湖南城步地区重力异常的初步研究

介绍了城步地区重力异常数据处理的几种方法,分析了重力异常及其位场转换后的特征,对重力异常进行了初步解释推断.根据重力异常特征,推断了10条断裂,圈定了兰蓉-谭家坳-照面山、黄坪、洞背和扛口等4处半隐伏岩体;结合地质地球化学综合信息,提出了4处找矿有利地段.通过半定量反演,认为:湖南省内苗儿山岩体与越城岭岩体以及五团岩体与苗儿山岩体在深部不相连.     

山东英格庄金矿床构造控矿特征及深部预测

英格庄金矿床位于山东牟乳金矿带巫山断裂的南缘,其围岩主要以古老变质岩与昆嵛山花岗岩为主,为含金石英脉型金矿。文章通过对英格庄金矿床控矿断裂发展史以及断面几何形态与金矿体赋存位置关系的研究,发现矿体在断层带中的分布具有规律性。深部地球化学原生晕研究表明,英格庄金矿床Bi与Hg关系非常密切,是金矿化的最佳指示元素,且在已知矿体下方出现前缘晕与尾晕相互叠加的现象。结合矿体在断裂中分布的规律以及原生晕特点,对英格庄矿床深部第二富集段进行了预测,并预测在-220m下有第二金富集段存在,且具有很大的经济价值。     

同构造沉积分析反演逆冲构造变形过程--燕山东段凌源南部中生代逆冲构造变形过程研究

介绍了同构造沉积分析的基本概念、研究思路、主要研究方法及其在区域构造变形过程研究中的重要作用。基于对辽西凌源南部区域构造变形、晚侏罗世土城子组同构造沉积粗碎屑沉积物成分变化规律的研究 ,获得如下主要认识 :( 1)同构造沉积始于髫髻山组火山活动之后 ;沉积物成分变化及古水动力特征表明 ,同构造沉积物源区主体位于盆地西侧褶皱隆起区 ,而不是来自南东方向的大型逆冲断层上盘的前渊沉积 ;而且显示了正常层序的物源区倾斜岩层的剥蚀和揭顶过程 ;当时的剥蚀作用已达中元古界蓟县系雾迷山组上部。 ( 2 )分布于郭家店盆地和邓杖子盆地之间的中元古界长城系地层“残片” ,与其东侧北票组间为向SEE逆冲的断层接触 ,而西侧与土城子组 (原邓杖子组 )之间为不整合接触 ;在老虎沟东南长城系地层“残片”不复存在的区域 ,土城子组不整合于北票组之上。该“残片”很可能是髫髻山组火山活动之前指向SEE的逆冲构造变形形成的飞来峰构造的残余部分。( 3 )凌源南部中生代逆冲构造变形可以区分为 :早侏罗世北票组之前 (印支期 )由北向南的逆冲作用、北票组之后髫髻山组之前向SEE的冲断推覆、髫髻山组之后的逆冲褶皱变形与同构造沉积作用以及九佛堂组之后局部的逆冲作用。指向SEE的主要逆冲作用以及伴生褶皱变形     

新疆西昆仑玛尔坎苏锰矿带成矿地质特征及找矿方向

西昆仑玛尔坎苏地区晚石炭世优质锰矿找矿取得重大突破,锰矿带层位稳定,厚度较大,品位富,属于典型的海相沉积型锰矿床。笔者通过对成矿地质背景及典型矿床成矿地质特征进行研究,分析控矿地质条件,提出含碳泥晶灰岩、背斜构造、断裂构造、遥感及地球物理等找矿标志,认为玛尔坎苏锰矿带外围及深部找矿潜力巨大,应加强奥尔托喀讷什锰矿床南翼、苏萨尔布拉克、博托彦、托库孜布拉克等的锰矿找矿工作;应重视矿田构造的研究,拓展深部找矿空间;塔里木西缘及北缘石炭系锰矿找矿工作需进一步重视。     

江南造山带仙霞复式岩体的成因研究

仙霞复式岩体位于江南造山带东北部,是该区出露面积最大的复式岩体之一。本文在野外地质调查的基础上,对仙霞复式岩体不同期次岩浆岩开展了锆石U-Pb年代学和全岩地球化学分析,结果显示该复式岩体侵位分为早、中、晚三阶段,岩性分别为二长花岗岩(143.0±3.5Ma)、花岗闪长岩(140.0±2.0Ma)和钾长花岗岩(138.6±3.5Ma),是江南造山带燕山期早期(146～135Ma)岩浆作用的产物。仙霞复式岩体三阶段岩浆岩均为高碱、弱过铝质岩石,具有相似的稀土元素配分模式,微量元素均呈Rb、Ba、U、K、Pb等大离子亲石元素(LILE)富集, Nb、Ta、P、Ti等高场强元素(HFSE)亏损的特征,锆石εHf(t)同位素为负值(–15.54～–1.03)。综合分析显示,仙霞复式岩体的岩浆起源于下地壳物质为主的壳幔混合源区,在岩浆上升演化过程中经历了显著的结晶分异作用,形成于早白垩世(146～135 Ma)古太平洋板块向西俯冲的背景下。     

藏西班公湖斑岩铜矿带成矿斑岩地球化学及Pb、Sr、Nd同位素特征

对班公湖铜矿带2个具有代表性的斑岩铜矿床--多不杂铜矿床和尕尔穷铜矿床进行了详细的岩石地球化学和Pb、Sr、Nd同位素特征研究表明,与冈底斯铜矿带相比,该铜矿带含矿斑岩大离子不相容元素的富集程度相对减弱,而高场强元素和重稀土元素的亏损程度明显减轻,轻、重稀土元素的分馏程度减弱,且具有Eu的弱正异常,岩石在氧化性上更强一些;从Pb、Sr、Nd同位素特征来看,班公湖铜矿带含矿斑岩更富含放射性成因铅,~(143)Nd/~(144)Nd比值明显降低,其源区更接近印度洋沉积物区域,表明该铜矿带含矿斑岩的岩浆源区更浅,有更多的地壳物质加入;班公湖铜矿带含矿斑岩形成的构造环境属于活动大陆边缘区域,而冈底斯铜矿带明显偏离了活动大陆边缘区域,表明班公湖斑岩铜矿带形成于碰撞后地壳隆升阶段,而冈底斯铜矿带则形成于碰撞后地壳伸展阶段.     

古巴前陆盆地三区块油气成藏条件及有利区带预测

古巴前陆盆地三区块是2005年中国石油化工股份有限公司登记的风险勘探开发合同区块,位于墨西哥湾西南部,属古巴西部前陆盆地中租赁区块之一。结合该盆地的勘探现状及盆地内的钻井、物探以及地球化学等相关资料,分析了该盆地的油气成藏条件及其勘探潜力,预测了有利区带。三区块主要发育上侏罗统—下白垩统泥灰岩、泥质灰岩和中—下侏罗统泥页岩两套主要烃源岩,储层以泥晶灰岩、灰岩和砂砾岩为主,区内早期形成的圈闭在造山期基本遭到破坏,有效的圈闭主要形成于古近纪晚期,圈闭类型以背斜、断鼻、断块为主,推测可能发育多套储盖组合。盆地内有两大潜力勘探区域:北部前陆冲断带发育古近系盖层,是下一步勘探的首选区域;南部盆地北缘发育较厚的古近系和新近系,属南部盆地系统,推测是有利远景区。     

广西全州小源铅锌矿地质特征、成因类型及找矿方向探讨

小源铅锌矿床是桂东北地区海洋山NE向铅锌铜成矿带中段的一个小型矿床。区内的中上奥陶统田岭口组上段和下泥盆统莲花山组是主要含矿地层;矿脉产于NE走向的张扭性正断层(断裂)中,构成多条平行等距排列的矿脉带;区内发现含矿脉带5条,圈定矿体7个;矿体在脉带中分布具有等距性。矿床成因类型为以岩浆热液为主的多源复合断裂控制热液脉型矿床。小源地区是寻找大型铅锌矿床有利地段。     

论黑龙江右岸北西向构造带的确立及其对成矿的控制作用

从小兴安岭特殊的盆岭构造地貌景观、复杂的构造交叉、多期北西向及南北向成矿构造的继承延续、中生代花岗岩带和火山岩带对成矿的控制、北西向独特的地球物理异常构造趋势等客观存在的特征,确立了黑龙江右岸北西向构造-成矿带的存在.通过大量矿床实例论述了多期活动的北西向构造带具有控岩、控矿、导矿、容矿的多项成矿功能,矿床（体）呈北西向带状分布.矿床的展布具有明显的水平分带现象.为黑龙江右岸找矿预测提供了理论依据.     

QUATERNARY FOLDING OF THE XIHU ANTICLINE BELT ALONG FORELAND BASIN OF NORTH TIANSHAN

Tianshan is one of the longest and most active intracontinental orogenic belts in the world. Due to the collision between Indian and Eurasian plates since Cenozoic, the Tianshan has been suffering from intense compression, shortening and uplifting. With the continuous extension of deformation to the foreland direction, a series of active reverse fault fold belts have been formed. The Xihu anticline is the fourth row of active fold reverse fault zone on the leading edge of the north Tianshan foreland basin. For the north Tianshan Mountains, predecessors have carried out a lot of research on the activity of the second and third rows of the active fold-reverse faults, and achieved fruitful results. But there is no systematic study on the Quaternary activities of the Xihu anticline zone. How is the structural belt distributed in space?What are the geometric and kinematic characteristics?What are the fold types and growth mechanism?How does the deformation amount and characteristics of anticline change?In view of these problems, we chose Xihu anticline as the research object. Through the analysis of surface geology, topography and geomorphology and the interpretation of seismic reflection profile across the anticline, we studied the geometry, kinematic characteristics, fold type and growth mechanism of the structural belt, and calculated the shortening, uplift and interlayer strain of the anticline by area depth strain analysis.
In this paper, by interpreting the five seismic reflection profiles across the anticline belt, and combining the characteristics of surface geology and geomorphology, we studied the types, growth mechanism, geometry and kinematics characteristics, and deformation amount of the fold. The deformation length of Xihu anticline is more than 47km from west to east, in which the hidden length is more than 14km. The maximum deformation width of the exposed area is 8.5km. The Xihu anticline is characterized by small surface deformation, simple structural style and symmetrical occurrence. The interpretation of seismic reflection profile shows that the deep structural style of the anticline is relatively complex. In addition to the continuous development of a series of secondary faults in the interior of Xihu anticline, an anticline with small deformation amplitude(Xihubei anticline)is continuously developed in the north of Xihu anticline. The terrain high point of Xihu anticline is located about 12km west of Kuitun River. The deformation amplitude decreases rapidly to the east and decreases slowly to the west, which is consistent with the interpretation results of seismic reflection profile and the calculation results of shortening. The Xihu anticline is a detachment fold with the growth type of limb rotation. The deformation of Xihu anticline is calculated by area depth strain analysis method. The shortening of five seismic reflection sections A, B, C, D and E is(650±70) m, (1 070±70) m, (780±50) m, (200±40) m and(130±30) m, respectively. The shortening amount is the largest near the seismic reflection profile B of the anticline, and decreases gradually along the strike to the east and west ends of the anticline, with a more rapidly decrease to the east, which indicates that the topographic high point is also a structural high point. The excess area caused by the inflow of external material or outflow of internal matter is between -0.34km² to 0.56km². The average shortening of the Xihubei anticline is between(60±10) m and(130±40) m, and the excess area caused by the inflow of external material is between 0.50km² and 0.74km². The initial locations of the growth strata at the east part is about 1.9~2.0km underground, and the initial location of the growth strata at the west part is about 3.7km underground. We can see the strata overlying the Xihu anticline at 3.3km under ground, the strata above are basically not deformed, indicating that this section of the anticline is no longer active.