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[1]方维萱,贾润幸,郭玉乾,等.塔西地区富烃类还原性盆地流体与砂砾岩型铜铅锌-铀矿床成矿机制[J].地球科学与环境学报,2016,38(06):727-752.
 FANG Wei-xuan,JIA Run-xing,GUO Yu-qian,et al.Hydrocarbon-rich Basin Fluid with Reductibility and Metallogenic Mechanism for Glutenite-type Cu-Pb-Zn-U Deposits in the Western of Tarim Basin[J].Journal of Earth Sciences and Environment,2016,38(06):727-752.
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塔西地区富烃类还原性盆地流体与砂砾岩型铜铅锌-铀矿床成矿机制(PDF)
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《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:
第38卷
期数:
2016年第06期
页码:
727-752
栏目:
基础地质与矿产地质
出版日期:
2016-11-15

文章信息/Info

Title:
Hydrocarbon-rich Basin Fluid with Reductibility and Metallogenic Mechanism for Glutenite-type Cu-Pb-Zn-U Deposits in the Western of Tarim Basin
文章编号:
1672-6561(2016)06-0727-26
作者:
方维萱贾润幸郭玉乾李天成王磊黄转盈
有色金属矿产地质调查中心,北京 100012
Author(s):
FANG Wei-xuan JIA Run-xing GUO Yu-qian LI Tian-cheng WANG Lei HUANG Zhuan-ying
China Non-ferrous Metals Resource Geological Survey, Beijing 100012, China
关键词:
沉积岩型铜矿床铜铅锌-铀矿床成矿机制前陆盆地后陆盆地山间拉分断陷盆地构造岩相学方法富烃类还原性盆地流体
Keywords:
sediment-host stratiform Cu deposit Cu-Pb-Zn-U deposit metallogenic mechanism foreland basin hinterland basin intermontane faulting-basin tectonic lithofacies method hydrocarbon-rich basin fluid with reductibility 
分类号:
P595;P618.4;P619.14
DOI:
-
文献标志码:
A
摘要:
塔西地区萨热克大型砂砾岩型铜矿床和乌拉根铅锌矿床进入矿山开发期,今后找矿潜力大但成矿机制不明,制约了成矿与找矿预测。基于构造岩相学和地球化学岩相学,以西南天山造山带为核心,塔西地区前陆盆地、山间盆地和后陆盆地对于砂砾岩型铜矿床、铅锌矿床和铀矿床有不同控制作用:①在西南天山造山带北侧的托云中—新生代后陆盆地系统中,其次级盆地(萨热克巴依中生代山间拉分断陷盆地)上侏罗统库孜贡苏组上段为萨热克式砂砾岩型铜矿赋存层位;②在西南天山造山带南侧的前陆盆地系统中,乌拉根砂砾岩型铅锌矿赋存在下白垩统克孜勒苏群顶部与古近系底部,巴什布拉克大型砂岩型铀矿床赋存在伽师前陆盆地克孜勒苏群中;③在前陆盆地系统中,古近系顶部和新近系渐新统—中新统为砂岩型铜矿床赋存层位。富烃类还原性盆地流体识别构造岩相学标志为沥青化蚀变相、沥青化-褪色化蚀变带、碎裂岩化相和沥青化蚀变相多重耦合结构;地球化学岩相学标志包括富含有机碳,矿物包裹体中含有含烃盐水、气态烃-液态烃-气液态烃、轻质油和沥青等有机质类包裹体,低盐度和中盐度成矿流体,Cu-Ag-Mo同体共生矿体,氧化相铜、硫化相铜和钼硫化物等。砂砾岩型铜铅锌-铀矿床成矿机制主要包括:①同生断裂带由走滑拉分断陷发生构造反转后,转变为挤压收缩体制,即烃源岩大规模生烃-排烃机制;②反转构造带、区域性不整合面、滑脱构造带、高孔隙度和渗透率砾岩等构造岩相带为富烃类还原性盆地流体大规模运移构造通道;③高孔隙度和渗透率砾岩类下部低渗透率泥质粉砂岩和上部含膏泥岩为岩相岩性圈闭构造岩相学标志;④大规模富烃类还原性盆地流体与含铜紫红色铁质杂砾岩(氧化相铜)有多相流体多重耦合结构,可能是砂砾岩型铜矿床大规模富集成矿机制,低温卤水沉积叠加富烃类还原性盆地流体成矿可能是形成砂砾岩型铅锌矿床机制,富烃类还原性盆地流体多期次混合与氧化相铀被还原可能是砂岩型铀矿富集成矿机制。
Abstract:
The important Mesozoic-Cenozoic glutenite-type Cu-Pb-Zn-U metallogenic belts are located at the western of Tarim Basin. The large-size Sareke glutenite-type Cu deposit and Wulagen Pb-Zn deposit are in the development period. They still have highpotential exploration; however, the metallogenic mechanism is not clear, so that it is difficult for metallogenic prediction and prospecting. The tectonic and geochemical lithofacies show that the basin system including foreland, intermountain and hinterland basins around Southwest Tianshan orogenic belt, has different controls on glutenite-type Cu, Pb-Zn and U deposits. Firstly, the Mesozoic intermontane pull-apart graben basin in Sarekebayi, which is a secondary basin attached to Tuoyun Mesozoic-Cenozoic hinterland basin, is located at the northern of Southwest Tianshan orogenic belt. The Sareke glutenite-type Cu deposit is hosted by amaranthine irony conglomerate in the upper part of the Upper Jurassic Kuzigongsu Formation in this basin. Secondly, Wulagen glutenite-type Pb-Zn deposit is hosted between the upper part of the Lower Cretaceous Kezilesu Group and the bottom of Palaeogene located at the foreland basin of the southern part of Southwest Tianshan orogenic belt. However, Bashibulake large-size glutenite-type U deposit is hosted in the Cretaceous Kezilesu Group of Jiashi foreland basin. Finally, the glutenite-type Cu deposit is hosted in the Oligocene-Miocene and the top of the Palaeogene in the foreland basin system. Tectonic petrography features identifying the hydrocarbon-rich basin fluid include bituminization alteration, bituminization-discolorous alteration, and multiple coupling patterns between cataclastic lithification and bituminization alteration. Nevertheless, the geochemical petrography features include the rich total organic carbon (TOC), and the hydrocarbon-bearing salt-water, gas-liquid-gas/liquid hydrocarbon, light oil and asphalt from organic matter inclusions in the mineral inclusions, and the ore-forming fluids with low and middle salinities, and the orebody of Cu-Ag-Mo intergrowth, and the oxidized facies Cu, sulfured facies Cu and Mo sulfides. Therefore, the metallogenic mechanism of glutenite-type Cu-Pb-Zn-U deposits is clear. Firstly, the hydrocarbon source rocks have given off the hydrocarbon feeders by the sny-faults after tectonic inversion from the strike-slip sag to compressional deformation. Secondly, the tectonic lithofacies zones, including tectonic inversion zones, regional uncomformity, detachment tectonic belts, conglomerates with high porosity and permeability, are the tectonic tunnels for the large-scale migration of hydrocarbon-rich basin fluid. Thirdly, the argillaceous siltstones and gypsum-bearing mudstones from the conglomerates with high porosity and permeability are the signs of tectonic petrography for lithostratigraphic traps. Finally, large-scale hydrocarbon-rich basin fluid and Cu-bearing amaranthine irony conglomerate (oxidized Cu) have multiple-phase fluids and multiple-coupling structure, and maybe the mechanism for the large-scale enrichment mineralization of glutenite-type Cu deposit; the mineralization of brine with lower temperature superimposed by hydrocarbon-rich basin fluid maybe the mechanism for the enrichment mineralization of glutenite-type Pb-Zn deposit; the multiple mixing of hydrocarbon-rich basin fluid and the reduction of oxidized U maybe the mechanism for the enrichment mineralization of glutenite-type U deposit.

参考文献/References:

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相似文献/References:

[1]方维萱,贾润幸,王磊.塔西陆内红层盆地中盆地流体类型、砂砾岩型铜铅锌-铀矿床的大规模褪色化围岩蚀变与金属成矿[J].地球科学与环境学报,2017,39(05):585.
 FANG Wei-xuan,JIA Run-xing,WANG Lei.Types of Basin Fluids, Mechanism of Discolored Alterations and Metal Mineralizations of Glutenite-type Cu-Pb-Zu-U Deposits in Intercontinental Red-bed Basin of the Western Tarim Basin[J].Journal of Earth Sciences and Environment,2017,39(06):585.

备注/Memo

备注/Memo:
收稿日期:2016-09-19
基金项目:国土资源部公益性行业科研专项项目(201511016-1);中国地质调查局地质大调查项目(12120114081501)
作者简介:方维萱(1961-),男,陕西蓝田人,研究员,博士研究生导师,理学博士,E-mail:569026971@qq.com。
更新日期/Last Update: 2016-12-01