Double Convective Hydrothermal System beneath Massive Sulfide Orebody in Gacun Deposit,Southwestern China

The Gacun Kuroko-type deposit, Southwestern China, is hosted in rhyolitic rocks associated with the underlying mafic rocks occurred in the - 1000 m deep fault - bounded basin within the intra -arc rifting zone which formed on the Triassic Yidun island - arc. Two vertically separated alteration systems are recognized: one is conformable or semiconformable alteration zone developed in - 150 m thick mafic unit 1-1.5 km below the massive sulfide ore body; the other is discordant alteration pipe directly surrounded around stockwork ore within rhyolitic unit. The lower conformable alteration zone extending for several kilometers along strike is characterized by silicification and epidotization which result in the development of quartz vein and quartz-epidote vein systems in mafic lava flows and replacement of primary minerals and groundmass in spilitized mafic volcanics and dikes by quartz, epidote - group minerals and sodic plagioclase. Sulfides often occur in the vein system and altered mafic volcanics. Quartz solubility relation indicates that silicification is a consequence of interaction of Si- saturated fluids with mafic rocks in a higher temperature system (T>340℃), intensifying by intrusion of mafic dike or high-level acidic magma chamber. The alteration pipe of diameter about 2 km shows a similar mineralogical zoning to Kuroko deposits of Japan. The sequence is quartz + hyalophane; sericite + chlorite + quartz and zeolite-like zones from core to margins of the pipe. The chlorite core only occurs in the root part of the alteration pipe and downwards transfers into epidote - chlorite and epidote - quartz vein swarm extending 500 m downwards. The felsic rocks away from the orebody and alteration pipe took place district-scale alteration, which has typical low-temperature mineral association: illite + albite + quartz + calcite. Whole -rock and quartz δ18O values indicate that district - scale alteration is a result of interaction of seawater with rocks at lower temperature (T<200℃)under water-dominated condition. However, the altered rocks from the pipe show remarkably δ18O enrichment, and bulk -rock δ18O values decreased gradually toward stockwork orebody from 15.1‰-l5. 75‰ in zeolite-like zone and 12. 05‰-14. 2‰ in sericite - quartz zone to 11.3 ‰ - 14. 4‰ in quartz - hyalophane zone. The filled temperatures of fluid inclusions in quartz and sphalerite lie in the ranges of 280 -320 ℃ for quartz - hyalophane zone and 250 ℃ to 297 ℃ for sericite-quartz zone. The estimated δ18O values of hydrothermal fluids are 7. 98‰ and3.2‰, respectively, based on quartz δ18O data in the deposit. The lower conformable alteration is considered to be approximately coeval with the alteration pipe, based on the SiO2 concentration in the fluids, which restrict the main fluid - rock reaction zone to be located in mafic horizon by quartz barometer, and metal element flux calculation and sulfide - epidote vein system developed both in alteration systems. High - salinity fluid inclusions in gangue quartz (>8% eq. NaCl) from stockwork ore and in quartz phenocryst (>40% eq. NaCl) in footwall rhyolite strongly suggest the existence of hot-saline brine to react with mafic complex and leach metal components, which probably originates mainly from magmatic fluid derived from high-level acidic magma chamber. The brine layer located in mafic unit possibly heats and drives the overlying single -pass convective seawater reacting with felsic rocks. The 'density window' may be expected to occur on the interface between seawater and brine layer, when the brine becomes to be gravitationally instability by the turbulent entrainment of seawater during magmatic and/or tectonic activities. The sulfide mineralization and alteration pipe is inter preted as an effect of the 'density window' through which the mixed fluids of brine with seawater adiabatically discharges upwards.

Comparative Study of Gacun and Youre Silver–Lead–Zinc–Copper Deposits in Sichuan, SW China, and their Mineralization Significance

The large Gacun silver-lead-zinc-copper deposit in Sichuan Province is one of the largest volcanogenic massive sulfide （VMS） deposits in China. The deposit consists of western and central ore bodies, which form a vein-stockwork mineralization system corresponding to hydrothermal channels, and eastern ore bodies, which form an exhalative chemical sedimentary system derived from a brine pool in a submarine basin. The Youre lead-zinc deposit, which is currently under exploration and lies adjacent to the southern part of the Gacun deposit, is characterized by intense silicification and vein- stockwork structures and consists of massive silicified rhyolitic volcanics, banded rhyolitic tuff, and phyllitic sericite tuff. From a comparison of their ore-bearing horizons, the Gacun and Youre deposits have a continuous and stable hanging wall （calcareous slate and overlying andesite） and foot wall （rhyolite-dacite breccia and agglomerate）, and the Uthologic sequence includes lower intermediate to felsic rocks and upper felsic rocks. Thus, the Youre deposit, which comprises relatively thinly layered low-grade ore, is regarded as forming a southward extension of the Gacun deposit. A further comparison of the structures of the ore-bearing belts between the two deposits suggests that the Youre ore bodies are similar to the western ore bodies of the Gacun deposit. Moreover, the characteristics of fluid inclusions and stable isotopes in the Youre deposit are also similar to those of the western ore bodies of the Gacun deposit. Genetic models of the deposits are proposed for the Gacun-Youre ore district, and massive concealed ore bodies may occcur in the Youre deposit at depths that are similar to those of the eastern ore bodies of the Gacun deposit.

四川呷村VHMS矿床:从野外观察到成矿模型

呷村矿床是一个与晚三叠世海相钙碱性酸性火山岩系有关的典型块状硫化物（ＶＨＭＳ）矿床。热水流体系统和贱金属成矿作用发育于义敦岛弧碰撞造山带上的弧间裂谷盆地内，并受其内部的一系列局限盆地及ＳＮ向基底断裂－裂隙系统控制。含矿岩系为双峰岩石组合，具火山碎屑岩－矿体－喷气岩“三位一体”特征。硫化物矿床具有“块状矿席＋层控网脉状矿带”式三维结构特征。块状矿席发育多旋回的硫化物－硫酸盐韵律型式，揭示热水流体在海底的幕式排泄以及硫化物－硫酸盐在卤水池内的韵律式化学淀积和滑塌堆积过程。层控网脉状矿带产出于流纹质火山岩系，与上覆的块状矿席平行展布，揭示高渗透性碎屑岩层和多条同级别断层或断裂共同约束海底下部热水流体，并诱导其“弥散式”排泄和侧向流动交代。热水流体的传导冷凝过程导致硫化物沉积，热水流体与冷海水的简单混合导致硅质岩或／和重晶石淀积，传导冷凝与海水混合的联合作用导致含硫化物重晶石、硅质岩和红碧玉形成。

四川呷村火山成因块状硫化物矿床的综合找矿模式

呷村火山成因块状硫化物矿床是“三江”地区的超大型含金富银多金属矿床 ,其综合找矿模式的建立对“三江”有色、贵金属成矿带的成矿预测具有重要意义。文章在大量实测物探资料的基础上 ,结合区域地质、遥感和矿床地质资料 ,从 6个方面总结了该矿床的综合找矿模式 :即大地构造背景 ;局部 (矿区 )成矿地质环境 ;地质找矿标志 ;区域物探、化探、遥感示矿要素 ;岩石、矿石物性特征 ;综合物 (化 )探异常特征。并给出了针对呷村型矿床的勘探程序和最佳勘探方法组合 ,对指导区域找矿及勘查工作部署具有重要意义。

川西呷村超大黑矿型矿床成矿流体稀土元素组成

本文用 ICP- MS首次测定了呷村银多金属黑矿型矿床矿石流体包裹体中的稀土元素含量。研究表明 ,主成矿期流体稀土元素配分模式均为轻稀土富集 ,Eu具明显正异常。通过初步对比 ,本区主成矿期流体与东太平洋脊、大西洋脊等现代高温酸性地热系统热液具有相似的稀土模式 ,反映了它们物化条件的相似性 ;但前者ΣREE高于后者 ,且两者 Eu/ Eu* 值不同。经过分析 ,本区成矿流体 Eu正异常主要为 T、p H、f O2 控制 ,另外 ,围岩性质和水 -岩主反应带压力也可能影响了 REE含量及 Eu异常的不同。至于 (L a/ Yb) cn>1。

川西呷村黑矿型多金属矿床热液体系稀土元素组成特征

本文首次测定了呷村黑矿矿石中流体包裹体的REE组成 ,计算了与含矿流纹岩系熔体平衡的岩浆热液REE含量。主成矿期流体具有轻稀土富集、Eu明显正异常的特点 ,但岩浆热液却具有明显的Eu负异常特征 ,结合热液体系氧同位素及稀土元素交换反应模拟 ,表明岩浆热液不是直接的成矿热液。蚀变围岩具显著的Eu正异常 ,其它稀土元素出现亏损。蚀变反应水 /岩比值较大 ,蚀变岩中的REE组成反映了成矿热液REE的特点 ,且REE亏损程度与蚀变强度、流体 /岩石比值呈正相关。

呷村银多金属块状硫化物矿床银的赋存状态

通过大量岩石、矿石光 (薄 )片观察鉴定、电子探针分析 ,首次查明呷村海相火山岩型银多金属块状硫化物矿床有硫砷铜银矿和硫砷铜矿两种硫盐矿物。研究表明 ,除硫化物外 (主要为方铅矿、闪锌矿、黄铁矿 ,其次为黄铜矿、毒砂、斑铜矿、硫铜银矿、螺硫银矿、磁黄铁矿等 ) ,硫盐矿物十分发育 ,主要有黝铜矿、车轮矿、硫砷铜矿、硫砷铜银矿等。该矿床中的银主要在喷流_沉积成矿阶段富集。

呷村黑矿型矿床高^(18)O成矿流体的成因

本文基于流体包裹体和石英18O资料 ,提出呷村高18O成矿流体的成因有两种可能性 :一种 ,指示岩浆流体的参与 ,这已被成矿流体的高盐 [w (NaCleq) =5.7%～ 2 1.3% ]和极度富气所证实。另一种 ,指示海水与高18O火山岩或沉积岩发生过高温、低m水/m岩石 反应。现代和古代VMS矿床热液对流深度、水 -岩反应理论计算结果及遍布矿区成矿前的低温 ( <150℃ )和高m水/m岩石 反应表明后一种可能性的存在。高18O成矿流体来源的确对完善VMS矿床成因模式具有重要意义。

川西呷村黑矿型矿床含矿火山岩系热液蚀变与物质-化学变化

川西呷村黑矿型矿床产于酸性流纹质火山岩系上部。矿区蚀变可分为矿化热液蚀变和区域低温蚀变。后者广布矿区:前者绕网脉矿(硅矿)形成蚀变岩筒,并具明显的蚀变分带:自内而外由石英-钡冰长石带向绢云母-石英带递变,自下而上由绿泥石带向石英-绢云母带递进。采用"惰性"微量元素方法恢复了含矿岩系原岩成分,定量估算了蚀变引起的物质-化学变化。在蚀变岩筒中,Cu、Pb、Zn 强烈富集,远离蚀变岩筒,Cu 略有亏损,Pb 和 Zn 显著亏损,证明成矿物质 Pb 和 Zn 主要来自被热液交代淋滤的酸性火山岩系。根据蚀变岩石的物质变化,概略性地固定了呷村矿区蚀变火山岩物质变化图,可准确地追溯热液流体运移轨迹,进行矿体圈定。

呷村-有热矿区含矿带精细结构对比及其找矿意义

四川省白玉县呷村银多金属矿床是我国著名的VMS矿床之一,具有容矿火山岩系+硫化物矿体+喷气岩的"三位一体"特征,以及下部筒状或漏斗状网脉状矿(西矿带)和上部层状块状矿(东矿带)的"双层结构"样式。其南部有热矿区找矿虽有进展,但突破不大。为确定有热矿区的找矿方向,本文对呷村矿床和有热矿区含矿带进行了精细结构对比,认为有热北部19~31线由块状硅化流纹质火山岩+条纹条带状流纹质凝灰岩+千枚状绢云母凝灰岩组成火山喷发单元,以强烈的硅化为特征,发育大量的脉状-网脉状构造,与呷村西矿带完全可以对比;而有热南部39~55线则由块状"黄矿"矿石与流纹质火山碎屑岩组成喷气-火山单元,但缺乏重晶石、硅质岩等喷气沉积岩;以"黄矿"为主,仅形成铅锌贫矿体,与呷村矿床东矿带富含重晶石、以"黑矿"为主,形成银铜铅锌富矿体的特征有较大区别。同时,有热块状矿体上部还存在厚达70~130 m的流纹质火山岩和脉状-网脉状矿体,据此认为有热矿带总体上可与呷村西矿带对比,代表热液喷流成矿系统的热水补给通道相,其中的块状(黄矿)矿体具微"双层"结构特征,有可能为早期热流成矿系统的另一个独立的"微"VMS矿床。由此判断有热矿区东部流纹质火山岩与碳质板岩的转换界面处深部存在类似呷村东矿带的以"黑矿"块状矿体+重晶石组合为代表的隐伏矿体,从而共同组成一个"下黄上黑"共两层块状矿体的"堆垛式"结构型式。寻找以"黑矿"-重晶石组合为代表的隐伏银铜铅锌块状矿体是有热矿区今后取得找矿重大突破的关键所在。

四川省白玉县呷村-有热矿区成矿流体地球化学

四川省白玉县呷村银多金属矿床是我国著名的VMS型矿床之一,该矿床由西矿带热液流体补给通道相的脉状-网脉状矿化系统和东矿带的海底盆(洼)地卤水池喷气-化学沉积系统组成。有热矿床紧邻呷村矿床的南部,实质上是呷村矿带(体)的自然南延部分,具有相同的地质背景和成矿环境。本文分别对呷村西矿带、东矿带以及有热矿床进行了主成矿期石英的流体包裹体测试和氢、氧同位素分析以及硫化物的硫同位素分析。显微测温结果显示,呷村矿床从西矿带到东矿带,即由深部向浅部表现为成矿温度下降(258.0～209.8℃),流体的盐度略变小(4.42%～4.18%NaCleqv),而流体的密度增大(0.816～0.894g/cm3),并且有热矿床成矿流体特征(平均成矿温度为244.3℃;平均盐度为4.71%NaCleqv;平均密度为0.841g/cm3)与呷村西矿带流体特征更类似。显微激光拉曼光谱分析显示流体包裹体的液相成分主要为H2O,气相成分为H2O、CO2、N2以及CH4。氢、氧同位素研究显示,成矿流体为海水和岩浆水的混合流体。硫同位素分析结果表明,呷村西矿带(δ34S平均值为-3.65‰)与呷村东矿带的硫(δ34S平均值为-0.68‰)和有热矿床(δ34S平均值为-3.74‰)的硫都由深部岩浆提供,并且有热矿床与呷村西矿带的硫同位素特征更类似。成矿流体物理化学特征和同位素示踪结果表明,有热矿床目前已知矿体可与呷村西矿带对比,暗示可能存在尚未发现的类似呷村东矿带的富矿体。呷村-有热矿区的成矿机制为:在海水对流的成矿模式下,由岩浆水和海水混合而成的成矿流体,携带来自岩浆来源的成矿物质,自下而上向上运移和循环,在热液补给通道和海底发生淀积作用,形成脉状-网脉状矿体和块状矿体。

基于构造解析重建的四川呷村银多金属矿床模型

四川省白玉县呷村银多金属矿床是中国著名的VHMS矿床之一,前人曾进行过详细的矿床模型研究。对于矿床下部脉状矿体大致呈层状平行于上部块状矿体的地质现象,前人曾提出"层状矿席+层控网脉状矿带"等模式。文章通过对呷村矿床地质特征的详细研究后认为,呷村矿床在印支期形成之后,遭受到燕山期弧-陆碰撞造山的强烈改造,导致矿区地层直立并倒转,并在能干性弱的流纹质火山岩中普遍发生层内韧性剪切变形,使原先近于垂直层状矿体和喷气沉积岩的下-中部脉状-网脉状矿体被构造置换为紧闭褶皱状、无根褶皱状、透镜体状,并近于平行于上部层状矿体。构造恢复表明,下-中部脉状-网脉状矿体原始三维形态为不整合的筒状或漏斗状,与上部层状矿体组成典型的"下筒上层"的"双层结构"。根据脉状-网脉状矿体和层状矿体的空间展布特征,在构造恢复的基础上重新建立了呷村VHMS矿床的双通道夹卤水池的矿床模型。该模型对矿区外围找矿有一定的指导意义。

四川呷村VMS多金属矿床的区域变质变形改造——露头和显微构造的观察

四川呷村富银多金属矿床是一个晚三叠世形成的块状硫化物(VMS)矿床,后又经历了绿片岩相条件下的区域变质变形作用改造。野外研究和室内组构观察表明,该矿床出露的似层状矿化体形状是区域构造"重构"的结果;不同硫化物的不同变形习性,构成了脆性—塑性变形组构共存的复杂样式,矿石的条纹和条带状构造主要是"软"硫化物矿物塑性变形引起的机械再活化作用的结果。各矿化体目前的产状和空间关系主要受后期构造变形控制,矿化体的初始空间展布需要甄别和恢复。

呷村银多金属矿田控矿规律研究及成矿预测

通过呷村银多金属矿田找矿评价研究的多次实践,着重探讨了古地理、构造、层位(岩性)三位一体的控矿规律。在研究矿田控矿规律的基础上,对呷村银多金属矿田进行了成矿预测。

浅谈矿体二次圈定对采矿作业的影响

呷村银多金属矿是一个典型的黑矿型矿床,由于受成矿条件的影响,后期受地壳构造运动的改造,矿体形态、产状有较大变化.生产探矿后一次圈定的矿体进行采矿时,上向水平充填布置的采切工程后期无法满足回采要求,尤其是4000m中段Cu1银铅锌铜矿体,回采过程中遇到很多工程浪费情况和效率低下的问题,因此矿体二次圈定后对采矿作业有一定的影响.

信息化在呷村矿中的应用

随着全球一体化的脚步，计算机的普及，数字化、信息化的建设大大缩小了世界的范畴，带动了全世界科学技术的发展。矿产资源是全世界的稀缺资源，如何高效，合理的开发矿产资源成为当今节能型社会面临的很大的课题。计算机网络技术的便捷、低成本和快速等特性使得它很快就成为了解决此类问题的重要方式之一。本文主要介绍信息化在呷村金属矿中的应用。

川西呷村式银多金属矿找矿模式雏议

呷村式银多金属矿产于义敦岛弧发育晚期环境,在成因上与钙碱性火山岩系的偏酸性流纹质火山岩的海底喷发作用有关。矿带位于流纹质火山岩顶部与上覆结晶灰岩的接触界面附近,由上而下依次分为重晶石—铜铅锌银—铅锌三个矿体带。矿床地质的和地球物理的找矿标志明显。实践证明,以岛弧火山岩为对象,综合运用地质、物探、化探成果,在判定火山杂岩体的矿化地段,进行工程揭露验证是经济有效的找矿模式。