Article |
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Article name |
STAR HYPOTHESIS OF THE EARTH FORMATION : MANTLE AND CRUST |
Authors |
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Bibliographic description |
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Category |
There is an opinion... |
DOI |
52-5:53.03:551.12 |
DOI |
10.21209/2227-9245-2019-25-5-142-151 |
Article type |
scientific |
Annotation |
Two articles substantiating the stellar hypothesis of the Earth\\\'s formation have already been published. This is the third article which considers the nature of the mantle and crust. The first article presents a set of basic cosmological factors that allow to specify the processes of the Universe matter transformation and development. They reveal the causes of space objects formation in relation to our planet. In the second article, the internal and external nucleus of the Earth, the structure and substance of which are comparable with stellar analogues, are presented. The method of theoretical modeling is used, which is based on universal laws and well-known hypotheses of the planet formation, on numerous new facts that are not sufficiently reflected in the existing theories of the Earth formation and development. Modern avalanche flow of valuable information allows you to look at the formation of the mantle and crust from other, cosmological positions. Moving in space a dwarf star which is in an active interaction with degradation products of the New and Super-new represented a favourable physical basis for the accretion of the inhomogeneous composition of the material remains of stars, concentrated in the sleeves of the Galaxy. The predicted cosmological process favored some star dwarfs to transform into planets not only of the earth type. The complex spherical structure of the earth\\\'s mantle, the presence of transition zones between the Geosphere involves the mantle formation in several stages. During periods of a star dwarf active stay in a few sleeves, the mantle was successively formed, but when staying out of the sleeves in the most severe conditions of electromagnetic radiation, the processes of global mantle metamorphism and magnetism dominated. They probably ensured the formation of primary endogenous mineralization on the planet, which in the future was subjected to multiple fluid regeneration, differentiation, re-investment on higher horizons of the planet, including the earth\\\'s crust. The earth\\\'s crust is a subsidiary of the upper mantle transformation. The proposed view of our planet formation nature allows us to explain many features of the Earth structure and, above all, the development of most chemical elements that cannot be formed on the Earth because of low temperature, even in its core. New, more authentic knowledge about our planet are in demand, especially by geologists for the solution of strategic tasks of prospecting, exploration for various minerals, not uncovered by erosion processes. Such deposits constitute the main reserve for strengthening the mineral resource base of the country. |
Key words |
Key words: stellar hypothesis; planet Earth; mantle; crust; endogenous processes; mineralization; Galaxy; internal structure of the Earth; asthenosphere; methods |
Article information |
Pavlenko Y. Star hypothesis of the Earth formation: mantle and crust // Transbaikal State University Journal, 2019, vol. 25, no. 5, pp.142-151 |
References |
References
1. Vernadsky V. I. Ocherki geohimii (Essays on geochemistry), Moscow: AN SSSR, 1954. vol. 1.
2. Gavrusevich B. А. Osnovy obshchey geohimii (Basics of general geochemistry). Moscow: Nedra, 1968. 328 p.
3. Zagadki Kolskoy sverhglubokoy (Mysteries of the Kola ultra deep). Available at: http://www.paranormal-news.ru/news/2017-02-20-13166 (Date of access: 30.03.2019).
4. Klokov A. А. Rasshiryayushchayasya planeta s epohami szhatiya (Expanding planet with compression epochs). Available at: http://www.klokov-aa.narod.ru/planet.html (Date of access: 21.02.2019).
5. Kolskaya sverhglubokaya (Kola ultra deep). Available at: https://www.ru.wikipedia.org/wiki/ (Date of access: 19.02.2019).
6. Lebedev V. I. Mineralogicheskiy sbornik (Mineralogical collection). Lviv: Lviv State University Press, 1955, no. 9, pp. 38–49.
7. Mitton S., Mitton J. Astronomiya (Astronomy). Moscow: Rosman, 1995. 160 p.
8. Mikhailova L. A. Kontseptsiya sovremennogo estestvoznaniya (The concept of natural science). Available at: http://www.ofap.ru/pisatel/14713/book/100252 (Date of access: 19.01.2019).
9. Pavlenko Yu. V. Vestnik Zabaykalskogo gosudarstvennogo universiteta (Bulletin of the Transbaikal State University), 2018, no. 3, pp. 15–25.
10. Pushcharovsky Yu. M. Fundamentalnye problemy obshchey tektoniki: sbornik statey (Fundamental problems of general tectonics: collected articles). Moscow: Scientific World, 2001, pp. 349–350.
11. Pushcharovsky Yu. M. Tektonika i geodinamika mantii Zemli. Fundamentalnye problemy obshchey tektoniki: sbornik statey (Tectonics and geodynamics of the Earth’s mantle. Fundamental problems of general tectonics: collected articles). Moscow: Scientific World, 2001. p. 10–33.
12. Fersman A. Ye. Himicheskie element Zemli i Kosmosa (Chemical Element of the Earth and the Cosmos). Moscow: USSR Academy of Sciences, 1953. vol. 2.
13. Juan U. T. Petrologiya (Petrology). Moscow: World, 1965. 575 p.
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