Please use this identifier to cite or link to this item: http://earchive.tpu.ru/handle/11683/35186
Title: Genetic Classification of ore-forming processes
Authors: Kucherenko, Igor Vasilyevich
Sinkina, Ekaterina Andreevna
Abramova, Raisa Nikolaevna
Keywords: генетическая классификация; рудообразующие процессы; геологические типы; минерализация; рудообразование
Issue Date: 2016
Publisher: IOP Publishing
Citation: Kucherenko I. V. Genetic Classification of ore-forming processes / I. V. Kucherenko, E. A. Sinkina, R. N. Abramova // IOP Conference Series: Earth and Environmental Science. — 2016. — Vol. 43 : Problems of Geology and Subsurface Development : XX International Scientific Symposium of Students, Postgraduates and Young Scientists, 4–8 April 2016, Tomsk, Russia. — [012077, 6 p.].
Abstract: The absence of a genetic classification of ore-forming processes is the result of a rather slow-paced accumulation of knowledge in ore-forming processes, which, in its turn, could be explained by objective conditions such as the fact that during the last few decades the genetic classification included only the description of mineral deposits. The existing genetic mineral deposit classifications has developed and embraced the genetic classification of ore-forming processes in accordance with system theory, structured taxons revealing the nature of the processes and the basis- information source of these processes. The base involved the developed model system of ore mineralization- ore formations (geological formations with syngenetic mineralization) within poly-component and mono-component subformations; for convergent mineralization- geological types of deposits. The latter, as well as non-convergent subformations has accumulated all data about initiating and conditioning ore formation within wide-scaled geological processes. The geological mineralization types within ore formations and subformations are included in the genetic classification of ore-forming processes. This, in its turn, makes it possible to forecast the functions and provide a regular transition into the geological-genetic classification of ore-forming processes in accordance to above-mentioned matrix-structure, and, simultaneously, further the development of the existing geological- genetic theory of ore formation.
URI: http://earchive.tpu.ru/handle/11683/35186
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