Krzhizhanovskaya M.G.

krzhizhanovskaya@mail.ru


Graduated from St. Petersburg State University (1995), specialization" geochemistry".
Associate Professor of the Crystallography Department, St. Petersburg State University.
PhD in geology and mineralogy.
Area of scientific interest: radiography, crystallochemistry.
Author of 50 publications.
New methods and technologies
Section editor – PhD in geology and mineralogy Prischepa O.M.
Article # 8_2017 submitted on 12/19/2016 displayed on website on 03/13/2017
21 p.
pdf  Mechanism of authigenic rhodochrosite formation in the near-bottom sediments of the Saint-Petersburg-2 gas-hydrate-bearing structure (central basin of the Baikal Lake)
Gas-hydrate-bearing fluid discharge areas are generally marked with authigenic carbonates. The latter can be formed in result of methane oxidation/generation, destruction of organic matter or the mixing of these processes. In most cases, the history of carbonates generation can be steadily reconstructed based on the isotopic data. This article discussed the mechanism of rhodochrosite crystallization, rhodochrosite which was discovered for the first time in the near-bottom sediments of the Baikal Lake gas-hydrate-bearing structures (the St. Petersburg-2 structure). The rhodochrosite formation is related to the cause of its formation were the microbial degradation of organic matter in the zone of methane generation.

Keywords: authigenic carbonates, rhodochrosite, the methane, gas-hydrate-bearing structure, Lake Baikal.
article citation Krylov A.A., Khlystov O.M., Hachikubo A., Minami H., Pogodaeva T.V., Zemskaya T.I., Krzhizhanovskaya M.G., Muzafarova L.E., Atanyazov R.Zh. Mekhanizm formirovaniya autigennogo rodokhrozita v pripoverkhnostnykh osadkakh gazogidratonosnoy struktury Sankt-Peterburg-2 v tsentral'noy kotlovine ozera Baykal [Mechanism of authigenic rhodochrosite formation in the near-bottom sediments of the Saint-Petersburg-2 gas-hydrate-bearing structure (central basin of the Baikal Lake)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2017, vol. 12, no. 1, available at: http://www.ngtp.ru/rub/12/8_2017.pdf
DOI https://doi.org/10.17353/2070-5379/8_2017
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