Enviar artigo por via de e-mail Bismuth- sulfosalts mineralization in the ores of the Vladimirskoye deposit (Eastern Sayan)
- Autores: Airiyants E.1, Belyanin D.K.2, Zhmodik S.M.2, Kiseleva O.N.2, Roshchektaev P.A.2
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Afiliações:
- Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences
- V.S. Sobolev Institute of Geology and Mineralogy, Siberian Branch of the Russian Academy of Sciences
- Edição: Volume 526, Nº 2 (2026)
- Seção: MINERALOGY
- ##submission.dateSubmitted##: 05.09.2025
- ##submission.dateAccepted##: 27.10.2025
- ##submission.datePublished##: 18.11.2025
- URL: https://journals.rcsi.science/2686-7397/article/view/308321
- ID: 308321
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Resumo
As a result of a comprehensive mineralogical and geochemical study of the Vladimirskoye gold deposit (Eastern Sayan), the authors for the first time established gold-bismuth-sulfosolic mineralization, unique to the southeastern part of the Eastern Sayan. The existence of various Bi, Pb, and Ag sulfosalts in ores, native bismuth and silver, which form specific geochemical associations and mineral accretions, indicates the complex genesis of ores and the involvement of polymetallic melts in the concentration and redistribution of gold and silver. The formation of ores is associated with the interaction of embedded collisional granitoids with rocks of the Sialic Archaean-Early Proterozoic basement of the Gargan block. The process of granitoid intrusion was accompanied by remobilization of matter and the appearance of a series of shear deformations at the accretion-collision stage (490-420 Ma) of the restructuring of the active continental margin. The concomitant high-temperature metamorphism of the amphibolite facies affected the redistribution and concentration of ore components.
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Sobre autores
Evgeniya Airiyants
Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences
Autor responsável pela correspondência
Email: jenny@igm.nsc.ru
ORCID ID: 0000-0002-5164-7571
Código SPIN: 3266-9576
Scopus Author ID: 6508197973
Researcher ID: A-3960-2014
Candidate of Geological and Mineralogical Sciences, Senior Researcher at the Laboratory of Geochemistry of Noble and Rare Elements
Rússia, 630090, Novosibirsk, ave. Ak. Koptyuga, 3, IGM SB RASDmitry Belyanin
V.S. Sobolev Institute of Geology and Mineralogy, Siberian Branch of the Russian Academy of Sciences
Email: bel@igm.nsc.ru
ORCID ID: 0000-0001-8504-4421
Código SPIN: 1039-3271
Scopus Author ID: 35736843500
Researcher ID: A-3925-2014
Rússia, 3, Ak. Koptyuga ave., Novosibirsk, 630090, IGM SB RAS
Sergei Zhmodik
Email: zhmodik@igm.nsc.ru
Rússia
Olga Kiseleva
Email: kiseleva_on@igm.nsc.ru
Scopus Author ID: 56016690400
Researcher ID: O-3050-2013
Rússia
Peter Roshchektaev
Email: roschektaev@rambler.ru
Rússia
Bibliografia
- Жмодик С.М., Миронов А.Г., Жмодик А.С. Золотоконцентрирующие системы офиолитовых поясов (на примере Саяно-Байкало-Муйского пояса). Новосибирск: Академическое издательство «ГЕО». 2008. 304 с.
- Корольков А.Т. Геодинамика золоторудных районов юга Восточной Сибири. Иркутск: изд-во ИГУ, 2007. 251 с.
- Damdinov B.B Mineral Types of gold deposits and regularities of their localization in Southeastern East Sayan // Geology of Ore Deposits. 2019. V. 61. P. 118–132.
- Gordienko I.V., Roshchektaev P.A., Gorokhovsky D.V. Oka ore district of the Eastern Sayan: geology, structural-metallogenic zonation, genetic types of ore deposits, their geodynamic formation conditions, and outlook for development // Geology of Ore Deposits. 2016. V 58. P. 361–382.
- Гармаев Б.Л., Дамдинов Б.Б., Миронов А.Г. Золото-висмутовое проявление Пограничное (Восточный Саян): состав и связь с магматизмом // Геология рудных месторождений. 2013. Т. 55 (6). C. 533–545.
- Бузов С.А. Структурный контроль золотого оруденения на участке Владимирский (Восточные Саяны) // Известия Сибирского отделения Секции наук о Земле РАЕН. 2009. Т. 34. № 1. C. 37–44.
- Airiyants E.V., Nharara B.T., Kiseleva O.N., Belyanin D.K., Roschektaev P.A., Travin A.V., Zhmodik S.M. Vladimirskoe deposit (Eastern Sayan): age of dyke complexes and localization features of gold mineralization // Geodynamics & Tectonophysics. 2023. V. 14 (4). 0710.
- Damian G., Ciobanu C., Cook N., Damian F. Bismuth sulphosalts from the galena-matildite series in the Cremenea vein, Suior, Baia Mare district, Romania // N. Jb. Miner. Abh. 2008. V. 185/2. P. 199–213.
- Wang N. An experimental study of some solid solutions in the system Ag2S-PbS-Bi2S3 at low temperatures // N. Jb. Miner. Mh. 1999. P. 223–240.
- Frost B.R., Mavrogenes J.A., Tomkins A.G. Partial melting of sulfide ore during medium and high-grade metamorphism // Canadian Mineralogist. 2002. V. 40. P. 1–18.
- Калинин А.А., Савченко Е.Э. Структуры кристаллизации сульфидных расплавов как признак метаморфизма руд Оленинского месторождения золота // Вестник МГТУ. 2020. Т. 23, № 1. С. 29–37.
- Викентьева О.В. Признаки плавления минералов в рудах Светлинского золоторудного месторождения, Южный Урал, Россия // ДАН, 2023. Т. 513. № 2. C. 206-211.
- Tomkins A.G. Three mechanisms of ore re-mobilisation during amphibolite facies metamorphism at the Montauban Zn-Pb-Au-Ag deposit // Mineralium Deposita. 2007. V. 42. P. 627–637.
- Douglas N, Mavrogenes J, Hack A, England R. The liquid bismuth collector model: an alternative gold deposition mechanism. AGC Abstr. 2000. V. 59. P. 135.
- Ciobanu C.L., Cook N.J., Damian F., Damian G. Gold scavenged by bismuth melts: An example from Alpine shear-remobilizates in the Highis Massif, Romania // Mineralogy and Petrology. 2006. V. 87. P. 351–384.
- Tooth B., Brugger J., Ciobanu C.L., Liu, W. Modelling of gold-scavenging by bismuth melts coexisting with hydrothermal fluids // Geology. 2008. V. 36. P. 815–818.
- Ефремов С.В., Дриль С.И., Горячев Н.А., Левицкий И.В. Потенциальная рудопродуктивность гранитоидов Гарганской глыбы (Восточный Саян) // Геология рудных месторождений. 2019. Т.61. №4. С. 61-71.
- Sheppard S., KrapezˇB., Zi J-W., Rasmussen B., Fletcher I. R. Young ores in old rocks: Proterozoic iron mineralisation in Mesoarchean banded iron formation, northern Pilbara Craton, Australia // Ore Geology Reviews. 2017. V. 89. P. 40–69.
- Zhmodik S.M., Buslov M.M., Damdinov B.B., Mironov A.G., Khubanov V.B., Buyantuyev M.G., Damdinova L.B., Airiyants E.V., Kiseleva O.N., Belyanin D.K. Mineralogy, Geochemistry, and Geochronology of the Yehe-Shigna Ophiolitic Massif, Tuva-Mongolian Microcontinent, Southern Siberia: Evidence for a Back-Arc Origin and Geodynamic Implications // Minerals. 2022. V.12. 390. P. 1–19.
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