Redistribution of radionuclides between a microbial mat and a carbonate body at the Garga hot spring (Baikal Rift Zone)

The features of present deposits that form in the vicinity of hot springs can provide clues to the parameters of paleowaters in places of past hydrothermal activity marked by remnant carbonate and/or siliceous sinter. We investigated a large carbonate body at the Garga hot spring developing in the B...

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Bibliographic Details
Published in:Doklady earth sciences 2011-08, Vol.439 (2), p.1131-1137
Main Authors: Lazareva, E. V., Zhmodik, S. M., Melgunov, M. S., Petrova, I. V., Bryanskaya, A. V.
Format: Article
Language:English
Subjects:
Calcite
Calcite crystals
Carbonates
Criminal investigation
Earth and Environmental Science
Earth science
Earth Sciences
Fluorine compounds
Geochemistry
Hot springs
Hydrology
Mineralogy
Minerals
Radioisotopes
Rain and rainfall
Thermal water
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Summary:The features of present deposits that form in the vicinity of hot springs can provide clues to the parameters of paleowaters in places of past hydrothermal activity marked by remnant carbonate and/or siliceous sinter. We investigated a large carbonate body at the Garga hot spring developing in the Baikal zone of nitric hydrotherms in the Barguzin Rift Zone valley. The main focus was on the structure of the carbonate mound, as well as on the partitioning of radioactive elements between the cyanobacterial mat and the inorganic component of the body (the issue that has never been explored before). The cyanobacterial community of the Garga spring is an active biosorbent of 226 Ra, 228 Ra, 210 Pb. The radionuclides accumulated by biosorption become preserved in minerals that form within the bacterial community. The reported data of mineral formation in the cyanobacterial mat along with the mineralogy and structure of the carbonate mound of the Garga spring have implications for the complex history of the Garga body. It has been produced jointly by precipitation from the venting thermal water (opal-calcite-fluorite-barite-celestine assemblage) and microbial metabolic activity (coarse calcite and thin black encrustation rich in Mn minerals).
ISSN:1028-334X
1531-8354
DOI:10.1134/S1028334X11080174