Metallogeny of the Baiyangping Lead‐Zinc Polymetallic Ore Concentration Area,Northern Lanping Basin of Yunnan Province,China

The Lanping Basin in the Nujiang‐Lancangjiang‐Jinshajiang (the Sanjiang) area of northeastern margin of the Tibetan Plateau is an important part of eastern Tethyan metallogenic domain. This basin hosts a number of large unique sediment‐hosted Pb‐Zn polymetallic deposits or ore districts, such as the Baiyangping ore concentration area which is one of the representative ore district. The Baiyangping ore concentration area can be divided into the east and west ore belts, which were formed in a folded tectogene of the India‐Asia continental collisional setting and was controlled by a large reverse fault. Field observations reveal that the Mesozoic and Cenozoic sedimentary strata were outcropped in the mining area, and that the orebodies are obviously controlled by faults and hosted in sandstone and carbonate rocks. However, the ore‐forming elements in the east ore belt are mainly Pb‐Zn‐Sr‐Ag, while Pb‐Zn‐Ag‐Cu‐Co elements are dominant in the west ore belt. Comparative analysis of the C‐O‐Sr‐S‐Pb isotopic compositions suggest that both ore belts had a homogeneous carbon source, and the carbon in hydrothermal calcite is derived from the dissolution of carbonate rock strata; the ore‐forming fluids were originated from formation water and precipitate water, which belonged to basin brine fluid system; sulfur was from organic thermal chemical sulfate reduction and biological sulfate reduction; the metal mineralization material was from sedimentary strata and basement, but the difference of the material source of the basement and the strata and the superimposed mineralization of the west ore belt resulted in the difference of metallogenic elements between the eastern and western metallogenic belts. The Pb‐Zn mineralization age of both ore belts was contemporary and formed in the same metallogenetic event. Both thrust formed at the same time and occurred at the Early Oligocene, which is consistent with the age constrained by field geological relationship.     

辽宁省青城子铅锌矿田成矿特征与矿床成因探讨

青城子铅锌矿成矿受层位、岩性控制.古元古代条痕状花岗岩侵位而引起的穹隆构造及其上覆的层状岩系中的滑脱型韧性剪切带、层间断裂带及中生代岩浆作用、断裂构造对成矿起重要作用.矿床具有“多阶段复成因”特点,经历了3个主要成矿期,即古元古代同生沉积就位成矿期、吕梁变质-变形“重就位”成矿期和中生代构造-岩浆活化“再就位”成矿期.矿床成因属以海底（喷流）热水沉积作用为基础,遭受后期变质变形和热液叠加的广义层控性矿床,即属海底喷气沉积变质-岩浆热液改造型铅锌矿床.     

云南保山核桃坪铅-锌矿床地质特征

保山核桃坪铅-锌矿为一中型铅-锌矿床。矿体赋存于上寒武统核桃坪组,主要受近SN向的层间断裂(F1)及次级断裂构造控制,岩石(性)控矿也十分明显,成矿作用与矽卡岩化密切相关。通过对该矿床地质特征的系统分析以及对矿床围岩蚀变、控矿因素的深入研究,认为该矿床主要矿化作用是深部高温成矿流体贯入并与围岩发生矽卡岩化蚀变,随后发生矿化作用。矿床应属矽卡岩型铅-锌矿床。     

云南澜沧老厂银铜铅锌矿床地质特征及成因研究

云南澜沧老厂银铜铅锌多金属矿床为我国西南三江地区著名的多金属矿床,对该矿床的成矿地质背景、矿床地质特征、围岩蚀变特征以及矿床分带特征进行了详细的论述,对众说纷纭的矿床成因进行了总结。     

Isotopic Characteristics and Key Factors Favoring the Formation of Fuwan Super-large Silver Deposit in Guangdong Province

Rb-Sr isochron age of fluid inclusions in quartz from the Fuwan super-large silver deposit is 68 - 6 Ma, the silver deposit is characterized by high μ values (10.67 - 10.95 ), which are much higher than those of the ore-hosted Paleozoic strata and are close to those of ores hosted in the Proterozoic metamorphic basement in western Guangdong Province. Based on the Pb isotopic characteristics, coupled with much high background silver contents (200-1000ng/g) in the Proterozoic basement and relatively low silver contents in the Paleozoic strata in the region of the Sanshui Basin, it is concluded that the ore-forming material of the super-large silver deposit came mainly from the old basement. The super-large silver deposit related genetically to the intense volcanic activities during the Upper Cretaceous to Eogene. The formation of the Fuwan super-large silver deposit is controlled by the following favorable geological conditions : ( 1 ) The intersection of deep faults and contemporaneous faults at the margin of the Sanshui Basin led to the formation of an excellent structure as passageway for ore fluids; (2) The special ore-hosted rock association forms a ore gathering-trap structure that favors the precipitation of ore; (3) The silver-rich old basement, multi-stage mineralization and multi-episode volcanic activities which constitute a geothermal convection system.     

个旧老-卡岩体接触-凹陷带锡-铜多金属矿地质特征及成因分析

个旧老—卡岩体接触—凹陷带是个旧矿集区最重要的锡-铜多金属成矿构造带,该带中锡、铜矿产资源十分丰富。通过对凹陷带内矿体地质特征、围岩地层含矿性、微量元素、稀土元素、稳定同位素等的研究,结合大地构造环境,结果认为,凹陷带矿体是多种成矿物质来源,经历多种地质作用、多个大地构造演化阶段的多因复成矿床,接触-凹陷带锡-铜矿体形成主要与燕山中晚期花岗岩岩浆作用有关,其次与印支期海底火山-沉积与海底（火山）喷流-热水沉积成矿作用有关。     

侵蚀型天坑演化研究

中国天坑研究学者通过系统调查,确立“tiankeng”作为标准地貌术语,并规范其形态特征,提出塌陷型天坑和侵蚀型天坑两种成因类型。文章以重庆武隆箐口天坑、陕西汉中伯牛天坑、马达加斯加安卡拉那高原的曼格里（Mangily）天坑、巴布亚新几内亚穆勒高原的阿底（Atea）天坑为研究对象,通过对比分析4个天坑（群）发育的地层结构、地貌演化和水文地质特征等,论述侵蚀型天坑系统演化的共性特征,即三元或二元地层结构、深厚包气带和巨大地势差异、覆盖型岩溶分布、覆盖层对雨水的汇聚或夹层对地下水的汇聚等。基于侵蚀型天坑的成因条件,认为其发育阶段可分为：落水洞-竖井（地下河）阶段、侵蚀-竖井状大厅阶段、崩塌-天坑形成阶段和天坑退化阶段,并对侵蚀型天坑演化机理提出新的认识。     

安徽庐江泥河铁矿矿床地球化学特征及其对成因的制约

泥河铁矿位于长江中下游成矿带庐枞中生代火山岩盆地中,矿床具有典型玢岩型铁矿的地质特征,是研究玢岩型铁矿成因的良好对象。本次工作在详细的野外观察及室内研究的基础上,对泥河铁矿主成矿期矿石矿物的稀土元素、硫同位素及铅同位素进行了分析测试工作。主成矿期磁铁矿、黄铁矿稀土元素配分模式呈现LREE富集、HREE曲线平直、Eu轻微负异常的特征,与赋矿砖桥组熔岩、闪长玢岩的稀土元素配分模式较为一致,结合矿石矿物与围岩的铅同位素特征,推测成矿金属元素主要来源于赋矿的火山-次火山岩,可能有少量壳源物质的加入。黄铁矿与硬石膏的硫同位素表现出双峰式分布的特征,说明岩浆活动与三叠纪膏盐层均对硫有所贡献。三叠纪膏盐层在泥河铁矿的成矿过程中,不仅仅是重要的矿化剂,同样是铁质沉淀的氧化剂。综合矿床地质与地球化学特征,认为泥河铁矿是由次火山岩体演化产生的含矿高温热液在闪长玢岩穹窿顶部,通过交代充填作用形成的玢岩型铁硫矿床。     

辽宁本溪贾家堡子地区BIF铁矿床地球化学特征

利用主量元素和稀土元素相结合的地球化学方法,对本溪贾家堡子铁矿成矿物质来源和矿床成因进行了研究.结果表明：贾家堡子地区条带状铁矿（BIF）的化学成分主要为TFe₂O₃和SiO₂,并且Al₂O₃和TiO₂含量较低,这一特征与鞍本地区及山西五台山和冀东迁安地区条带状铁矿基本一致,指示该条带状铁矿是由极少碎屑物质加入的化学沉积岩.稀土元素呈现弱轻稀土亏损、重稀土富集的特征,具有明显的Eu正异常特征,表明该BIF的稀土元素来源于火山热液和海水的混合液.贾家堡子地区条带状铁矿床成因类型为Algoma型铁矿.     

东川-易门式铜矿床成矿作用研究的几个问题

从宏观基础地质入手,按矿床学的一些基本概念,针对东川-易门铜矿床地质地球化学特征,探讨了一些存在争议的重要问题。研究认为:狮山段是绿汁江组下部独立存在的地层层位;东川-易门式铜矿床属沉积-改造成因,其中的层状铜矿属沉积成岩成因,不是"热液成矿";所谓东川-易门式矿床(稀矿山除外)为"喷流沉积成矿"或"岩浆叠加",尚依据不足;刺穿体是构造作用产物,对成矿有利,是良好的找矿标志,其中的角砾岩主要是沉积角砾岩与构造角砾岩,或沉积-构造角砾岩,不足以冠名"隐爆角砾岩(筒)"。