波尔德涅夫斯科陨石矿床(中乌拉尔)天然矿物和硫化物矿物集合体的矿物学和形成条件成因

IF 0.8 4区 地球科学 Q3 GEOLOGY
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引用次数: 0

摘要

摘要 描述了 Korkodinskoe 超基性丘陵中的脉状磁铁矿-方解石-温石棉岩中由铜、镍、铁、银和其他元素的原生矿物和硫化物矿物组成的圆形多矿物集合体("结核")。已确定的六种原生硫化物结核(由原生铜、黝帘石、辉铜矿、铜绿石和其他原生硫化物矿物组成)的共同特征是其球状形状,这使得它们与其他煤矸石矿物(方解石、磁铁矿等)的单个颗粒相似。在黝帘石-辉绿岩结核中,发现了黝帘石中的汞银和镍铜以及钴辉绿岩中的褐铁矿。主蛇纹岩脉块中的矿石矿物(原生铜、汞银、heazlewoodite、pentlandite、awaruite)与脉石中的结核相匹配,表明了它们之间的遗传联系,以及翠榴石成矿与蛇纹岩化演化过程之间的共轭关系。经证实,结核是在温度低于 380°C 的还原条件下,在极低的硫富集度值(10-17-10-27 巴)和氧气(10-30 巴,200°C 至 10-21 巴,350°C)条件下形成的。对于黝帘石-辉铜矿结核,这种条件在其形成的整个过程中持续存在,而对于其他结核,早期副成因的还原条件被晚期副成因的氧化条件所取代,这表现为原生铜被辉铜矿所取代。据推测,原生硫化物结核的形态和结构特征以及其中矿石矿物共生体的存在,与断层带地壳-岩幔混合物上升到地表时减压所产生的特定条件有关。金属的来源是一种深层高温流体,在还原条件下与黑云母岩和超黑云母岩相互作用,水岩比很低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mineralogy and Conditions of Formation Genesis of Aggregates of Natural and Sulfide Minerals of the Poldnevskoe Demantoid Deposit (Middle Urals)

Abstract

Polymineral aggregates of rounded shapes (“nodules”) composed of native and sulfide minerals of Cu, Ni, Fe, Ag, and other elements from vein magnetite–calcite–chrysotile rocks with jewelry demantoid in the Korkodinskoe hypermafic massif are described. A common feature of the six identified types of native sulfide nodules, composed of native copper, heazlewoodite, pentlandite, cuprite, and other native sulfide minerals, is their spheroidal shape, which makes them similar to individual grains of other gangue minerals (calcite, magnetite, etc.). In heazlewoodite–pentlandite nodules, specific symplectites of mercuric silver and nickel copper in heazlewoodite, as well as awaruite in Co–pentlandite, were found. The matching set of ore minerals in the host serpentinite vein mass (native copper, mercuric silver, heazlewoodite, pentlandite, awaruite) and nodules from the vein material indicates their genetic connection and the conjugation of demantoid mineralization with the evolving processes of serpentinization. It was established that the nodules formed at temperatures below 380°C under reducing conditions at very low sulfur fugacity values (10–17–10–27 bar) and oxygen (10–30 bar at 200°C to 10–21 bar at 350°C). For heazlewoodite–pentlandite nodules, such conditions persisted throughout the entire time of their formation, while, for other nodules, the reducing conditions of early parageneses were replaced by oxidative conditions in late parageneses, which is recorded by the replacement of native copper with cuprite. It is assumed that the features of the morphology and structure of native sulfide nodules and the presence of symplectite intergrowths of ore minerals in them are associated with specific conditions created during the decompression of the crust-mantle mixture rising to the surface in the fault zone. The source of the metals was a deep, high-temperature fluid interacting with mafic and ultramafic rocks under reducing conditions at a low water-to-rock ratio.

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来源期刊
Geology of Ore Deposits
Geology of Ore Deposits 地学-地质学
CiteScore
1.10
自引率
14.30%
发文量
24
审稿时长
6-12 weeks
期刊介绍: Geology of Ore Deposits is a periodical covering the topic of metallic and nonmetallic mineral deposits, their formation conditions, and spatial and temporal distribution. The journal publishes original scientific articles and reviews on a wide range of problems in theoretical and applied geology. The journal focuses on the following problems: deep geological structure and geodynamic environment of ore formation; distribution pattern of metallogenic zones and mineral deposits; geology and formation environment of large and unique metallic and nonmetallic deposits; mineralogy of metallic and nonmetallic deposits; physicochemical and isotopic characteristics and geochemical environment of ore deposition; evolution of ore-forming systems; radiogeology and radioecology, economic problems in exploring, developing, and mining of ore commodities.
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