Journal ArticleDOI
Main aspects of the epigenesis problem
A. G. Kossovskaya,V. D. Shutov +1 more
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The main trends in epigenetic research in the U.S.R. in the last few years are:==================\/\/\/\/\/\/£££€££$££ £££• as mentioned in this paperAbstract:
SUMMARY
This paper presents the main trends in epigenetic research in the U.S.S.R. in the last years:
1
Study of epigenetic zonality in thick series of sedimentary rocks of various ages and tectonic regions, (zones of unaltered clay matrix, of altered clay matrix, of quartzitic structures and hydromica-chloritic cement, and of prick-like structures and phyllite-like schists).
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Principles of stadial analysis and mineral indicators of different epigenetic stages (clay minerals, organic matter, zeolites, feldspars, sulfides).
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Facies of regional epigenesis connecting the main petrographic families of unaltered terrigenic rocks (quartz sandstones with kaolinitic matrix and the same composition of associated clays, acidic arkoses with hydromicaceous clays, lithoclastic sands with several matrix components and associated clays, and volcanogenic greywackes) with “related” facies of regional metamorphism.
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Some practical aspects of epigenesis are: for petroleum geology: maximum depth of burial according to porosity, interruption of quartz, feldspar, sphene, epidote, carbonate, biotite, and clay mineral epigenesis by oil migration; and for ore geology: (a) initial epigenesis: ore impregnation (e.g., volkonskoite in wood remains) due to intrastratal solution of heavy minerals and leaching of rock fragments; (b) deep epigenesis: e.g., galena impregnations due to release of trace elements during dissolution of rock forming minerals e.g., feldspars; and (c) metagenesis: “Alpine” veins across and along bedding, filled, e.g., with copper ores.read more
Citations
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Book ChapterDOI
Chapter 5 Mineralogy and Petrology of Burial Diagenesis (Burial Metamorphism) and Incipient Metamorphism in Clastic Rocks
TL;DR: In this paper, the authors discuss mineralogy and petrology of burial diagenesis and incipent metamorphism in clastic rocks and propose an integrated picture of the phase changes in different types of sedimentary rocks upon burial.
Journal ArticleDOI
The Tethyan Himalayan detrital record shows that India–Asia terminal collision occurred by 54 Ma in the Western Himalaya
Yanina Manya Rachel Najman,D. Jenks,Laurent Godin,Marcelle K. BouDagher-Fadel,Ian L. Millar,Eduardo Garzanti,Matthew S.A. Horstwood,Laura Bracciali +7 more
TL;DR: In this article, a provenance study of the youngest detrital sedimentary rocks of the Tethyan Himalaya of the Indian plate, in the Western Himalaya, was conducted.
Journal ArticleDOI
The pioneer work of Bernard Kübler and Martin Frey in very low-grade metamorphic terranes: paleo-geothermal potential of variation in Kübler-Index/organic matter reflectance correlations. A review
Rafael Ferreiro Mählmann,Rafael Ferreiro Mählmann,Ömer Bozkaya,Sébastien Potel,Ronan Le Bayon,Ronan Le Bayon,Branimir Šegvić,Fernando Nieto +7 more
TL;DR: In this article, a reinterpretation of Kubler and Frey's research is presented in the light of last decade's scientific progress, where a comprehensive dataset available enables to discriminate many factors influencing the Kubler-Index and organic-matter reflectance alongside to time, temperature and pressure.
Journal ArticleDOI
TEM and AEM constraints on the origin and significance of chlorite-mica stacks in slates: an example from Central Wales, U.K.☆
TL;DR: Chlorite-mica stacks in a matrix of fine-grained white mica and chlorite have been studied using XRD, SEM, EMPA, TEM and AEM methods as mentioned in this paper.
Journal ArticleDOI
Clay minerals as an index of the degree of metamorphism of the carbonate and terrigenous rocks in the South Wales coalfield
Abstract: Illite, illite-montmorillonite (I-M) mixed layer, kaolinite and chlorite are the principal clay minerals identified in the carbonate and terrigenous carboniferous rocks in the South Wales coalfield. Mineralogic changes and illite crystallinity are the main modifications in the studied rocks. Progressive illitization of I-M mixed layers (decrease in their expandabilities) towards the western part of the coalfield (i.e. in the direction of increase in coal-rank and grade of metamorphism), and the development of vermicular kaolinite, dickite, allevardite and pyrophyllite in the anthracite area are the main mineralogic changes. Illite crystallinity was determined by Weaver's sharpness ratio (S.R.) and isosharpness ratio maps of illite in the carbonate and terrigenous rocks are produced showing a gradual increase in illite crystallinity towards the west. Illites in the terrigenous rocks tend to be aluminous (evidenced by the increase in their intensity ratios, ‘I.R.’) with increase in coal-rank and grade of metamorphism towards the west. These changes are controlled to some extent by lithology. Correlation of illite S.R. with either its I.R. or expandability of I-M mixed layer, has outlined two diagenetic zones in the coalfield: zone I, the Diagenetic zone, in the eastern and southern regions; and zone II, the Metadi-agenetic zone, covering the central and northern parts of the central region. The Anchimetamorphic zone (zone III), which corresponds to the anthracite area in the northwestern region, was differentiated by correlating the illite S.R. with coal-rank. The occurrence of the above mentioned diagenetic zones and modifications of the clay minerals in the carboniferous rocks of the South Wales coalfield are mainly lateral without variation with increase in depth.
References
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Journal ArticleDOI
The zeolite facies, with comments on the interpretation of hydrothermal syntheses
TL;DR: In this article, field, petrographic and experimental evidence is presented on assemblages involving Ca-Al and Na-Al silicates, warranting recognition of a zeolite facies.
Journal ArticleDOI
Persistence of Heavy Minerals and Geologic Age
TL;DR: In this article, an apparent increase in complexity of the heavy-mineral suites of arenaceous sediments with decrease in the age of the deposit is confirmed by compilation from published records.
Journal ArticleDOI
The Principle of Diagenetic Facies and Some of Its Implications
G. H. Packham,Keith A. W. Crook +1 more
TL;DR: In this paper, it was shown that the physicochemical factors of importance in diagenesis appear to be environmental pH-cation concentration, environmental Eh, pressure, and temperature, which can be inferred from data derived from inherent properties of minerals, such as abrasion pH, from laboratory studies on mineral stability fields and hydrothermal alteration, from theoretical studies of mineral stabilities, from Hydrothermal deposits, and from diagenetic depth sequences.
Journal ArticleDOI
The birth and development of the concept of diagenesis (1866–1966)
TL;DR: A survey of the necessary bibliography to judge the evolution of the term diagenesis from its birth, a century ago, until the present time is given in this paper, which covers the countries, the schools and the traditions.
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