁连党河南山(又称乌兰达坂山）北坡原中奥陶统地层中厘定出晚震旦纪中－基性火山岩系。根据这一新成果，认为该区中基性火山岩，斜长角闪岩基底以及侵入其中的扎子沟等花岗闪长岩岩基在大地构造分区上应划归中祁连地块；晚震旦纪该区无疑有过扩张、地壳减薄的地质事件，震旦纪晚期有过挤压闭合事件。     

方解石和白云石溶蚀实验热力学模型及地质意义

通过碳酸盐（方解石、白云石）溶蚀作用实验室模拟研究，建立了溶蚀作用的热力学模型方程，对埋藏成岩的3种不同温压条件下（348．15K，Mpa ,373．15K，25Mpa，403．15K，30MPa）碳酸盐溶蚀作用进行了定量研究。提出随着温度和压力的升高，碳酸盐溶解反应的吉布春播由能降低，因而溶解反应增强；在相同温度和压力的地质条件下，白云石较方解石更易溶蚀并形成次生孔隙，这为油气生成运移提供了有利的地下空间和通道。     

东北地区夏季冷暖年大气环流异常的空间特征及演变

本文利用40年全球范围的温度场、高度场、UV风场资料，分析东北地区冷暖夏年的大气环流异常空间特征及长期演变，分析结果表明：东北低温冷害是一种时空尺度都很大的灾害性天气气候现象，冷夏年500hPa盛行经向环流。高纬有阻高或暖脊维持，西太平洋副高偏弱，温度场、高度场的垂直分布为伸展至对流层顶的正压结构，纬向呈一波型异常结构，有超长波槽稳定维持于东北地区，冷夏前期，大陆冷高压偏弱，冷空气活跃，冰岛低压和阿留申低压发展较深，太平洋副高持续偏弱，这种状态可以持续到夏季，便形成了东北地区的冷夏。     

近50年来ENSO与祁连山区气温降水和出山径流的对应关系

根据有关水文气象台、站的观测资料,分析了恩索(ENSO)与祁连山区气温、降水的对应关系,研究了祁连山区出山径流对厄尔尼诺(ElNino)现象响应.结果表明:ElNino现象对祁连山区的气温、降水和径流的影响随着发生时间和地段的不同而不同.ElNino现象发生之年,整个祁连山区均出现气温偏高、降水减少及径流偏枯的现象,尤以东段和中段最为明显.ElNino现象次年,祁连山区东段和中段气温偏高、降水减少及径流偏估的程度不如ElNino现象当年那样显著,而西段的气温、降水及径流与ElNino现象则无明显关系.     

The relationship between ENSO cycle and temperature, precipitation and runoff in the Qilian mountain area

El Nino and La Nina are the events concerned internationally. The corresponding relationship between El Nino events, temperature, precipitation and runoff in the Qilian mountain area are analyzed according to the date from the weather and the hydrometric stations in the area, the results show that effects of El Nino events to temperature, precipitation and runoff are different in the different time and zones. When El Nino occurs, temperature rises, but precipitation and runoff decrease in the whole Qilian mountain area, especially in the east and middle parts of the area. Temperature rises, precipitation and runoff still decrease in the eastern Qilian mountain area in the next year El Nino occurring, but decrease extent is fewer. There are not obvious relationship between temperature, precipitation and runoff with El Nino events in the western Qilian mountain area.     

用太阳活动拟合近2000年的温度变化

利用两个反映太阳活动的指标－太阳黑子相对数及太阳黑子周期长度－来拟合近2000年我国的温度变化，其结果与近2000年，特别是近700年来温度变化的总趋势基本一致。同时拟合了120年来北半球温度的演变，结果表明：太阳活动是引起10^1年以上气温变化的基本因素，近十多年来温室气体的作用似乎不可忽略。     

东亚夏季风强弱年物理量的逐候变化及其对松嫩流域降水的影响

用施能定义的东亚夏季风指数,分别找出典型夏季风强弱年1961和1980年,分析水平风速、假相当位温、高度等的逐候变化特征与盛夏季节松嫩流域逐候降水量的关系。分析表明:东亚夏季风强弱对松嫩流域盛夏降水量有显著影响。在强夏季风年,较大的南风、较高的假相当位温、较深的东亚大槽使降水持续偏多。同时还发现,无论夏季风强弱,假相当位温高值总是与多降水相联系。     

Sunspot-like and ENSO/NAO-like periodicities in lacustrinelaminated sediments of the Pliocene Villarroya Basin (La Rioja,Spain)

This is a study of an extremely good outcrop of 1745 varves inthe Villarroya Pliocene Basin (Spain). The thicknesses of the light and darklayers, which were obtained from enlarged photograph negatives, are dealt withseparately, and three time series, of light, dark, and the sum of both layers,are performed. Periodicities of about 12, 6–7 and 2–3 years havebeen obtained. The origin of the recurrent behaviour of the sediments withthese periods could be related to natural phenomena like sunspot cycles, ElNiño-Southern Oscillation (ENSO), North Atlantic Oscillation (NAO) andQuasi-biennial Oscillation (QBO), as these phenomena are capable of modulatingthe climate in this frequency band. From our point of view, there could be aclose relationship between sedimentation in the Villarroya Basin and thesenatural phenomena, which is moved through climate. The light layers record therun-off of gastropods, ostracods and charophytes from a seasonal productivitycycle, and are generated during late summer and autumn. It seems clear that theclimatic information provided by these cycles corresponds mainly to summertime, which would be translated into a variation of the light layer thicknessdue to a more or less intense development of the flora and fauna, being thickerin years of higher temperatures and thinner in years of lower temperatures.Considering the results, we would suggest that the sedimentation of thesematerials in the Pliocene was driven by solar activity or/and ENSO, NAO, andQBO phenomena. Nowadays these phenomena produce rainfall and temperaturechanges with the cyclicities shown in this study and we think they could haveoperated in the same way in Pliocene times.