Bismuth sulfosalts from Berezovsk ore region: Chemical composition and mineral associations

Q4 Earth and Planetary Sciences Litosfera Pub Date : 2018-07-01 DOI:10.24930/1681-9004-2018-18-3-445-458
S. V. Pribavkin, S. G. Sustavov, I. Gottman
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引用次数: 1

Abstract

висмутин-айкинитовая The paper presents the results of a study of the chemical composition of the sulfosalts of bismuth from the gold-quartz- sulphide ore Berezovsky Deposit and the eponymous ore district of the Middle Urals. Samples of minerals were obtained from quartz veins located in different parts of the ore area. In the South of the district the veins occur among the granites of the Shartash massif and accompanied by the metasomatic gumbeit formation. Veins in its Central part are located into the dikes of granite porphyry, volcanic-sedimentary rocks, hyperbasites. In the North, the veins are localized in gabbro, hyperbasites, volcanic rocks. Here, as in the Central part, they are accompanied by metasomatic changes of the berezite-listwanite formation. The minerals of bismuth form small isometric, prismatic or needle-shaped secretions, as well as large elongated crystals reaching a length of several centimeters. Their diagnosis and study of the composition was performed by X-ray structural and chemical microanalysis. It is shown widespread among minerals of bismuth sulfosalts of the bismuthinite-ЛИТОСФЕРА aikinite series, consisting of 9 members: bismuthine, pecoite, gladite, stroking, salzburger, krupkaite, lindströmite, khammarite, fridrikhite and dramatically prevalent among sulfosalts that number aikinite. In mineral composition pavonite series revealed cuprapawonite, Cu-benjaminite, benjaminite. Other sulphosalts of bismuth are presented kosalite, nafildite, hodrushite, matildite. The relationship of minerals with each other and the peculiarities of the chemical composition allowed to distinguish several paragenetic associations conform with different stages of mineral formation. With high-temperature stage (360–285°C) connects the deposition of disordered solid solutions bismuthine-aikinte and pavonite series, subsequently undergone to disintegration with the formation of ordered phases of bismuthine, gladite, krupkaite, lindströmite, khammarite, benjaminite. For medium and low temperature stage (285–150°C) was formed aikinite, fridrikhite, krupkaite, salzburgite, nuffieldite cozalite, matildite, together with the Ag-Bi-Galena, tetradymite, hessite and gold. The low-temperature stage is associated with the formation of aikinite together with Galena and gold. Established on the example of the sulfosalts of bismuth sequence of mineral formation reflects not only the consistent evolution of mineral-forming fluids, but the pulsed nature of the hydrothermal activity at individual deposits and at ore field in general.
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别列佐夫斯克矿区的硫酸铋:化学成分和矿物组合
висмутин-айкинитовая本文介绍了对中乌拉尔别列佐夫斯基金矿床及同名矿区的金石英硫化矿中铋的硫盐化学组成的研究结果。从矿区不同部位的石英脉中获得了矿物样品。在南方地区静脉发生Shartash地块的花岗岩和伴随着交代gumbeit形成。中部脉脉分布于花岗斑岩、火山-沉积岩、超基岩脉中。在北方,脉体局限于辉长岩、超玄武岩、火山岩中。这里与中部地区一样,它们都伴随着银榴辉石岩-李氏石岩组的交代变化。铋的矿物质形成小的等距、棱柱状或针状分泌物,以及长达几厘米的大的细长晶体。他们的诊断和研究的组成进行了x射线结构和化学微量分析。它广泛存在于铋锑矿-ЛИТОСФЕРА绢金矿系列的铋磺酸盐矿物中,该系列矿物由铋锑、碧石、gladite、stroking、salzburger、krupkaite、lindströmite、khammarite、fridrikhite 9个成员组成,并在绢金矿号的硫酸盐中极为普遍。pavonite系列矿物组成中主要有铜钡土、铜便雅悯矿、便雅悯矿。铋的其他亚硫酸盐有无烟石、钠铁石、铁石、铁铁石。矿物之间的相互关系和化学成分的特殊性使我们能够区分几种符合不同矿物形成阶段的共生组合。高温阶段(360 ~ 285℃)连接了无序固溶体铋-镁铁石和帕脱石系列的沉积,随后经历了分解,形成有序相铋-镁铁石、钙铁石、lindströmite、钾铁石、便雅石。在中低温阶段(285 ~ 150℃)形成了绢金矿、绢金矿、绢金矿、绢金矿、绢金矿、绢金矿、绢金矿、绢金矿、绢金矿、绢金矿和绢金矿。低温期与辉蓝矿、方铅矿、金的形成有关。以铋磺酸盐为例建立的矿物形成序列不仅反映了成矿流体的一致演化,而且反映了单个矿床和一般矿田热液活动的脉冲性。
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来源期刊
Litosfera
Litosfera Earth and Planetary Sciences-Geophysics
CiteScore
0.70
自引率
0.00%
发文量
39
审稿时长
12 weeks
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