长江中下游成矿带庐枞矿集区新发现钨多金属矿床

庐枞矿集区是长江中下游成矿带内重要的铁铜矿集区,产出一系列典型的玢岩型铁矿床和斑岩型铜矿床。最近在庐枞矿集区北部东顾山地区,首次发现了钨多金属矿床,这是在长江中下游成矿带长江以北首次发现的钨矿化,为矽卡岩型。钨矿化主要呈浸染状或脉状产于东顾山岩体(黑云母花岗岩)与奥陶系(白云质灰岩)的接触带或大理岩层间破碎带中。矿石矿物主要为白钨矿及钼、铜、铅锌硫化物。钨矿化主要发育在华南地区,近年来在长江中下游成矿带的过渡带及以南的扬子地块如江南隆起等地发现多个新的大型钨矿床,但在长江以北地区一直未曾发现。庐枞矿集区北部东顾山钨矿床的发现,指明长江中下游成矿带燕山期除铁、铜大规模成矿作用以外,也有钨的成矿作用,指示该区具有良好的钨矿找矿前景。在长江中下游成矿带的其他矿集区要重视和加强钨矿化的成矿作用研究和找矿工作。     

兰坪盆地西缘大宗铜矿区容矿火山岩LA-ICP-MS锆石U-Pb年代学及地质意义

西南"三江"复合造山成矿带中段的兰坪盆地东、西缘均出露大片火山岩,但仅在西缘发育脉状铜矿床,并构成一条近南北向长约150 km的铜矿带。大多数矿床产于火山岩内及其与紧邻地层接触部位的断层裂隙带中。目前尚未确定赋矿围岩的年代,制约了对成矿过程的认识。在对位于该矿带中北段的大宗脉状铜矿区的详细路线地质调查的基础上,分别对代表安山质火山喷发-沉积旋回第1、2韵律层的2件玻屑晶屑凝灰岩和含火山角砾凝灰岩样品进行了锆石U-Pb定年,以期揭示赋矿围岩的时代。结果表明,容矿火山岩出露厚度约1 904 m,可划分为3个喷发-沉积韵律;第1韵律层凝灰岩的岩浆锆石加权平均~(206)Pb/~(238)U年龄为247.2±4.4 Ma(n=21,MSWD=2.7),第2韵律层凝灰岩的岩浆锆石加权平均~(206)Pb/~(238)U年龄为243.8±6.4 Ma(n=9,MSWD=1.5),指示火山活动时代为244~247 Ma,属早中三叠世;区内强劈理化的砂泥岩夹灰岩位于火山岩之下,应属于晚二叠世地层。结合前人资料分析,认为大宗铜矿区容矿沉积-火山岩组合形成于晚古生代—早中生代,是古特提斯阶段造山运动的产物。从容矿围岩看,大宗矿区内早中三叠世火山岩容矿脉状铜矿床只是兰坪盆地西缘铜矿带诸多脉状铜矿床的一种类型,没有明显的地层或岩性专属性,应属强构造变形带控矿的后生充填热液矿床。     

强化探矿管理 扩大矿山储量

大厂高峰矿业有限责任公司１００号矿体自１９９０年筹建以来,实行探采结合,节约投资,合理运用各种探矿手段,布置合理的生探工程间距,强化生探现场管理,增加矿山工业储量,并且力求达到正规作业和安全生产。为高峰矿业的明天再创辉煌。     

湘东雁林寺金矿田及邻区构造变形事件与控矿构造属性

雁林寺金矿田位于湘东北金矿区南部,发育大量中小型金矿床（点）。前人对区内包括控矿构造在内的各类变形的运动学特征及形成时代和机制尚缺乏探讨和解析,从而影响到对矿床形成和保存规律的全面认识。鉴此,本文基于区域构造特征和大量露头构造的详细解析,厘定了雁林寺金矿田及邻区的构造变形序列及其时代背景,并结合矿床地质和同位素测年等其他资料,探讨了成矿时代和控矿构造属性。主要认识如下：（1）研究区自早至晚经历了新元古代中期NW—SE向挤压、志留纪早期NW—SE向挤压、志留纪末花岗岩体主动侵位挤压、中三叠世晚期NW—SE向挤压、晚三叠世NNW—SSE向—S—N向挤压、中侏罗世晚期NWW—SEE向—近E—W向挤压、白垩纪NW—SE向伸展、古近纪中晚期NE—SW向—NNE—SSW向挤压、古近纪晚期—新近纪初NW—SE向挤压等9期构造事件,形成了不同走向和规模的褶皱、逆断裂、顺层剪切带、正断裂、右行和左行走滑断裂与剪切破裂、断陷盆地、劈理、膝折等构造类型,以及部分构造走向的后期偏转。（2）区内存在志留纪末和晚三叠世两期金成矿作用,均与同期花岗质岩浆活动有关。（3）雁林寺金矿田容矿构造主要有前中生代顺层脆韧性剪切带和层间断裂、中—晚三叠世的NW向—NWW向右行走滑断裂和剪切裂隙、花岗岩枝的内外接触带等3类。志留纪末金矿床的导矿构造为先期NE向深部逆断裂,晚三叠世金矿床的导矿构造为中三叠世晚期的NE向逆断裂、晚三叠世早期的NEE向和EW向逆断裂。对两期金矿床而言,成矿后各期变形事件中形成的不同类型断裂均可能成为破矿构造。     

湖南水口山花岗闪长岩的地球化学特征及成因

中生代花岗质岩石在华南分布广泛,且常与W-Sn、Pb-Zn等金属矿床具有紧密的时空联系,而湖南水口山花岗闪长岩是与Pb-Zn成矿作用有关的典型代表。与华南改造型花岗岩相比,水口山花岗闪长岩及其成矿作用的研究程度较低。本文系统研究了该花岗闪长岩的岩相学特征、主元素、微量元素和Sr-Nd同位素组成,重点讨论了其岩石成因类型、物质来源及形成的构造环境。研究结果表明,水口山花岗闪长岩为贫Si O2、富碱、富铁镁、准铝质-弱过铝质的高钾钙碱性岩;表现出轻稀土元素富集,轻重稀土分馏强烈,弱负Eu异常;不相容元素Ba、Ta、Nb、Sr、Ti亏损,而Rb、Th、U、K、LREE相对富集的特征。岩体的(87Sr/86Sr)i比值为0.707364~0.711380,εNd(t)值为–6.61~–2.40,具明显的亏损地幔和华南上地壳混合特征。水口山花岗闪长岩的矿物组成、元素地球化学和同位素地球化学特征均表明,该岩体为同熔型花岗岩。该岩体是在晚中生代由太平洋板块向欧亚大陆板块俯冲诱发的华南板块伸展-减薄构造环境下,玄武质岩浆上涌,底侵中下地壳,与中上地壳混合形成的燕山早期高钾钙碱性花岗岩。     

Geology,geochronology and geochemistry of large Duobaoshan Cu-Mo-Au orefield in NE China: Magma genesis and regional tectonic implications

Duobaoshan is the largest porphyry-related Cu-Mo-Au orefield in northeastern(NE)Asia,and hosts a number of large-medium porphyry Cu(PCDs),epithermal Au and Fe-Cu skarn deposits.Formation ages of these deposits,from the oldest(Ordovician)to youngest(Jurassic),have spanned across over 300 Ma.No similar orefields of such size and geological complexity are found in NE Asia,which reflects its metallogenic uniqueness in forming and preserving porphyry-related deposits.In this study,we explore the actual number and timing of magmatic/mineralization phases,their respective magma genesis,fertility,and regional tectonic connection,together with the preservation of PCDs.We present new data on the magmatic/mineralization ages(LA-ICP-MS zircon U-Pb,pyrite and molybdenite Re-Os dating),whole-rock geochemistry,and zircon trace element compositions on four representative deposits in the Duobaoshan orefield,i.e.,Duobaoshan PCD,Tongshan PCD,Sankuanggou Fe-Cu skarn,and Zhengguang epithermal Au deposits,and compiled published ones from these and other mineral occurrences in the orefield.In terms of geochronology,we have newly summarized seven magmatic phases in the orefield:(1)Middle-Late Cambrian(506-491 Ma),(2)Early and Middle Ordovician(485-471 Ma and~462 Ma),(3)Late Ordovician(450-447 Ma),(4)Early Carboniferous and Late-Carboniferous to Early Permian(351-345 and 323-291 Ma),(5)Middle-Late Triassic(244-223 Ma),(6)Early-Middle and Late Jurassic(178-168 Ma and~150 Ma),and(7)Early Cretaceous(~112 Ma).Three of these seven major magmatic phases were coeval with ore formation,including(1)Early Ordovician(485-473 Ma)porphyry-type Cu-Mo-(Au),(2)Early-Middle Triassic(246-229 Ma)porphyry-related epithermal Au-(Cu-Mo),and(3)Early Jurassic(177-173 Ma)Fe-Cu skarn mineralization.Some deposits in the orefield,notably Tongshan and Zhengguang,were likely formed by more than one mineralization events.In terms of geochemistry,ore-causative granitoids in the orefield exhibit adakite-like or adakite-normal arc transitional signatures,but those forming the porphyry-/epithermal-type Cu-Mo-Au mineralization are largely confined to the former.The varying but high Sr/Y,Sm/Yb and La/Yb ratios suggest that the ore-forming magmas were mainly crustal sourced and formed at different depths(clinopyroxene-/amphibole-/garnet-stability fields).The adakite-like suites may have formed by partial melting of the thickened lower crust at 35-40 km(for the Early Ordovician arc)and>40 km(for the Middle-Late Triassic arc)depths.The Early Jurassic Fe-Cu skarn orecausative granitoids show an adakitic-normal arc transitional geochemical affinity.These granitoids were likely formed by partial melting of the juvenile lower crust(35-40 km depth),and subsequently modified by assimilation and fractional crystallization(AFC)processes.In light of the geological,geochronological and geochemical information,we proposed the following tectonometallogenic model for the Duobaoshan orefield.The Ordovician Duobaoshan may have been in a continental arc setting during the subduction of the Paleo-Asian Ocean,and formed the porphyry-related deposits at Duobaoshan,Tongshan and Zhengguang.Subduction may have ceased in the latest Ordovician,and the regional tectonics passed into long subsidence and extension till the latest Carboniferous.This extensional tectonic regime and the Silurian terrestrial-shallow marine sedimentation had likely buried and preserved the Ordovician Duobaoshan magmatic-hydrothermal system.The south-dipping Mongol-Okhotsk Ocean subduction from north of the orefield had generated the Middle-Late Triassic continental arc magmatism and the associated Tongshan PCD and Zhengguang epithermal Au mineralization(which superimposed on the Ordovician PCD system).The Middle Jurassic closure of Mongol-Okhotsk Ocean in the northwestern Amuria block(Erguna terrane),and the accompanying Siberia-Amuria collision,may have placed the Paleo-Pacific subduction system in NE China(including the orefield)under compression,and formed the granodiorite-tonalite and Fe-Cu skarn deposits at Sankuanggou and Xiaoduobaoshan.From the Middle Jurassic,the consecutive accretion of Paleo-Pacific arc terranes(e.g.,Sikhote-Alin and Nadanhada)onto the NE Asian continental margin may have gradually distant the Duobaoshan orefield from the subduction front,and consequently arc-type magmatism and the related mineralization faded.The minor Late Jurassic and Cretaceous unmineralized magmatism in the orefield may have triggered mainly by the far-field extension led by the post-collisional(Siberia-Amuria)gravitational collapse and/or Paleo-Pacific backarc-basin opening.     

关于三阶段铅演化体系：以大厂锡矿床及Lewisian片麻岩为例

以大厂锡-多金属矿床、Lewisian片麻岩为例,讨论了成矿/成岩过程中铅的三阶段演化轨迹。在206Pb/204Pb对207Pb/204Pb图解上,大厂硫化物铅的数据点构成了Pb-Pb等时线,该等时线给出了1.508Ga的矿化源岩年龄,说明成矿物质主要来自中元古代基底岩石——四堡群。四堡群本身又可能来自太古宙(2.86Ga)老陆壳,故大厂硫化物中的痕量铅应该具有三阶段的演化史。用三阶段铅演化模式解释大厂硫化物铅同位素资料,结果表明,太古宙老陆壳从上地幔源区分离出来时,其μ2=11.93,大厂矿床矿化源岩的μ3=9.76。不同变质程度的Lewisian杂岩全岩铅具有不同的演化历史:北部区角闪岩相片麻岩具有两阶段的演化史,中心区麻粒岩相片麻岩具有三阶段的演化史。北部区片麻岩两阶段Pb-Pb等时线给出了2.951Ga的成岩年龄,其μ1=7.81。中心区片麻岩三阶段Pb-Pb等时线给出了2.68Ga的变质年龄,其火成源岩的μ2=3.51。在解释异常铅等时线时,对其演化阶段级次的判别具有十分重要意义,它直接涉及不同演化阶段U-Pb体系μ值的计算。资料证明,如果把三次等时线当作二次等时线加以解释,则会导致一系列错误结论的产生。在一般情况下,用三阶段铅演化模式解释某组铅同位素资料时,只是假设第二阶段U-Pb体系是处于封闭状态的,但无任何直接证据。Lewisian北部区片麻岩两阶段铅演化体系与中心区片麻岩三阶段铅演化体系共存的情况为解决上述问题提供了极好的资料。     

广西南丹大厂矿区震源参数研究

利用广西南丹县大厂矿区地震监测台网记录的地震波资料,采用Brune（1970）模型,将速度记录谱归算为震源位移谱,使用遗传算法计算拐角频率及零频极限,然后计算地震矩、应力降等小震震源参数,并系统分析各种参数之间的关系。大厂矿区38次较大地震的震源参数计算结果为：地震矩范围在2.18×1011~7.89×1012 N·m之间;震源破裂半径78~439m;地震应力降在0.01~1.79 MPa之间。表明：地震矩与震级、震源半径、拐角频率之间呈线性关系,而应力降不依赖于地震矩,分布较为离散。大厂矿区应力降值明显偏低,这可能与该区域背景应力低有关。     

顺层滑动构造对安徽狮子山矿田“多层楼”矿床的控制

位于长江中下游铁铜成矿带铜陵聚矿区的狮子山矿田,大部分矿床的主矿体具有顺层产出的特点,故有“多层楼”之称,本文在对狮子山矿田构造要素进行详细观测的基础上,进行了构造变形系统时序与形成机制的研究及构造复合效应的分析,重点对顺层滑动构造的特点和成因进行了较深入的剖析,认为狮子山矿田矿床的主要构造控制因素是多层顺层滑动,从而较合理地解释了该矿田的矿床在空间上呈“多层楼”分布的特征。     

广西大厂矿田地质矿产数据库的研究与系统开发

大厂矿田地质矿产数据库及其管理系统实现了大厂矿田历年来积累的大量地质矿产资料的数字化存储和管理，是矿山企业信息化和专题研究的数据基础平台。通过资料现状与数据需求分析，将地质矿产资料划分为表格、档、图件和目录簿四类。论提出资料表(数据表、档表、图件表)和分类树型目录结构属于两种不同的数据模型，可分别对原始资料(表格、档、图件)和目录簿进行描述和存储；资料表可直接用关系数据库的二维关系表来表示。但目录簿具有与关系表的线型结构完全不同的非线性树型结构，对此作建立了孩子关系表示法，从而实现了关系表对目录簿的树型结构的间接表示。通过数据需求分析、概念模型定义、逻辑结构设计、数据库的存储与运行维护设计，建立了大厂矿田地质矿产中央资源数据库GEODBS，开发了相应的数据库管理系统DCDBMAN。