Accessory mineralisations in lherzolites of Northern Kraka massif (South Urals)

IF 0.8 Q3 ENGINEERING, PETROLEUM
Georesursy Pub Date : 2023-09-30 DOI:10.18599/grs.2023.3.24
Dmitry E. Saveliev, Ruslan A. Gataullin
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Abstract

The findings of platinum group metal mineralization (PGM) and the distribution of platinum group elements (PGE) in lherzolites of the Northern Kraka massif are described. The total contents of PGE are approximately two orders of magnitude lower than those in chondrite and are close to pyrolite, relative to which the studied lherzolites are enriched in Pd and depleted in Ru. In segregations of PGMs, the presence of all PGEs (except rhodium) in various proportions was established. All found grains are divided into three contrasting types: the refractory triad Os–Ir–Ru, essentially platinum with the participation of Pd, and Cu–Pd. Almost all found PGM grains are localized either in the peripheral parts of grains of altered sulfides (heazlewoodite, pentlandite) or in the silicate matrix in the immediate vicinity of sulfide segregations. Based on the mineral associations and PGE distribution, a probable genesis of segregations has been suggested. Associations of Cu–Pd and Pd–Pt(+Cu) composition most likely formed during the crystallization of sulfides from the extracted partial melts. This is indicated by their close association with clinopyroxenes and the presence of relatively fusible platinoids and copper. The associations of Pt–Ir and Os–Ir–Ru(+Pt) composition are most likely restitic, formed in place of primary mantle sulfides as a result of extraction of more fusible elements and further desulphurization. The isolation of platinoids as their own mineral phases is associated with the influence of superimposed low-temperature processes – subsolidus redistribution during cooling and subsequent serpentinization.
北克拉卡地块(南乌拉尔)伊热橄榄岩的副成矿作用
介绍了克拉卡地块北部伊尔热橄榄岩中铂族金属矿化(PGM)和铂族元素(PGE)的分布。PGE总含量比球粒陨石低约2个数量级,接近软锰矿,相对于软锰矿富钯贫钌。在pgm的分离中,所有PGEs(除了铑)以不同的比例存在。所有发现的晶粒分为三种不同的类型:难熔三元Os-Ir-Ru,本质上是铂与Pd的参与,以及Cu-Pd。几乎所有发现的PGM颗粒都定位于蚀变硫化物(辉石、镍黄铁矿)颗粒的外围部分或硫化物分异附近的硅酸盐基质中。根据矿物组合和PGE分布,提出了可能的分选成因。Cu - pd和Pd-Pt (+Cu)组成的结合很可能是在提取的部分熔体的硫化物结晶过程中形成的。这是由它们与斜辉石的密切联系和相对易熔的铂类和铜的存在表明的。Pt - ir和Os-Ir-Ru (+Pt)组成的结合很可能是弹性的,是由于萃取出更多的易熔元素和进一步的脱硫作用而代替原生地幔硫化物形成的。铂类矿物作为其自身矿物相的分离与叠加低温过程的影响有关——冷却过程中的亚固相再分配和随后的蛇纹石化。
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来源期刊
Georesursy
Georesursy ENGINEERING, PETROLEUM-
CiteScore
1.50
自引率
25.00%
发文量
49
审稿时长
16 weeks
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