延边—东宁成矿带金厂斑岩金成矿系统
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摘要
延边-东宁成矿带金厂金矿田内印支-燕山期岩浆活动强烈,控岩控矿构造系统复杂,金矿床时空集中,矿化类型多样,以斑岩型、角砾岩型和裂隙充填脉型为主,成矿条件优越、找矿潜力巨大,是研究斑岩型金成矿系统的天然实验室。论文聚焦金厂斑岩金成矿系统,通过详细的野外和室内研究,取得如下主要认识。
1、区域成岩成矿环境厘定为活动陆缘火山弧的火山-次火山岩带,其地球动力学背景为太平洋板块俯冲板片折返引起的深部岩石圈拆沉和浅部地壳伸展,区域上广泛发育与中生代中酸性岩浆活动相关的浅成低温-斑岩型铜金矿床。
2、矿田内印支-燕山期岩浆活动强烈,岩浆岩类型多样:印支晚期-燕山早期以闪长岩、花岗闪长岩、花岗岩为主,形成时代为190~210Ma;燕山晚期以花岗斑岩、闪长玢岩脉为主,形成时代为110~120Ma。矿田燕山晚期(锆石LA-ICP–MS年龄为118.1±1.6Ma)侵位的闪长玢岩脉为成矿母岩,具埃达克质岩地球化学特征,属O型埃达克岩,来源于俯冲的太平洋块片的部分熔融,可以作为直接找矿标志。
3、矿田内矿床时空集中,矿化类型多样,根据成矿地质环境与控矿要素的空间变化及金矿体的空间群聚特征,将矿田划分为半截沟、高丽沟、邢家沟和大狍子沟四个金矿床,明确了其基本地质特征。其中,高丽沟金矿床浅部为角砾岩型矿化,深部为斑岩型矿化;半截沟矿床浅部为裂隙充填脉型矿化,深部为角砾岩型矿化;邢家沟和大狍子沟矿床为角砾岩型矿化,钻孔揭示其深部具有斑岩型矿化。
4、矿田内首次发现了一种新的载金矿物——硫镍钴矿,研究表明硫镍钴矿呈半自形-他形粒状、呈星散状或包于黄铜矿内,硫镍钴矿中的金矿物以包裹金为主。斑岩型矿化载金矿物以黄铜矿、黄铁矿和硫镍钴矿为主;角砾岩型和裂隙充填脉型矿化载金矿物以黄铁矿和石英为主。
5、金厂斑岩金成矿系统形成于116~118Ma;研究显示成矿物质来自与深部岩浆;成矿早期流体为酸性的氧化型混合热液、晚期为碱性的还原型流体,从早到晚流体性质变化明显,而减压、降温导致的沸腾作用是矿质沉淀的最主要机制;金矿化分带明显,水平上由内向外,垂向上由下到上,均表现为由斑岩型→角砾岩型→裂隙充填脉型。
6、以成矿系统结构为基础,构建勘查系统模型,圈定一级找矿靶区5处,二级找矿靶区5处,通过工验程证,新增资源量为矿石量205万吨,金金属量4.669吨。
Jinchang gold field, in Yanbian-Dongning metallogenic belt, belongs to strongIndo-Yanshanian magmatism with complex rocks-controlling and ore-controlling tectonic system andconcentrated the spatial and temporal distribution of gold deposits. This deposit, as a naturallaboratory to study porphyry gold mineralization system, has variety mineralization typieswith porphyry, breccia and fracture filling vein-type. Depending on the detailed field andlaboratory research and analysis of the previous results, this paper focuses on porphyrymetallogenic mechanism of Jinchang Au ore deposit and the main conclusions are as follows.
1. It is recognized that metallogenic geological background of this area should beenactive continental marginal arc volcanic-subvolcanic belt, with geodynamic setting of thePacific plate subducted slab exhumation caused by deep lithospheric delamination andshallow crustal extension, widely developed Mesozoic of acidic magmatic activity in relatedwith epithermal-porphyry copper-gold deposit in the region.
2. It is determined that strong Indo-Yanshanian magmatism had existed in the region withmulti igneous rocks types. Late Indonisian-Early Yanshanian diorite, granodiorite, granite,was formed in the190to210ma. Late Yanshan diorite dykes in this field with zirconiumLA-ICP-MS age of118.1±1.6Ma had the geochemical characteristics of adakites,belonging to O-adakite, derived from partial melting of the subducting Pacific pieces, and canbe used as a direct prospecting signs.
3. Ore deposits in this field shows the features of spatio-temporal clustering and varioustypes of mineralization. In accordance with of the metallogenic geological environment andspatial variation of ore-controlling factors and the spatial clustering characteristics of gold orebodies, ore field has been divided into four gold deposits as Banjiegou, Gaoligou,Xingjiagou and Dapaozigou with defined the basic geological features. The shallow part ofGaoligou gold deposit is breccia-type mineralization, and the deep is porphyry-typemineralization. Banjiegou deposits are fissure filling vein-type mineralization in shallow andbreccia type mineralization in deep. Xingjiagou and Dapaozigou deposits are breccia typemineralization, but drilling reveals its porphyry-type mineralization in deep.
4. A new Au-bearing mineral, Siegenite, has been discovered in this ore field. Studiesshow that Siegenite is subhedral-anhedral, star bulk or packaged in chalcopyrite, and goldmineral in it is wrapped gold mainly. Gold-bearing minerals in porphyry-type mineralizationespecially contained chalcopyrite, pyrite and Siegenite. Breccia and fracture filling vein-typemineralization contained gold minerals pyrite and quartz.
5. Jinchang porphyry gold mineralization formed at116~118Ma. Studies have shownthat ore-forming minerals came from the deep magma. The early ore-forming fluid is acidicoxidized mixed hydrothermal mineralization, and the late ore-forming fluid is alkalinereduced fluid. Changes on properties from early to late fluid are obvious. Boiling activity dueto reduced pressure and cooling is the most important mechanism for mineral sediment. Goldmineralization shows obvious zonation as the porphyry→the breccia→fissure fillingvein-type both from the inside to outside in the standardly and from bottom to top vertically.
6. The prospecting system pattern according to the metallogenic system has beenestablished in this area. Five first-order prospecting targets and five second-order prospectingtargets have been declined. Through certifying completion of works, the amount of additionalresources of205million tons ore and4.669tons of gold metal.
1、区域成岩成矿环境厘定为活动陆缘火山弧的火山-次火山岩带,其地球动力学背景为太平洋板块俯冲板片折返引起的深部岩石圈拆沉和浅部地壳伸展,区域上广泛发育与中生代中酸性岩浆活动相关的浅成低温-斑岩型铜金矿床。
2、矿田内印支-燕山期岩浆活动强烈,岩浆岩类型多样:印支晚期-燕山早期以闪长岩、花岗闪长岩、花岗岩为主,形成时代为190~210Ma;燕山晚期以花岗斑岩、闪长玢岩脉为主,形成时代为110~120Ma。矿田燕山晚期(锆石LA-ICP–MS年龄为118.1±1.6Ma)侵位的闪长玢岩脉为成矿母岩,具埃达克质岩地球化学特征,属O型埃达克岩,来源于俯冲的太平洋块片的部分熔融,可以作为直接找矿标志。
3、矿田内矿床时空集中,矿化类型多样,根据成矿地质环境与控矿要素的空间变化及金矿体的空间群聚特征,将矿田划分为半截沟、高丽沟、邢家沟和大狍子沟四个金矿床,明确了其基本地质特征。其中,高丽沟金矿床浅部为角砾岩型矿化,深部为斑岩型矿化;半截沟矿床浅部为裂隙充填脉型矿化,深部为角砾岩型矿化;邢家沟和大狍子沟矿床为角砾岩型矿化,钻孔揭示其深部具有斑岩型矿化。
4、矿田内首次发现了一种新的载金矿物——硫镍钴矿,研究表明硫镍钴矿呈半自形-他形粒状、呈星散状或包于黄铜矿内,硫镍钴矿中的金矿物以包裹金为主。斑岩型矿化载金矿物以黄铜矿、黄铁矿和硫镍钴矿为主;角砾岩型和裂隙充填脉型矿化载金矿物以黄铁矿和石英为主。
5、金厂斑岩金成矿系统形成于116~118Ma;研究显示成矿物质来自与深部岩浆;成矿早期流体为酸性的氧化型混合热液、晚期为碱性的还原型流体,从早到晚流体性质变化明显,而减压、降温导致的沸腾作用是矿质沉淀的最主要机制;金矿化分带明显,水平上由内向外,垂向上由下到上,均表现为由斑岩型→角砾岩型→裂隙充填脉型。
6、以成矿系统结构为基础,构建勘查系统模型,圈定一级找矿靶区5处,二级找矿靶区5处,通过工验程证,新增资源量为矿石量205万吨,金金属量4.669吨。
Jinchang gold field, in Yanbian-Dongning metallogenic belt, belongs to strongIndo-Yanshanian magmatism with complex rocks-controlling and ore-controlling tectonic system andconcentrated the spatial and temporal distribution of gold deposits. This deposit, as a naturallaboratory to study porphyry gold mineralization system, has variety mineralization typieswith porphyry, breccia and fracture filling vein-type. Depending on the detailed field andlaboratory research and analysis of the previous results, this paper focuses on porphyrymetallogenic mechanism of Jinchang Au ore deposit and the main conclusions are as follows.
1. It is recognized that metallogenic geological background of this area should beenactive continental marginal arc volcanic-subvolcanic belt, with geodynamic setting of thePacific plate subducted slab exhumation caused by deep lithospheric delamination andshallow crustal extension, widely developed Mesozoic of acidic magmatic activity in relatedwith epithermal-porphyry copper-gold deposit in the region.
2. It is determined that strong Indo-Yanshanian magmatism had existed in the region withmulti igneous rocks types. Late Indonisian-Early Yanshanian diorite, granodiorite, granite,was formed in the190to210ma. Late Yanshan diorite dykes in this field with zirconiumLA-ICP-MS age of118.1±1.6Ma had the geochemical characteristics of adakites,belonging to O-adakite, derived from partial melting of the subducting Pacific pieces, and canbe used as a direct prospecting signs.
3. Ore deposits in this field shows the features of spatio-temporal clustering and varioustypes of mineralization. In accordance with of the metallogenic geological environment andspatial variation of ore-controlling factors and the spatial clustering characteristics of gold orebodies, ore field has been divided into four gold deposits as Banjiegou, Gaoligou,Xingjiagou and Dapaozigou with defined the basic geological features. The shallow part ofGaoligou gold deposit is breccia-type mineralization, and the deep is porphyry-typemineralization. Banjiegou deposits are fissure filling vein-type mineralization in shallow andbreccia type mineralization in deep. Xingjiagou and Dapaozigou deposits are breccia typemineralization, but drilling reveals its porphyry-type mineralization in deep.
4. A new Au-bearing mineral, Siegenite, has been discovered in this ore field. Studiesshow that Siegenite is subhedral-anhedral, star bulk or packaged in chalcopyrite, and goldmineral in it is wrapped gold mainly. Gold-bearing minerals in porphyry-type mineralizationespecially contained chalcopyrite, pyrite and Siegenite. Breccia and fracture filling vein-typemineralization contained gold minerals pyrite and quartz.
5. Jinchang porphyry gold mineralization formed at116~118Ma. Studies have shownthat ore-forming minerals came from the deep magma. The early ore-forming fluid is acidicoxidized mixed hydrothermal mineralization, and the late ore-forming fluid is alkalinereduced fluid. Changes on properties from early to late fluid are obvious. Boiling activity dueto reduced pressure and cooling is the most important mechanism for mineral sediment. Goldmineralization shows obvious zonation as the porphyry→the breccia→fissure fillingvein-type both from the inside to outside in the standardly and from bottom to top vertically.
6. The prospecting system pattern according to the metallogenic system has beenestablished in this area. Five first-order prospecting targets and five second-order prospectingtargets have been declined. Through certifying completion of works, the amount of additionalresources of205million tons ore and4.669tons of gold metal.
引文
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