肠内成因与矿物分布相互关系的一些规律

IF 0.5 Q4 MINERALOGY Mineralogical Journal-Ukraine Pub Date : 2022-01-01 DOI:10.15407/mineraljournal.44.04.022
V. Pavlyshyn, D. Chernysh, H. Kulchytska, O. Matkovskyi
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引用次数: 0

摘要

通过对以乌克兰为主的地质复合体矿物时空分布资料的分析,揭示了成矿与肠道内矿物分布相互关系的一些规律。研究了岩浆杂岩、伟晶岩、热液岩和变质岩中的矿物分布。指出了构造与矿物分布的关系。地壳的地质发展有一个明确的方向:构造过程的缓和-台地的生长-矿物的分化。从太古宙到显生宙杂岩,从“玄武岩”到“地壳”矿物形成,从超基性岩到酸性岩,形成的矿物种类迅速增加。乌克兰地盾(USh)前绿岩壳以斜长石和辉石为主;随着花岗岩类的发育,石英和碱长石加入其中。从USh发育的早期到后期,物种数量增加了一个数量级。亚速附近的超级大锁排在第一位。大多数物种的形成与碱性岩浆作用和涉及挥发性成分的过程有关,特别是伟晶岩的形成。伟晶岩中的矿物可达数百种。造山导致了火成岩的破坏和新矿物的形成。游离氧的出现成为矿物形成的一个重要因素。深部流体供给的叠加作用促进了矿物的转化和再分配,形成了多成因矿石。矿物的分布使探测某些过程的标型物种成为可能,可用于确定矿化标准、矿化规模和矿体的侵蚀剖面。由于矿物形成的条件,各种矿物的分布,以及具有确定的宏观和微观缺陷的同种矿物的分布,具有重要的实际意义。
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SOME REGULARITIES OF THE INTERRELATION OF THE GENESIS AND MINERALS DISTRIBUTION IN THE BOWELS
Some regularities of the interrelation of the genesis and minerals distribution in the bowels based on the analysis of information on the temporal and spatial distribution of minerals in geological complexes, primarily in Ukraine, were revealed. The distribution of minerals in magmatic complexes, pegmatites, hydrothermalites and metamorphites was studied. The relationship between tectonics and the distribution of minerals is noted. There is a clear direction of the geological development of the earth's crust: the pacification of tectonic processes — the growth of platforms — the differentiation of mineral matter. The number of formed mineral species increased rapidly from Archean to Phanerozoic complexes, from "basaltic" to "crustal" mineral formation, from ultrabasic rocks to acid ones. The Pre-Greenstone crust of Ukrainian Shield (USh) is predominantly represented by plagioclases and pyroxenes; with the development of granitoids, quartz and alkali feldspars joined them. From early to late stages of USh development, the number of species increased by an order of magnitude. Near-Azov megablock is in the first place. Maximum species formation is associated with alkaline magmatism and processes involving volatile components, in particular pegmatite formation. The number of minerals in pegmatites reaches hundreds of species. Mountain building led to the destruction of igneous rocks and the formation of new minerals. The appearance of free oxygen became a powerful factor in mineral formation. Superimposed processes with the supplying of deep fluids contributed to the transformation and redistribution of minerals and the formation of polygenic ores. The distribution of minerals makes it possible to detect typomorphic species for certain processes, which can be used to determine the criteria of mineralization, its scale, and the erosion section of ore bodies. The distribution of various mineral species, and the same species with identified macro- and microdefects, as a result of the conditions of mineral formation, is of practical importance.
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CiteScore
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发文量
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