On the participation of natural salts in alkaline magmatism. Article 3. Genetic aspects of the model of salt-alkaline interactions

Author:

Belenitskaya G. A.1

Affiliation:

1. Russian Geological Research Institute (VSEGEI)

Abstract

Research subject. An analysis of regional and global geological material characterizing the spatio-temporal relationships between alkaline magmatic and saline complexes allowed the author to propose and justify a new geological-genetic model of alkaline magmatism. This model considers saline complexes, located along the paths of the upward movement of deep magmas, as additional sources of alkaline and volatile components.Materials and methods. Three articles are devoted to the discussion and justification of this model. Two articles were devoted to geological aspects of the problem. The prerequisites and signs of the participation of ancient saline complexes in alkaline magmatism were characterized. It was shown that the presence of saline rocks in the deep zones of the earth's crust along the paths of the upward movement of deep magma flows is a geologically natural and common phenomenon. Natural alkaline-salt associations (spatio-temporal combinations of alkaline and salt objects) were indicated; their tectonic types were distinguished. A global overview of their different-age analogues (neo- and paleogeodynamic) was given.Results and discussion. The collected data made it possible to evaluate older (than magmas) salt-bearing complexes (deeply buried in the substrate) as a possible important and active participant in the ontogenesis of alkaline complexes, to give a positive assessment of the geological aspects of the “magma halocontamination” model and salt-magmatic interactions; to formulate the main geological-genetic provisions of this model.Conclusion. This article focuses on the discussion of the genetic aspects of the proposed model with an assessment of the probable role and significance of various halophilic components in the formation of alkaline magmas and their features. For this purpose, the similarity features in the spatial and quantitative distribution of halophilic and foydaphilic components in salt and alkaline rocks are considered; the probable role of various halophilic components in the formation of alkaline specialization of magmas, in the emergence of a rich set of unusual features of alkaline rocks (material, structural, morphological, etc.) is discussed. The probability of participation of the complex of paragenic (non-salt) members of the halophilic community (dolomites, anhydrites, black shales and associated ore components) in the interaction with hot magma is estimated. A comparative analysis of some basic provisions of the model under consideration with other geological-genetic models of alkaline petrogenesis is performed. The advantages of this model and its predictive capabilities are evaluated. A number of ideas have been proposed by the author for the first time, thus requiring further elucidation.

Publisher

IGG UB RAS

Subject

Stratigraphy,Geochemistry and Petrology,Geology,Geophysics

Reference53 articles.

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3. Anfilogov V.N. (2006) Problems of basaltic magmatism and the genesis of alkaline rocks. Abstracts of the All-Russian Seminar “Geochemistry of Igneous Rocks”. School “Alkaline Magmatism of the Earth”. http://geo.web.ru/conf/alkaline/2006/index69.html (In Russian)

4. Antsiferov A.S. (1989) Hydrogeology of the oldest oil and gas bearing strata of the Siberian Platform. Moscow, Nedra Publ., 176 p. (In Russian)

5. Belenitskaya G.A. (1998) Halogen-bearing basins. Litho-geodynamics and minerogenetic of sedimentary basins. (Ed. A.D. Shcheglov). St.Petersburg, VSEGEI Publ., 220-320. (In Russian)

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