浙东南陆相火山岩型铅锌（银）矿床的成矿作用研究

浙东南地区火山岩型铅锌(银)矿床可进一步分为两个亚类:火山-次火山热液型和火山喷发沉积-热液叠加(改造)型,其中以前一类型较重要。硫、铅同位素组成及微量元素等研究表明:成矿主要与中生代火山作用有关,成矿物质主要来自与上地幔和下地壳有关的火山岩和次火山岩;火山机构控制着矿床类型及规模。火山-次火山热液型矿床主要受火山穹隆控制,而火山喷发沉积-热液叠加(改造)型矿床主要产于火山洼地中     

燕辽地区火山热液型铀－金－多金属矿床成矿特征

燕辽地区位于华北地台北缘东段，是我国著名的中生代火山热液型铀、金、多金属矿床成矿区。研究结果表明，其成矿作用受统一的晚中生代大陆裂陷火山岩浆活动控制；成矿时代集中在晚侏罗世及早白垩世；成矿介质为火山岩浆水、变质水和大气水混合的中温、中低温火山热液；成矿物质主要来自富集型的上地幔及下地壳。     

闹枝金矿床与中生代火山岩系的成因关系探讨

吉林省闹枝金矿成因与中生代火山岩系关系密切，矿体产出于次火山岩脉成群成带集中分布区，两者受同一体系的构造裂隙控制，产状相似。稀土元素、同位素、包裹体等地球化学特征显示成矿物质主要源于岩浆热液，与火山岩系同源。成岩与成矿是同一岩浆作用不同阶段的产物。该矿床属火山—次火山热液型金矿     

浙赣火山岩铀矿床同位素地球化学特征

本文根据浙赣地区火山岩型铀矿床同位素地质资料,分析了浙赣火山岩铀矿成矿物质、成矿热液的来源,认为该区成矿热液主要由大气降水和岩浆水所组成,成矿物质主要来源于火山岩和周围地层,区域内不同矿床成矿流体的混合比例是不同的,但成矿特来源几乎相同。     

额尔古纳超大型火山热液型铀成矿带地质特征及找矿前景

本文介绍了在额尔古纳超大型火山热液型铀成矿带中发现的超大型火山热液脉型铀矿末有５个，大型火山热液脉型铀矿床有６个，总共有铀金属储量３３万ｔ，在世界热液脉型铀矿资源量中占有重要地位。经研究认为，该成矿带内铀矿就成矿作用在时间上具有突发性特征，成矿时代集中在早白垩世，受统一中生代大陆裂陷－火山岩浆活动控制；成矿介质中深源的火山岩水，大气水和变质水三者相混合的具中低温的火山热液，成矿物质主要来自中生代深     

燕辽地区火山热液型铀—金—多金属矿床在矿特征

燕辽地区位于华北地台北缘东段，是我国著名的中生代火山热液型铀、金、多金属矿床成矿区。研究结果表明，其成矿作用受统一的晚唾化大陆裂陷火山岩浆活动控制；成矿时代集中在晚侏罗世及早白垩世；成矿介质为火山岩浆水、变质水和大所水混合的中温、中低温火山热液、成矿物质主要来自富集型上地幔及下地壳。     

浙江省萤石矿床区域成矿规律与找矿方向研究

萤石矿是浙江省的优势矿种之一,储量在中国名列前茅。根据矿床成因可分为火山-次火山热液充填型、岩浆期后热液充填型和岩浆热液交代型3种类型。火山-次火山热液充填型萤石矿床主要分布于浙东南火山岩分布区,成矿作用与中生代火山活动关系密切;岩浆期后热液充填型和岩浆热液交代型萤石矿床主要分布于浙西北燕山期花岗岩周围,成矿作用与燕山期岩浆侵入活动密切相关。文章根据浙江省萤石矿床的成因类型、成矿作用、构造环境、成矿时代等特征,可将其归纳为2个成矿系列:与中生代火山-次火山热液有关的萤石矿床成矿系列和与中生代岩浆侵入作用有关的萤石矿床成矿系列。其中,与中生代岩浆侵入作用有关的萤石矿床成矿系列又可分为与燕山期中酸性岩浆期后热液充填作用有关的萤石矿床成矿亚系列及与燕山期中酸性岩浆热液交代作用有关的萤石矿床成矿亚系列。在此基础上,提出了2大萤石矿床成矿系列的找矿方向分别为浙东南晚白垩世火山断陷盆地边缘断裂、火山口环形和放射状断裂及浙西北高氟岩体。     

大别山北麓上天梯-皇城山一带中生代火山岩成矿系列研究

以往对赋存于大别山北坡中生代火山岩中的上天梯非金属矿带和皇城山银矿带分割开来进行地质评价和研究,且厘定出各自的火山岩地层层序。据近年研究成果,上天梯-皇城山一带的火山碎屑岩为同源二次熔结凝灰岩喷发产物,形成于火山柱体喷发塌落机制,乃是相应喷发的不同产物。因而,由火山岩浆活动所形成的金属矿床与非金属矿床不仅与岩相、构造有密切联系,而且与岩浆热液活动机理亦密切相关。本文便是从火山岩喷发相入手,结合火山矿床特征,把与上天梯-皇城山一带中生代火山岩相有关的已知金属、非金属矿床划分为与母山潜火山侵入活动有关、与皇城山浅成火山热液活动有关、和与杨家湾侵出活动有关的三个成矿系列,并对各成矿系列的典型矿床特征进行了详细论述。     

西天山阿吾拉勒火山岩型铁矿带东段成矿地质背景与成矿机理

备战、敦德、智博、查岗诺尔铁矿分布于阿吾拉勒火山岩型铁矿带东段的大哈拉军山组火山岩中,各个矿区基性、中性和酸性火山岩兼而有之,但所占比例不尽相同。矿区的火山岩以钾玄岩系列、高钾钙碱性系列、钙碱性系列岩石为主,也有少量拉斑系列岩石出露。岩石相对富集轻稀土元素,相对富集大离子亲石元素而亏损Nb、Ta和Ti等高场强元素。显示出岛弧或活动陆缘环境火山岩的固有特征。研究认为该地区铁矿床为矿浆-火山热液复合成因型铁矿床,其形成受岩浆-热液系统活动的制约,具体成矿作用包括氧化物熔离成矿、隐爆-贯入成矿、分离结晶+岩浆流动成矿和热液交代四种类型。矿床的控矿因素与成矿条件包括:(1)活动大陆边缘型火山岩组合与伸展构造环境;(2)基性和中性火山熔浆多次喷溢和堆积部位;(3)含矿母岩浆的强烈分异演化导致氧化物熔离,而分离结晶和岩浆流动则促使富集矿体形成;(4)岩浆热液对流循环并萃取围岩铁质,是形成热液期矿石的基本机制;(5)火山机构及其伴生裂隙是含矿岩浆活动的有利空间并为成矿物质的聚集提供物理化学条件,是铁矿体主要控矿因素和赋矿部位。铁矿床与火山作用关系极为密切,火山熔浆与火山热液反复多次活动导致了成矿作用的多期多阶段性。     

福建邱村金矿床控矿因素及成因

邱村金矿矿体严格受构造、次火山岩、次火山隐爆角砾岩控制，通过对矿石黄铁矿Pb、S同位素分析以及相邻矿区成矿温度的对比研究，金矿成矿物质来源于元古宇麻源群深变质岩系，成矿热液来源于火山岩浆期后分异的热液，该矿床属火山岩中－低温热液型金矿床。     

中条山西南段中生代热液成矿系统分析

中条山西南段铜镍、铜铁、金矿与中生代中酸性岩浆活动有关,成因类型为高-中低温热液型.矿体严格受断裂构造控制,不同矿产形成与矿源岩有关,铜镍矿、铜铁矿和金矿分别产于变基性侵入岩、变基性火山岩和片麻岩中,构成了中条山西南段中生代构造-岩浆-热液成矿系统.这一成矿系统是同一能量场和流体场、不同矿源场之间耦合的结果.根据成矿系统分析,该区具有很好的找矿前景,预测在不同矿源复合叠加地段,还有铜铁金、铜镍金、铜铁镍矿床产出,地质找矿应部署在中生代中酸性岩体的分布区.     

珲春-汪清地区成矿地质条件及找矿方向

吉林珲春-汪清地区已发现的有色金属、贵金属、稀有金属、放射性金属和黑色金属矿产计11种.这些矿产与下古生界五道沟群地层,中生代火山岩系,华力西-燕山期中酸性侵入岩、次火山岩,东西向、南北向构造及火山构造密切相关     

Metallogeny of Shoshonite-Hosted Copper-Gold Deposits in Middle-South Parts of Tancheng-Lujiang Deep Fault Zone and Its Vicinity,Eastern China

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Metal deposits in the Da Hinggan Mountains,NE China: styles,characteristics, and exploration potential

The Da Hinggan Mountains mineral province (DHMP), northeastern China, is divided into three tectonic units and corresponding metallogenic belts. The tectonic units of the Da Hinggan Mountains are the Erguna fold zone on the northwest, the Hercynian fold zone on the north, and the Hercynian fold zone on the south. The corresponding metallogenic belts are the Erguna Cu-Pb-Zn-Ag-Mo-Au belt of the NW DHMP, the Cu-Pb-Zn-Mo-Fe-Au belt of the northern DHMP, and the Pb-Zn-Ag-Cu-Sn-Fe-Mo belt of the southern DHMP. Distinct ore bodies, mostly associated with Mesozoic granites and volcanics, comprise (1) hydrothermal vein deposits including Pb-Zn-Ag-(Cu) and W‐Sn-Cu, (2) exhalative (Pb-Zn-Ag, Cu) deposits, (3) porphyry (Cu, Au, Mo), (4) skarn (Fe, Zn, Cu), and (5) epithermal Au-Ag deposits. The hydrothermal veins are hosted by a range of different rock types, whereas the exhalative ores are confined to Permian strata. The porphyry deposits occur within granite porphyries. The epithermal deposits are related to Mesozoic volcanic-subvolcanic rocks and occur within superjacent igneous structures. The first type, represented by the Bairendaba deposit, shows many characteristics of hydrothermal deposits. The second type occurs in a Permian clastic-chemical sedimentary sequence. Most Fe-Zn-Cu deposits related to granites and granodiorites are skarns. Granodiorite and granite-related deposits are typical porphyry ores, formed during Hercynian and Mesozoic time. Promising metallogenic conditions and the recent discovery of many large metal deposits indicate that this mineral province has a great exploration potential.     

Types,features, and prospecting potential for Mesozoic metal ore deposits in Zhejiang Province,southeast China

The geotectonic units of Zhejiang Province include the Yangtze Plate in the northwest juxtaposed against the South China fold system in the southeast along the Jiangshan–Shaoxing fault. The South China fold system is further divided into the Chencai–Suichang uplift belt and the Wenzhou–Linhai geotectogene belt, whose boundary is the Yuyao–Lishui fault. The corresponding metallogenic belts are the Mo–Au(–Pb–Zn–Cu) metallogenic belt in northwest Zhejiang, the Chencai–Suichang Au–Ag–Pb–Zn–Mo metallogenic belt, and the coastal Ag–Pb–Zn–Mo–Au metallogenic belt. The main Mesozoic metal ore deposits include epithermal Au–Ag(Ag), hydrothermal vein-type Ag–Pb–Zn(Cu), and porphyry–skarn-type Mo and vein-type Mo deposits. These ore bodies are related to the Mesozoic volcanic-intrusive structure: the epithermal Au–Ag(Ag) deposits are represented by the Zhilingtou Au–Ag deposit and Houan Ag deposit and their veins are controlled by volcanic structure; the hydrothermal vein-type Ag–Pb–Zn deposits are represented by the Dalingkou Ag–Pb–Zn deposit and also controlled by volcanic structure; and the porphyry–skarn-type Mo deposits are represented by the Tongcun Mo deposit and the vein-type Mo deposits are represented by the Shipingchuan Mo deposit, all of which are related to granite porphyries. These metal ore deposits have close spatio-temporal relationships with each other; both the epithermal Au–Ag(Ag) deposits and the hydrothermal vein-type Ag–Pb–Zn deposits exhibit vertical zonations of the metallic elements and form a Mo–Pb–Zn–Au–Ag metallogenetic system. These Jurassic–Cretaceous deposits may be products of tectonic-volcanic-intrusive magmatic activities during the westward subduction of the Pacific Plate. Favourable metallogenetic conditions and breakthroughs in the recent prospecting show that there is great resource potential for porphyry-type deposits (Mo, Cu) in Zhejiang Province.     

U–Pb and Re–Os Geochronology of the Tongcun Molybdenum Deposit and Zhilingtou Gold‐Silver Deposit in Zhejiang Province,Southeast China,and Its Geological Implications

Mesozoic ore deposits in Zhejiang Province, Southeast China, are divided into the northwestern and southeastern Zhejiang metallogenic belts along the Jiangshan–Shaoxing Fault. The metal ore deposits found in these belts are epithermal Au–Ag deposits, hydrothermal‐vein Ag–Pb–Zn deposits, porphyry–skarn Mo (Fe) deposits, and vein‐type Mo deposits. There is a close spatial–temporal relationship between the Mesozoic ore deposits and Mesozoic volcanic–intrusive complexes. Zircon U–Pb dating of the ore‐related intrusive rocks and molybdenite Re–Os dating from two typical deposits (Tongcun Mo deposit and Zhilingtou Au–Ag deposit) in the two metallogenic belts show the early and late Yanshanian ages for mineralization. SIMS U–Pb data of zircons from the Tongcun Mo deposit and Zhilingtou Au–Ag deposit indicate that the host granitoids crystallized at 169.7 ± 9.7 Ma (2σ) and 113.6 ± 1 Ma (2σ), respectively. Re–Os analysis of six molybdenite samples from the Tongcun Mo deposit yields an isochron age of 163.9 ± 1.9 Ma (2σ). Re–Os analyses of five molybdenite samples from the porphyry Mo orebodies of the Zhilingtou Au‐Ag deposit yield an isochron age of 110.1 ± 1.8 Ma (2σ). Our results suggest that the metal mineralization in the Zhejiang Province, southeast China formed during at least two stages, i.e., Middle Jurassic and Early Cretaceous, coeval with the granitic magmatism.     

辽东地区金矿床类型、成矿特征及找矿潜力

辽东地区是我国重要的金矿集区之一,中生代构造、岩浆活动强烈,并伴生强烈的金成矿作用。根据金矿床时空分布及成矿特征,将辽东地区划分为三个金矿集区:青城子、五龙、猫岭。矿集区内金矿包括石英脉型金矿和蚀变岩型金矿这两种类型,并分别受高角度断裂和低角度断裂构造体系控制。辽东地区金矿成矿时代主要为早白垩世,少量早侏罗世。已有H-O同位素、成矿流体及地质研究表明:(1)区内金成矿与中生代岩浆活动有关、受断裂构造控制,并以强烈硅化-绢云母化为特征标志;(2)区内金矿床属于岩浆热液型矿床;(3)充填作用和混合作用可能是辽东地区金矿床成矿物质沉淀的机制。辽东地区金矿成矿系统按其产出环境及特点,可分为两个亚系统:产于中生代花岗质岩体内岩浆热液金成矿系统(五龙式)及产于古元古代变质岩中岩浆热液金成矿系统(青城子式、猫岭式)。结合区域找矿进展和近期研究工作,建立了辽东地区金矿找矿预测地质模型,认为本区具有与胶东地区相似的金矿成矿条件,成矿潜力巨大,研究工作对区域矿产勘查部署工作有指导意义。     

内蒙古东部二连浩特-乌兰浩特地区金矿化特征的初步研究

研究区属含古老地块并经中生代改造的中古生代造山带,存在金、锡等丰度较高的锡林浩特元古宙杂岩、古生代蛇绿岩及板块缝合带、二叠系火山岩、中生代伸展构造背景下的大规模火山-侵入活动及锡多金属成矿作用.本区金矿化类型主要有:韧性剪切带中的石英脉型、蚀变岩型金矿,产于幔源中基性侵入岩中的铜金矿,燕山晚期斑岩型铜金矿,与燕山期次火山岩浆活动有关的脉状铜矿床中的伴生金矿化,微细浸染型金矿化,浅成低温热液型金矿化等.研究区金矿成矿时代可分为242~229Ma、169~161.8Ma、132~159Ma (可能以130~140Ma为主)、127~109.2Ma四个区间.认识到存在印支期成矿、燕山期多阶段成矿等特点对于区内金矿勘查有重要意义.新发现7个矿床(点)的伴生金矿化.毛登、大井等多金属矿床的伴生金矿化具有重要的潜在工业意义.     

吉林延边地区中生代火山岩金铜成矿系列及区域成矿模式

延边地区为我国东部滨太平洋的一个重要金、铜 - (多金属 )矿化集中区。成矿带在时、空和物质组成上主要受控于中生代火山 -岩浆侵入作用 ,形成多种金、铜矿床类型组合的成矿带。在分析成矿带内不同矿床成因类型的基础上 ,建立了该成矿带的成矿系列 ,即斑岩铜钼、火山热液金银、次火山热液金银铅锌成矿系列。将成矿系列控矿条件和火山 -岩浆侵入作用相结合 ,探讨成矿系列的构造环境和成矿模式