胶西北新城金矿床热液蚀变作用   总被引：5，自引：3，他引：2  

张潮  黄涛  刘向东  刘育  赵海  王旭东 《岩石学报》2016,32(8):2433-2450

新城金矿床是胶西北金矿集区中典型的破碎带蚀变岩型金矿床,其矿体受控于NE-NNE向焦家断裂及其次级断裂系统,主要赋存于断裂下盘(黄铁)绢英岩与红化花岗岩体中。焦家断裂下盘分带性明显,自主断裂面向外依此发育主断裂面和断层泥、挤压片理带、构造透镜体带、密集节理带和稀疏节理带。其中,主断裂面和断层泥发育粘土化蚀变;挤压片理带发育面状黄铁绢英岩化蚀变,其内赋存黄铁绢英岩型矿体;构造透镜体带发育脉型(黄铁)绢英岩化、面状绢英岩化和硅化蚀变,其次级断裂内赋存石英硫化物脉型矿体;节理带(包括密集节理带和稀疏节理带)主要发育成红化和细脉型(黄铁)绢英岩化,沿节理面赋存细脉型矿体。碳酸盐化蚀变叠加于上述热液蚀变之上。焦家断裂带表现为以水平为主的蚀变-矿化特征,(黄铁)绢英岩化蚀变与金成矿关系最为密切。论文在厘定断裂构造分带与蚀变-矿化分带空间关系的基础上,通过对各类蚀变岩与新鲜新城花岗岩体元素地球化学分析,剖析了热液蚀变作用过程及其机制。选取TiO_2作为不活动组分,质量平衡计算表明,成矿前新城花岗岩体发生红化作用时,带入组分有Fe_2O_3、K_2O、Al_2O_3以及少量Au、Ag、Cu、Pb、Zn、Sb和Bi等,而被带出组分有SiO_2、CaO和Na_2O等;成矿期红化花岗岩体蚀变为(黄铁)绢英岩过程中,明显带入组分有SiO_2、Fe_2O_3、FeO、Al_2O_3、Mg O、K_2O、Au、Ag、As、Cu、Pb、Zn、Sb和Bi等,而被带出组分为Na_2O。稀土元素地球化学特征与REE球粒陨石标准化配分模式曲线表明,红化和(黄铁)绢英岩化热液蚀变作用影响REE迁移。REE分别在红化和(黄铁)绢英岩化蚀变中带入和带出;Eu在红化过程中呈显著带入,表现为显著Eu正异常(δ_(Eu)=1.34),而在(黄铁)绢英岩化蚀变中活化带出,表现出Eu负异常(0.89~0.95)。成矿期发生(黄铁)绢英岩化蚀变时,Eu从氧化态Eu~(3+)转变为Eu~(2+),进入流体被带走,造成Eu负异常。金主要以Au(HS)~-_2形式在变质流体中运移。成矿流体沿片理面运移时,在挤压片理带发生黄铁绢英岩化蚀变,硫化作用使得流体还原硫活度降低,导致Au(HS)~-_2络合物失稳沉淀并赋存于黄铁矿和石英等矿物裂隙或晶格中,形成黄铁绢英岩型矿化;在构造透镜体带,成矿流体沿次级断裂面和碎裂岩裂隙发生蚀变形成脉型(黄铁)绢英岩,成矿元素在次级断裂面/裂隙内沉淀并形成石英硫化物脉型矿化;在节理带,成矿流体压力瞬时降低导致流体发生不混溶现象,使得Au(HS)~-_2络合物失稳沉淀并充填节理中形成细脉型矿化。  相似文献   

断层与幔源二氧化碳气藏的形成和分布——以渤海湾盆地济阳坳陷为例     

李理  钟大赉  杨长春  赵利 《岩石学报》2016,32(7):2209-2216

幔源CO_2气的形成和分布与不同级别断层早白垩世以来的活动密切相关。郯庐断裂带是研究区最主要的成气断层,拆离断层和变换断层这些地壳断层是次要的成气断层,二者于早白垩世143Ma、124Ma、新生代~43Ma、~24Ma和~8Ma的走滑或伸展活动,以及与之准同时的新生代碱性玄武岩浆活动,控制了幔源CO_2气的分散和聚集。它们与基底断裂、盖层断裂共同组成运移通道,其中拆离滑脱处的低速带和盖层断裂中的顺层断层是重要的水平运移通道。早白垩世古太平洋板块俯冲脱水脱气,产生的幔源CO_2气沿着郯庐断裂带向上分散聚集;新生代以来受控于太平洋板块俯冲方向和速度的改变以及印欧板块碰撞的远程效应,形成幔源CO_2气。与此同时郯庐断裂带切割深度亦逐渐加大,~43Ma碱性岩浆活动亦开始形成幔源CO_2气并主要位于断裂带,24Ma和8Ma(5Ma)为新近纪碱性岩浆活动脱气两个主要形成时期。郯庐断裂带的活动使地幔脱气形成的CO_2沿断层走向向上运移,并在作为重要横向运移通道的拆离断层拆离滑脱处,与因岩浆脱气形成的CO_2汇合,再通过陡倾斜、缓倾斜基底断层、盖层断层的接力传递在浅部聚集成藏。预测郯庐断裂带附近是无机成因油气重要的聚集分布区带。  相似文献   

Numerical modelling of fault reactivation in carbonate rocks under fluid depletion conditions – 2D generic models with a small isolated fault     

《Journal of Structural Geology》2016

This generic 2D elastic-plastic modelling investigated the reactivation of a small isolated and critically-stressed fault in carbonate rocks at a reservoir depth level for fluid depletion and normal-faulting stress conditions. The model properties and boundary conditions are based on field and laboratory experimental data from a carbonate reservoir. The results show that a pore pressure perturbation of −25 MPa by depletion can lead to the reactivation of the fault and parts of the surrounding damage zones, producing normal-faulting downthrows and strain localization. The mechanism triggering fault reactivation in a carbonate field is the increase of shear stresses with pore-pressure reduction, due to the decrease of the absolute horizontal stress, which leads to an expanded Mohr's circle and mechanical failure, consistent with the predictions of previous poroelastic models. Two scenarios for fault and damage-zone permeability development are explored: (1) large permeability enhancement of a sealing fault upon reactivation, and (2) fault and damage zone permeability development governed by effective mean stress. In the first scenario, the fault becomes highly permeable to across- and along-fault fluid transport, removing local pore pressure highs/lows arising from the presence of the initially sealing fault. In the second scenario, reactivation induces small permeability enhancement in the fault and parts of damage zones, followed by small post-reactivation permeability reduction. Such permeability changes do not appear to change the original flow capacity of the fault or modify the fluid flow velocity fields dramatically.  相似文献   

Main Frontal thrust deformation and topographic growth of the Mohand Range,northwest Himalaya     

《Journal of Structural Geology》2016

The Main Frontal thrust (MFT) uplifts the Himalayan topographic front. Deciphering MFT deformation kinematics is crucial for understanding how the orogen accommodates continuing continental collision and assessing associated hazards. Here, we (a) detail newly discovered fault-zone exposures along the MFT at the Mohand Range front in northwestern India and (b) apply contemporary fault zone theory to show that the MFT is an emergent fault with a well-developed fault zone overlain by uplifted Quaternary gravels over a horizontal length of ∼700 m. Northward from the front, the fault zone grades from a central, gouge-dominated core to a hanging-wall, rock-dominated damage zone. We observed incohesive, non-foliated breccia, fault gouge, and brittle deformation microstructures within the fractured country rocks (Middle Siwaliks) and outcrop scale, non-plunging folds in the proximal hanging wall. We interpret these observations to suggest that (1) elastico-frictional (brittle) deformation processes operated in the fault zone at near surface (∼1–5 km depth) conditions and (2) the folds formed first at the propagating MFT fault tip, then were subsequently dismembered by the fault itself. Thus, we interpret the Mohand Range as a fault-propagation fold driven by an emergent MFT in contrast to the consensus view that it is a fault-bend fold. A fault-propagation fold model is more consistent with these new observations, the modern range-scale topography, and existing erosion estimates. To further evaluate our proposed structural model, we used a Boundary Element Method-based dislocation model to simulate topographic growth from excess slip at a propagating fault tip. Results show that the frontal topography could have evolved by slip along a (a) near-surface fault plane consistent with the present-day MFT location, or (b) blind MFT at ∼3 km depth farther north near the drainage divide. Comparing modelled vs. measured high resolution (∼16 cm) topographic profiles for each case provides permissible end-member scenarios of an either dynamically-evolving, high erosion, northward-migrating frontal scarp or a static, low, and symmetric, MHT-related fold, respectively. Our integrated approach is expected to deliver an improved understanding of coupled fault-generated deformation and topographic growth that may be applied more broadly across the entire Himalayan front.  相似文献   

Kinematic analysis and palaeoseismology of the Edremit Fault Zone: evidence for past earthquakes in the southern branch of the North Anatolian Fault Zone,Biga Peninsula,NW Turkey     

Hasan Sözbilir  Ökmen Sümer  Çağlar Özkaymak  Bora Uzel  Tayfun Güler  Semih Eski 《Geodinamica Acta》2016,28(4):273-294

The Edremit Fault Zone (EFZ) forms one of the southern segments of the North Anatolian Fault Zone (NAFZ) at the northern margin of the Edremit Gulf (Biga Peninsula, South Marmara Region, Turkey). Stratigraphic, structural and kinematic results indicate that basinward younging of the fault zone, in terms of a rolling-hinge mechanism, has resulted in at least three discrete Miocene to Holocene deformational phases: the oldest one (Phase 1) directly related to the inactive Kazda? Detachment Fault, which was formed under N–S trending pure extension; Phase 2 is characterised by a strike-slip stress condition, probably related to the progression of the NAFZ towards the Edremit area in the Plio–Quaternary; and Phase 3 is represented by the high-angle normal faulting, which is directly interrelated with the last movement of the EFZ. Our palaeoseismic studies on the EFZ revealed the occurrence of three past surface rupture events; the first one occurred before 13178 BC, a penultimate event that may correspond to either the 160 AD or 253 AD historical earthquakes, and the youngest one can be associated with the 6 October 1944 earthquake (M_w = 6.8). These palaeoseismic data indicate that there is no systematic earthquake recurrence period on the EFZ.  相似文献   

The Bekten Fault: the palaeoseismic behaviour and kinematic characteristics of an intervening segment of the North Anatolian Fault Zone,Southern Marmara Region,Turkey     

Selim Özalp  Akın Kürçer  Ersin Özdemir  Tamer Y. Duman 《Geodinamica Acta》2016,28(4):347-362

The Bekten Fault is 20-km long N55°E trending and oblique-slip fault in the dextral strike-slip fault zone. The fault is extending sub-parallel between Yenice-Gönen and Sar?köy faults, which forms the southern branch of North Anatolian Fault Zone in Southern Marmara Region. Tectonomorphological structures indicative of the recent fault displacements such as elongated ridges and offset creeks observed along the fault. In this study, we investigated palaeoseismic activities of the Bekten Fault by trenching surveys, which were carried out over a topographic saddle. The trench exposed the fault and the trench stratigraphy revealed repeated earthquake surface rupture events which resulted in displacements of late Pleistocene and Holocene deposits. According to radiocarbon ages obtained from samples taken from the event horizons in the stratigraphy, it was determined that at least three earthquakes resulting in surface rupture generated from the Bekten Fault within last ~1300 years. Based on the palaeoseismological data, the Bekten Fault displays non-characteristic earthquake behaviour and has not produced any earthquake associated with surface rupture for about the last 400 years. Additionally, the data will provide information for the role of small fault segments play except for the major structures in strike-slip fault systems.  相似文献   

郯庐断裂(安徽段)两侧肥东群与霍邱群特征性岩石对比研究   总被引：1，自引：0，他引：1  

聂峰  张忠宝  石永红  王娟  唐盼  任光雪 《岩石学报》2016,32(4):1087-1100

郯庐断裂带(安徽段)内部物质组成十分复杂,现有研究认为郯庐内部以扬子板块为主体,对于是否存在西侧华北板块物质混入尚不清楚。为此本文选取了3个特征性样品展开了细致的岩相学研究、温压估算以及锆石U-Pb定年分析,分别为:霍邱群样品WS069-1(磁铁石榴角闪岩)以及样品WS070-1(石榴黑云母片岩);肥东群样品TF003-1(石榴黑云母片岩)。研究发现,霍邱群磁铁石榴角闪岩与肥东群磁铁石榴角闪岩的矿物组合及矿物主量元素特征基本一致。针对霍邱群石榴黑云母片岩与肥东群石榴黑云母片岩的峰期变质条件评价也相互匹配。本文在霍邱群仅发现了~3.2Ga、3.0Ga、2.80Ga、2.74Ga等四组反映源区结晶时代的碎屑锆石年龄,但结合前人对霍邱群和五河群的研究可以认为霍邱群的峰期变质年龄应为2.44Ga,这与肥东群磁铁石榴角闪岩和石榴黑云母片岩的峰期变质年龄2.47~2.41Ga吻合。因此肥东群和霍邱群相同特征性岩石磁铁石榴角闪岩从岩相学、变质P-T条件及变质时代等方面皆具可比性,从而推测肥东群磁铁石榴角闪岩和石榴黑云母片岩构造透镜体应为因郯庐断裂左旋走滑作用而卷入肥东群中的霍邱群岩片。  相似文献   

营口—潍坊断裂带对辽东湾坳陷东部凸起的形成及构造分段的控制作用——来自物理模拟实验和断层几何学特征的证据          下载免费PDF全文

曹忠祥  任凤楼  宋国奇  漆家福 《地质科学》2008,43(2):238-250

辽东湾坳陷是渤海湾盆地的重要组成部分,其发育受营口—潍坊断裂带控制。其东支的两条分支断层大体沿其次级构造单元辽东湾东部凸起的两侧延伸。本文应用大量地震测线的构造几何学特征分析,结合构造物理模拟试验,认为辽东湾坳陷东部凸起是在先期存在的低凸起的基础上,在渐新世东营组沉积期因营口—潍坊断裂带的右行走滑形成的。以Lz205测线和Lz185测线之间为界可分为类似的两段,各自经历了一个自南而北的右旋走滑伸展—剪切走滑—右旋走滑挤压的变化过程。这种变化由北东向的基底断裂与由之派生的新生代内的北北东内断裂间的关系造成,在两者的交汇点(如Lz151)或走向发生转折处(如Lz255)右旋走滑作用发生变换,其南侧拉张下沉,正断层发育,表现为右旋走滑伸展,北侧则挤压隆升,表现为右旋走滑挤压。南、北两侧相反的力学性质是走滑活动派生的局部差异应力场造成的。构造物理模拟试验证实了右旋走滑伸展—剪切走滑—右旋走滑挤压的变化过程。  相似文献   

塔里木盆地中央地区的断裂系统:几何学、运动学和动力学背景   总被引：24，自引：11，他引：13       下载免费PDF全文

李曰俊  吴根耀  孟庆龙  杨海军  韩剑发  李新生  董立胜 《地质科学》2008,43(1):82-118

塔中低凸起位于塔里木盆地中央隆起的中段,发育4组不同方向的断裂,以北西向的塔中Ⅰ号断裂带为主干断裂,其南的近北西向断裂和近东西向断裂与之组成"入"字形构造,向西撒开;剖面上则因塔中Ⅰ号断裂带活动强度自东向西减弱而出现不同的断裂组合样式。基于地层记录和区域演化分析了该区断裂系统的活动时期和活动方式,两次重大的挤压—剪切事件分别发生在奥陶纪末和晚志留-中泥盆世,因而塔里木盆地中央隆起可能是晋宁期山体在后期重新活动形成的加里东期陆内造山带。北西向断裂是二叠纪岩浆侵入或玄武岩喷溢的通道,之后全区断裂基本处于平静状态。结合塔里木周边造山带的演化,认为古生代—三叠纪时塔中地区的盆地发育主要受西昆仑造山带演化制约,同时叠加有古阿尔金剪切造山带的影响,这是为塔中地区特殊的构造位置决定的。侏罗纪—新近纪,该地的盆地主要与阿尔金断裂的剪切造山作用耦合发育,仅早白垩世时与塔北—库车地区同属南天山的"盆""山"系统。断裂的运动学特征取决于其动力学背景,实际上受制于邻侧的造山带发育。断裂系统的发育是塔中地区能形成复式油气田的关键条件之一,本文的研究对推进复式油气成藏的机理研究、明确近期的重点勘探靶区等有积极意义。  相似文献   

Geochemistry of post-collisional mafic lavas from the North Anatolian Fault zone, Northwestern Turkey     

Biltan Kürkcüolu  Tanya Furman  Barry Hanan 《Lithos》2008,101(3-4):416-434

Extensive magmatic activity developed at the northwestern part of the Anatolian block and produced basaltic lavas that are situated along and between the two segments of the North Anatolian Fault zone. This region is a composite tectonic unit formed by collision of continental fragments after consumption of Neotethyan ocean floor during the late Cretaceous. Northwestern Anatolian basalts and evolved lavas exhibit both tholeiitic and calc-alkaline characteristics. Mafic lavas are moderately enriched in LILE (except depleted part of Yuvacık and İznik samples) and depleted in HFSE (but not Zr, Hf) relative to primitive mantle values, suggesting derivation from a MORB-like mantle source that is unexpected in this subduction environment. Sr and Nd isotopes are close to the mantle array and vary beyond analytical error (⁸⁷Sr/⁸⁶Sr 0.70404–0.70546, ¹⁴³Nd/¹⁴⁴Nd 0.51270–0.51289). These geochemical features may result from two possible processes: (1) melting of a MORB-like mantle source that was modified by subduction-released fluids and melts or (2) modification of mafic liquids derived from a dominantly MORB-like source by crustal or lithospheric mantle material. Geochemical characteristics of the lavas (e.g., Ba/Rb, Rb/Sr, Ba/Zr, ⁸⁷Sr/⁸⁶Sr, Sr/P) vary systematically along the fault zone from east to west, consistent with a decrease in the degree of melting from east to west or a change in the nature of the source composition itself. Thus, the difference in incompatible elements and Sr–Nd isotopic ratios seems to result from small-scale mantle heterogeneity in a post-collisional tectonic environment.  相似文献