乳山金矿煌斑岩的Sm-Nd同位素研究     

徐红 《地球学报》1997,18(Z1):154-156

乳山金矿区发育多种与金矿脉在时空上密切伴生的煌斑岩脉。煌斑岩的稀土元素含量和配分曲线与胶东群残留体和昆嵛山花岗岩的均较相似；三者的εNd(t)、INd(t)和tDM亦甚为相近。胶东群的分异熔融作用，可较好地解释煌斑岩与花岗岩和胶东群残留体在成因上的渊源关系。  相似文献   

新疆阿拉尔花岗岩MFC过程的微量元素综合效应     

刘伟 《地质论评》1997,43(5):465-475

新疆阿拉尔花岗岩的微量元素比相关图显示了线性样点列与幂函数曲线形式的样点列相 复杂图型。该图型用简单混合或者单一结果分异模型都不能解释。本文建立了混合－结晶分异复合过程的微量元素综合效应模型。模型１：从初始混合线引起害虫函数曲线束形式的结晶分异线。特殊情况有结晶分异线简化为通过原点的直线束形式或者与初始混合线重合。  相似文献   

略阳─石泉边界地质体特征   总被引：4，自引：0，他引：4  

王根宝  吴闻人  张升全 《陕西地质》1997,(1)

略阳─石泉构造带是一板块缝合带，经历了长期复杂的演化历史。现由不同时期、不同构造体制下的断裂构造系统，裹挟不同构造演化阶段的各类建造─蛇绿混杂岩、陆缘楔状体，岛孤岩浆岩及外来岩块等，共同组成了分隔秦岭、扬子地块的一个特殊边界地质体。  相似文献   

康滇地轴中南段铀成矿条件及远景分析   总被引：3，自引：0，他引：3  

郭葆墀  钱法荣  蔡煜琦  张待时 《铀矿地质》1997,(4)

本文对康滇地轴中南段铀矿化划分出３种类型（砂岩型、钠交代岩型和元古代浅变质岩型），并阐明其主要特征。提出了元古代地壳演化曾经历了原始古陆形成阶段、沉降活动阶段和基底再团结阶段，认为中元古界昆阳群是有别于典型的含铀碳硅泥岩沉积建造。通过对该区部分岩石原始铀含量进行研究，提出了有关岩石可作为该区铀源岩的新认识；划分出碱性和酸性两大类型的热液蚀变，指出本区以发育碱性蚀变地段的成矿前景较好。指出该区铀成矿前景：（１）该区不具备形成澳加式元古代不整合面型铀矿床的地质条件；（２）非澳加式元古代不整合面型的铀成矿前景较差；（３）本区碱（钠）交代岩型铀矿化具有一定的找矿前景。  相似文献   

云南临沧花岗岩的冲断叠瓦构造与推覆构造   总被引：8，自引：1，他引：8       下载免费PDF全文

杨振德 《地质科学》1996,(2):130

 云南省西部沿澜沧江分布的临沧花岗岩,呈SN向延伸,长达500km,但平均宽度只有25km,系逆冲与推覆叠置变形缩短的结果。岩片冲断和推覆的方向普遍为自西向东,临沧花岗岩带向东推覆的距离为30-80km,最大距离120km,冲断叠瓦构造和推覆构造形成的时代主要为中、新生代。糜棱岩的同位素年龄为15.43Ma、25.55Ma和179Ma.新生代沿冲断层发生了近SN向水平走滑运动和沿NE、NW向断层的剪切运动。  相似文献   

混合岩中斜长石的交代净边结构和倒转双晶研究——以大别罗田黄土岭长英片麻岩为例   总被引：3，自引：0，他引：3  

游振东  钟增球  汤中道  陈能松 《地球科学》1996,(5)

湖北罗田黄土岭长英片麻岩是与紫苏石榴黑云片麻岩共生的浅色片麻岩，成分上近于Ａ型花岗岩．受到浅混合岩化，钾交代现象显著．在斜长石与钾长石新成体接触处有清楚的交代净边结构，背散射电子探针分析表明，净边成分为钠长石（Ａｂ８９～９７）．在净边结构上，发现叠加倒转双晶．净边结构产生于长英片麻岩部分熔融的高温条件下，与整个大别地体隆升过程和Ａ型花岗岩的生成有成因联系  相似文献   

吉林省安图县海沟金矿床控矿构造特征   总被引：2，自引：0，他引：2  

曾庆栋  戴薪义 《吉林地质》1996,15(2):36-44

海沟金矿是大型石英贫硫化物脉型金矿床。矿区侵入岩可划分为四个花岗岩单元，矿体（脉）在平、剖面上都具有斜列的特点。含金石英脉的产出和分布严格受ＮＮＥ－ＮＥ向断裂控制。金矿区控矿构造型式为ＥＷ向大断裂的派生断裂控制矿床，成矿构造序列划分为成矿前、成矿期、成矿后构造。构造对矿床（矿体）的控制作用主要表现为等距性构造控制矿脉分布；断裂多期活动对富矿体的控制。分析了断裂构造地球化学特征，表明成矿作用是以充填  相似文献   

黔南绿色花岗石资源及开发利用前景     

李毅 《矿产与地质》1996,(3)

黔南地区花岗石资源丰富。绿色花岗石矿体由辉长辉绿岩（内部岩相）、辉绿岩（过渡岩相）和辉绿玢岩（边缘岩相）以及钠长石脉岩组成，以过渡岩相辉绿岩体为石材主要开采对象。矿体厚度大，分布广，成荒率高，石材花色品种好，具有很大开发前景  相似文献   

Oxygen Isotope Exchange Kinetics Between Coexisting Minerals and Water in the Aral Granite Pluton of the Altay Mountains, Northern Xinjiang   总被引：2，自引：0，他引：2  

Liu Wei  Research Center of Mineral Resources Exploration  Chinese Academy of Sciences  Chinese Academy of Sciences  BeijingHe Baichu  Changsha Institute of Geotectonics  Chinese Academy of Sciences  Changsh  Hunanand Chen ZhenshengYichang Institute of Geology  Mineral Resources  Chinese Academy of GeologicalSciences  Yichang  Hubei 《《地质学报》英文版》1996,70(4)

Coexisting quartz, feldspar and biotite vary widely in their δ18O values and display a remarkable 18O/16O disequilibrium relation; especially, a quartz-feldspar reversal (△ 18OQUartz_feldspar< 0) exsists in the Aral granite pluton of the Altay Mountains, northern Xinjiang. The 18O / 16O exchange reaction definitely occurred between granite and water. Initial δ18O values of the granite and exotic fluid are evaluated by the mass balance consideration. The conventional method of discrimination between various magma derivations simply with δ18O values of either whole rock or separate minerals is misleading and unreliable. Experiments carried out by the authors show that the 18O / 16O exchange reaction is not accompanied by what geologists describe as petrological and mineralogical alteration effect. This decoupling relation implies that exchange reaction occurs at a relatively high temperature during subsolidus-postmagmatic cooling of magmas. The exchange mechanism is mainly diffusion-controlled. It is  相似文献   

Rapid Variscan exhumation and the role of magma in core complex formation: southern Brittany metamorphic belt, France   总被引：6，自引：0，他引：6  

MICHAEL BROWN  R. DAVID DALLMEYER 《Journal of Metamorphic Geology》1996,14(3):361-379

ABSTRACT The high-grade migmatitic core to the southern Brittany metamorphic belt has mineralogical and textural features that suggest high-temperature decompression. The chronology of this decompression and subsequent cooling history have been constrained with ⁴⁰Ar/³⁹ Ar ages determined for multigrain concentrates of hornblende and muscovite prepared from amphibolite and late-orogenic granite sheets within the migmatitic core, and from amphibolite of the structurally overlying unit. Three hornblende concentrates yield plateau isotope correlation ages of c. 303–298 Ma. Two muscovite concentrates record well-defined plateau ages of c. 306–305 Ma. These ages are geologically significant and date the last cooling through temperatures required for intracrystalline retention of radiogenic argon. The concordancy of the hornblende and muscovite ages suggest rapid post-metamorphic cooling. Extant geochronology and the new ⁴⁰Ar/³⁹Ar data suggest a minimum time-integrated average cooling rate between c. 725 °C and c. 125 °C of c. 14 ± 4°C Ma^-1, although below 600 °C the data permit an infinitely fast rate of cooling. Mineral assemblages and reaction textures in diatexite migmatites suggest c. 4 kbar decompression at 800–750 °C. This must have pre-dated the rapid cooling. Emplacement of two-mica granites into the metamorphic belt occurred between 345 and 300 Ma. The youngest plutons were emplaced synkinematically along shallow-dipping normal faults interpreted to be reactivated Eo-Variscan thrusts. A penetrative, west-plunging stretching lineation developed in these granites suggests that extension was orogen-parallel. Extension was probably related to regional uplift and gravitational collapse of thermally weakened crust during constrictional (escape) tectonics in this narrow part of the Variscan orogen. This followed slab breakoff during the terminal stages of convergence between Gondwana and Laurasia; detachment may have been consequent upon a change in kinematics leading to dextral displacement within the orogen. Dextral ductile strike-slip displacement was concentrated in granites emplaced synkinematically along the South Armorican Shear Zone. Rapid cooling is interpreted to have resulted from tectonic unroofing with emplacement of granite along decollement surfaces. The high-grade migmatitic core of the southern Brittany metamorphic belt represents a type of metamorphic core complex formed during orogen-parallel extensional unroofing and regional-scale ductile flow.  相似文献