磁化率各向异性与花岗岩形成的构造背景──以广东两类不同成因类型花岗岩为例

广东省两类不同成因类型花岗岩磁化率各向异性研究表明：Ⅰ型花岗岩的磁化率的数值较大，一致性较好；各向异性度比较小，磁化率椭球为纯压扁型．Ｓ型花岗岩的磁化率数值普遍较小，一致性较差；各向异性度比较大，磁化率椭球以兼具压扁型和拉长型为特征；岩体内部两种磁化率椭球（压扁型和拉长型）的３个主轴的方向具有较好的一致性．结合花岗岩的野外地质特征，作者认为，Ｓ型花岗岩在形成过程中受到了板块内部强烈的挤压和剪切作用，不同类型的源岩在强烈的挤压作用下局部地带发生破裂，发育了大规模的剪切推覆作用，在剪切热的作用下源岩物质被改造形成Ｓ型花岗岩；Ⅰ型花岗岩则是原始岩浆侵入到地壳上部形成，其形成的构造背景与当时板块的Ｂ型俯冲有关。     

铁矿浆出现的构造背景及其找矿评价意义

铁矿浆、斑岩铜矿和海相火山岩铜矿均是火山－岩浆作用的产物。铁矿浆通常形成于构造环境从引张发展至挤压过程中并以挤压条件为主时，介于斑岩铜矿和海相火岩岩铜矿的成矿条件之间，其成因及时分布与斑岩铜矿更加密切，多出现于陆相或海陆交互相环境。     

云南金沙江蛇绿岩的地球化学特征及其成因的初步研究

本文报道了出露于云南省德钦县白马雪山、书松、共卡及吉义独地区的金沙江蛇绿岩的地球化学特征。该蛇绿岩各岩石单元均为ＬＲＥＥ富集型。文中讨论了金沙江蛇绿岩的成因及其形成的构造环境，指出该区玄武岩的微量元素和ＲＥＥ分布可用ＮＭＯＲＢ与ＯＩＢ的混合来解释，推测形成于类似现今冰岛的扩张脊与地幔热柱重叠的构造环境     

岩体节理形貌的分形维数与摩擦角的关系研究

在土木工程设计和施工中，岩体节理的摩角是一个重要参数，该值的获取既费时又费力。本文首先简要介绍节理形貌的描述方法和分形几何理论，然后将分形理论引人岩体节理摩擦角的研究中，得出了用分形维数表示摩擦角的经验公式。关键词     

中国早元古代区域变质建造及构造环境的初步研究

根据中国早元古代变质建造研究表明，早元古时期，中朝变质地区华北分区是中国陆壳中可确认的最主要相对稳定的隆起区。其它变质地区及中朝变质地区的其它分区相对于华北分区为较活动的构造区。吕梁运动之后中朝变质地区为相对稳定的准地台，而其它变质地区一般仍一度处于较活动的构造环境。     

旋转针锥光下一光轴出露时快速测定2V的图解

为了简化旋转针锥光下一光轴出露时测定2V的赤平投影法的绘图手续,设计了本图解,只要测取θ,R,R′与φ四值,就能更快地求得2V值。     

北祁连逆掩断裂带的缓倾角断层

本文阐述了北祁连逆掩带中缓倾角断层的结构特征和地质意义。这些断层是本区走向北西西、断面南倾的区域逆冲断裂系的组成部分,断距大小不等,显示出一定规模的推覆构造型式。文中把本区和典型的逆掩推覆构造作了对比,并推断了这种缓倾角断层的演化模式。此项研究为进一步评价酒泉盆地以至河西走廊的含油远景提供了构造研究基础。     

Low-grade metamorphism and geotectonic setting of the Macuchi Formation, Western Cordillera of Ecuador

Abstract The Cretaceous-Eocene basic to intermediate marine volcanic rocks of the Mucuchi Formation constitute the Western Cordillera in northern Ecuador. Their chemical features mostly correspond to those of tholeiitic basalts with some calc-alkaline affinities and suggest an oceanic island arc setting. The Macuchi rocks are affected by low-grade, non-deformative metamorphism, characterized by zeolite, prehnite-pumpellyite and lower greenschist facies assemblages. Depth-zonation is suggested by the downward mineral sequence: (i) laumontite+ (pistacitic epidote, pumpellyite + prehnite); (ii) pumpellyite+ prehnite + pistacitic epidote; (iii) actinolite+biotite+ pistacitic epidote + chlorite. This broad zonation and the chemistry of individual minerals point to an interaction between the volcanic rocks and sea-water under a moderate to high thermal gradient (= 75° C/km?). Alteration appears to have been dependent primarily on fluid control (volume, pressure, composition), temperature and reaction kinetics which together partly overshadow the role of load-pressure. Compositional variations of a mineral species at the scale of a contiguous flow or even at the scale of a thin section show that intensity of alteration was spatially uneven depending on rock permeability and consequently, metastable equilibrium commonly exists. However, a progressive approximation to equilibrium as a result of P–T control is shown by the mineralogy. A high f_o2 of the fluid phase is evident from the mineral chemistry. The metamorphism of the Macuchi volcanics is similar to the hydrothermal-burial type produced during the development of a volcanic arc where lavas and volcanoclastics accumulated in a shallow marine environment. However, some of its characteristics point to a transition toward systems defined by a higher T/P ratio such as those found in ocean-floor metamorphism. A model is proposed in which the Macuchi volcanics are assigned to an oceanic island arc generated contemporaneously with a marginal basin which has opened as the outcome of progressive north-south attenuation of the continental crust due to mantle diapirism.     

Dip angle determination of fault planes from gravity data

This paper illustrates an approach for determining uniquely the dip angle of a faulted structure, approximated by two semi-infinite horizontal slabs, displaced vertically from each other, by making use of the maximum positive and the maximum negative gravity amplitudes. The method is simple and rapid, and it does not necessarily require computing facilities.Two field examples from Aberdeenshire, Scotland and from the Northern Eastern Desert of Egypt are presented in which the angles of dip of two geological contacts are estimated at 45 and 40 degrees, respectively, and verified from surface geology, gravity modeling, and seismic data.