右江复合盆地的沉积特征及其构造演化

位于华南褶皱带南缘的右江盆地,其发展可分为两个不同的阶段。它的轮廓和结构,与NW向及NE向同沉积断裂关系密切。盆地内的沉积物,分别由特征不同的非补偿性和补偿性沉积相组成两个双层结构。盆地内火山活动发育,也明显的分为两个阶段。海西期,古特提斯洋的发展使哀牢山洋盆开裂,导致了右江地区在拉张应力条件下出现若干NW向裂陷带,这时的盆地具有大陆边缘裂谷特点。东吴运动后开始的印支期,区域应力条件发生变化。滨大平洋构造的发生,使盆地轮廓和结构发生明显变化,与此同时开始的哀牢山洋盆向NE方向的俯冲消减作用,使盆地在新的挤压条件下再次发生张裂和拗陷。进入了弧后盆地发展阶段。印支期末,盆地封闭。     

山东招远金矿矿石中首次发现宇宙尘埃—镍纹石

招远金矿田的人工重砂样品中首次发现宇宙尘埃——镍纹石.文中介绍了镍纹石的形态特征、物理性质和x射线粉晶与红外光谱分析结果.在此基础上,作者进一步认定招远金矿是在地层经过混合岩化和花岗岩化作用保留下来的产物.     

广西环江县北山铅锌黄铁矿矿床发现史

广西环江北山铅锌矿床是由古人发现的，始于何时尚难断定。其采矿历史较悠久，据文献记载与考证，采铅锌矿炼银始于宋王朝，距今约８００年左右；炼锌始于明王朝，距今约３８０余年，１９７１年广西冶金地质勘探公司二一五队曾在北山一带普查评价褐铁矿，首先提出了该区褐铁矿＂属小型热液多金属铅锌硫化物矿床铁帽＂的概念。经广西地质局第九地质队（现广西第七地质队）１０年（１９７５－１９８６）的勘查，证实为一个以锌为主的大型多金属黄铁矿矿床，探明储量，其中锌、锗、黄铁矿为大型矿床规模，银、镉为中型矿床规模，铅、铁为小型矿床。为此该队荣获地矿部１９８９年度找矿成果二等笑。现今由中国有色金属工业总公司与广西壮族自治区人民政府合资兴建的北山铅锌硫铁矿已初具规模，一座新兴的矿山城镇已耸立在桂北群山之中，它将成为广西有色金属工业重要原料基地之一。     

应用MAPGIS制作农级别基准地价图的方法探讨

本文从农级别基准地价图编制的目的和原则入手，详细介绍了用MAPGIS软件编制农级别基准地价图的方法。     

Socio-economic and Environmental Implications of the Hydroelectric Projects in Uttarakhand Himalaya, India

This paper deals with detailed analysis of the fiasco created by the Tehri High Dam in Uttarakhand, India, particularly in terms of resettlement and rehabilitation of the local inhabitants. Aspects pertaining to the environmental issues are also discussed. Currently, the river valleys in Uttarakhand state of India are the targets of increasing hydroelectric projects. Virtually all rivers are being exploited for generating environmental friendly power. Having being learned the hard lesson from Tehri Dam, it has been decided to opt for such schemes in which comparatively little submergence and tempering with the fragile eco-systems is involved.However, our observations suggest that even in such schemes if due care is not taken they may turn out to be a failure.     

千年采石成景百矿示范还绿

采石成景是绍兴石文化的一大"看点",东湖洞天、柯岩云骨、吼山云石、羊山石佛等采石成景的杰作,无不与古城的色调相符,与水乡的风光相配,与绍兴的文化相融.悠悠千年开山采石的活动,展示出先民虽人工雕凿却浑然天成的博大智慧.     

Mantle processes during ocean formation：Petrologic records in peridotites from the Alpine－Apennine ophiolites

Mantle peridotites were early exposed at the sea-floor of the Jurassic Tethys derived from the subcontinental mantle of the Europe-Adria system. During continental rifting and oceanic spreading, these lithospheric peri-dotites were percolated via diffuse reactive porous flowby melt fractions produced by near-fractional melting of the upwelling asthenosphere. Ascending melts inter-acted with the lower lithosphere, dissolving pyroxenes and precipitating olivine, and crystallized at shallower levels in the mantle column causing melt impregnation.Subsequent focused porous flow formed replacive dunitechannels, cutting the impregnated oeridotites, which were conduits for upward migration of MORB-type liq-uids. Melt migration produced depletionlrefertilization and significant heating of the percolatedlimpregnated mantle, i.e the thermochemical erosion of the litho-sphere. Impregnated and thermally modified lithos-pheric mantle was cooled by conductive heat loss dur-ing progressive lithosphere thinning and was intrudeaby MORB magmas, which formed Mg-rich and Fe-richgabbroic dykes and bodies. Alpine-Apennine ophiolitic peridotites record the deep-seated migration of melts which changed their compositions and dynamics during the rift evolution. The thermochemical erosion of the lithospheric mantle by the ascending asthenospheric melts, which induces significant compositional and rhe-ological changes in the lower lithosphere, is a major process in the evolution of the continent-ocean transi-tion towards a slow spreading oceanic system.