Geochemical features of the ore-bearing medium in uranium deposits in the Khiagda ore field

The Neogene uranium deposits of the Khiagda ore field (KOF) belong to the paleovalley variety of the hydrogene type and differ from other deposits of this genetic type in the geological and geochemical localization conditions. The contemporary hydrogeochemical setting and microbiological composition...

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Published inGeology of ore deposits Vol. 59; no. 5; pp. 341 - 353
Main Authors Kochkin, B. T., Solodov, I. N., Ganina, N. I., Rekun, M. L., Tarasov, N. N., Shugina, G. A., Shulik, L. S.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.09.2017
Springer Nature B.V
Subjects
Acid leaching
Alpine environments
Bacteria
Boreholes
Carbonation
Composition
Denitrifying bacteria
Deposits
Earth and Environmental Science
Earth Sciences
Fault zones
Faults
Geochemistry
Hydrogeochemistry
In situ leaching
Leaching
Localization
Mesozoic
Mineral Resources
Mining
Neogene
Oxidoreductions
pH effects
Redox potential
Subsurface water
Sulfate-reducing bacteria
Sulfates
Uranium
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Summary:The Neogene uranium deposits of the Khiagda ore field (KOF) belong to the paleovalley variety of the hydrogene type and differ from other deposits of this genetic type in the geological and geochemical localization conditions. The contemporary hydrogeochemical setting and microbiological composition of ore-bearing medium are discussed. The redox potential of the medium (Eh is as low as–400 mV) is much lower than those established at other hydrogenic deposits, both ancient Late Mesozoic and young Late Alpine, studied with the same methods in Russia, Uzbekistan, and southern Kazakhstan. The pH of subsurface water (6.86–8.13) differs in significant fluctuations both between neighboring deposits and within individual ore lodes. Hydrogen-forming and denitrifying bacteria are predominant in microbiological populations, whereas sulfate-reducing bacteria are low-active. The consideration of these factors allowed us to describe the mechanism of uranium ore conservation as resulting from the development of the cryolithic zone, which isolates ore lodes from the effect of the external medium. Carbonated water supplied from the basement along fault zones also participates in the formation of the present-day hydrogeochemical setting. Based on the features of the ore-bearing medium, we propose a method of borehole in situ acid leaching to increase the efficiency of mining in the Khiagda ore field.
ISSN:1075-7015
1555-6476
DOI:10.1134/S1075701517050026