中国西部地区门源-平凉-渭南地震测深剖面资料的分析解释

本文所处理的地震测深剖面资料,是一条途经陕、甘、宁、青四省,由7个炮点和12个记录分支组成的、全长约970km的地壳折射资料。 本文通过走时反演、射线追踪和合成地震图等分析解释手段,给出各分支的结构参数和全测线的横向变化。整个地壳大体分四层,其参数为 H₁=3.32±1.01 km,V₁=4.35±0.79 km; H₂=11.79±2.77 km,V₂=6.06±0.24 km; H₃=11.58±4.32 km,V₃=6.35±0.26 km; H₄=17.64±7.25 km,V₄=6.52±0.57 km. 地壳总厚度为45.60±11.01km.莫氏面自西向东逐渐变浅,在西段较为平缓,在中段和东段起伏较大,似乎显示出一个上端略宽、下端略窄的“U”形构造.这种构造有助于说明该区的大地构造特点和地震孕育的深部条件.     

北半球夏季全球热带和副热带200hPa平均辐散环流的研究

大气的运动场或风场包括两部分:一是旋转部分,另一是辐散部分。虽然旋转部分的方差占总运动场方差的大部分(约占80％),但与辐散风相联系的垂直环流对于天气系统的发展是重要的。Krishna-murti等人最早研究了全球热带的辐散环流。最近他的研究表明,辐散风场的大部分是属于纬向的行星尺度垂直环流的水平分支,这意味着行星尺度系统总是热力直接环流,并且以纬向环流为主。Van der Boogard计算了7月多年平均的速度势场,发现对流层上层最强的辐散中心在中南半岛上空。     

下辽河盆地大地热流

下辽河盆地属华北地堑系的一部分,是一个在前中生代基底上发育起来的中、新生代断陷盆地(张文佑等,1981;马杏垣等,1983;朱夏等,1983),解政文等(1980)曾报道过一个异常高的热流值,引起了各方面的不同反响。近年来,我们于辽河油田开展系统地热研究的同时,取得了一大批实测地温资料和岩石热物理性质参数,在此基础上计算出下辽河盆地大地热流值,并对盆地深部热状况作出相应评价。     

Probability of received-power fluctuation of an optical system in the turbulent atmosphere

The probability of received-power fluctuation in the turbulent atmosphere is discussed with a simple and yet reasonable model for a direct-detection optical system. Good agreement was found between the theore-tical results and the field experiment. Thus the analysis in this paper may be taken as a guide for the design of atmospheric optical system.     

航空甚低频电磁异常在胶东牟乳地区构造填图中的应用

通过对胶东牟平－乳山地区１：２．５万航空甚低频电磁异常的分析研究，并结合航磁，航放、遥感以及区域构造地质资料，进行了构造地质填图，首次进一步证实了被前人所忽视的近东西向断裂构造的存在，并给予了准确定位。在此基础上进行了金矿成矿远景预测，取得了比较满意的效果。     

Magnetostratieraphy of the Red Beds in the Hengyang Basin

This paper discusses the Cretaceous-Tertiary magnetic polarity sequence of the the Hengyang Basin on the basis of magnetostratigraphic study. The age of each stratigraphic unit has been determined with the magnetic polarity time scale combined with 39Ar/40Ar dating, thus providing evidence for determining the geological ages of different formations. The authors assign the age of the Dongjing Formation of the Hengyang Basin to Early Cretaceous, the Shenhuangshan Formation to Early-Late Cretaceous, the Daijiaping Formation to Late Cretaceous, and the Dongtang and Xialiushi formations to Palaeocene.     

The Madden-Julian oscillation in the Canadian Climate Centre general circulation model

The Madden-Julian oscillation (MJO) simulated by the Canadian Climate Centre general circulation model (CCC GCM) is identified by a principal oscillation pattern (POP) analysis and compared with that observed in the real atmosphere. The results are based upon two integrations of the CCC GCM, one with a parameterization of penetrative cumulus convection (EXP1) and the other with a moist convective adjustment scheme (EXP2). The signal of MJO can be detected in both integrations as the first POP of the 200 hPa velocity potential along the equator. The disturbances show a distinctive wave number one structure with the strongest local amplitude found in the longitudes corresponding to the region of the Asian monsoon. The phase speed of the eastward wave propagation is higher in the eastern Pacific and lower in the monsoon region where the convective activities are strongest. These features are in good agreement with the observations. The energy spectrum of the velocity potential peaks at the frequency corresponding to a period of about 38 days for EXP1, which is somewhat shorter compared to the observed periods of 40–50 days. On the other hand, two spectral peaks can be clearly identified for EXP2, one with a period of 24 days and the other with a much longer period, somewhere near 112 days. Both peaks appear statistically significant at 95% level. Long term data of the observed atmosphere show little indication of such spectral separation. The horizontal patterns identified by the POP analysis resemble to some extent the baroclinic response of tropical flow to a heat source travelling with the speed of MJO. At the upper level, Rossby wave energy propagates westward with winds generally following the height contours, whereas Kelvin wave energy propagates to the east from the heat source with strong cross-contour flow near the equator. At the lower level, the patterns are essentially reversed. The model-generated precipitation and diabatic heating are examined by compositing against the moving MJO. It is found in EXP2 that the composite heating distribution is coherent with the flow pattern only in a certain sector of the equator, depending on whether the fast or slow mode is used to determine the reference point. The composite vertical heating profile of a slower mode tends to have a maximum found at a lower level. The sensitivity of simulated MJO to the cumulus convection scheme in the model is discussed. Received: 19 December 1994 / Accepted: 11 July 1995     

Tomographic determination of 3-D crustal structure — Joint inversion of explosion and earthquake data

In this paper, the theory and method, obtaining the tomographic determination of three-dimensional velocity structure of the crust by use of the joint inversion of explosion and earthquake data, are given. The velocity distribution of the crust is regarded as a continuous function of the spatial coordinates without parametrization of the velocity model ahead, so that the inversion solution would not be influenced by different parametrization procedures. The expressions of integration kernels, which relates the two kinds of data sets, are also given. The authors have processed the observed data in Tangshan earthquake region by the method proposed in this paper, and obtained the tomographic results of the middle and upper crust structures in this region. The comparison of these results with the result obtained only by the explosion data, has also been made.     

义县留龙沟金矿含金矿物特征

本文对留龙沟金矿的矿物成分、共生关系、矿物生成顺序,成矿温度进行了一些研究,为探讨矿床成因提供一些资料。     

Carbon Storage in Terrestrial Ecosystems of China: Estimates at Different Spatial Resolutions and Their Responses to Climate Change

The carbon storage of terrestrial ecosystems in China was estimated using acommon carbon density method for vegetation and soils relating to thevegetation types. Usingmedian density estimates, carbon storage of 35.23 Gt (1 Gt = 10¹⁵g) in biomass and119.76 Gt in soils with total of 154.99 Gt were calculated based on thebaseline distribution of37 vegetation types. Total carbon storage of the median estimates at differentspatial resolutionswas 153.43, 158.08 and 158.54 Gt, respectively, for the fine (10),median (20) and coarse (30)latitude × longitude grids. There were differences of –1.56, +3.09and +3.55 Gt carbon storagebetween baseline vegetation and those at different spatial resolutions. Changein mappingresolution would change area estimates and hence carbon storage estimates. Thefiner the spatialresolution in mapping vegetation, the closer the carbon storage to thebaseline estimation. Carbonstorage in vegetation and soils for baseline vegetation is quite similar tothat of biomes predictedby BIOME3 for the present climate and CO₂ concentration of 340ppmv. Climate changealone as well as climate change with elevated CO₂ concentrationwill produce an increasein carbon stored by vegetation and soils, especially a larger increase in thesoils. Total mediancarbon storage of terrestrial ecosystems in China will increase by 5.09 Gt and15.91 Gt for theclimate scenario at CO₂ concentration of 340 ppmv and 500 ppmv,respectively. This ismainly due to changes in vegetation areas and the effects of changes inclimate and CO₂concentration.