New data on the chemical composition of environmental components have been obtained for the Belaya Zima Ta–Nb deposit. As follows from these data, the soils are rich in ore and associated elements, which are inherited from the parent rocks. Elevated abundances of radioactive elements in the soils, parent rocks, and their decay products result in higher background radiation. With regard to the environmental components and radioactive elements, the environmental situation on the deposit is unfavorable. Our data on the chemical composition of environmental components can be used as input information for environmental monitoring if the development of this deposit is resumed.
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L. Z. Bykhovskii, A. V. Temnov, and L. P. Tigunov, “Bol’shetagninskoe niobium deposit as an object of top priority development in Russia,” Probl. Okruzh. Sredy Prir. Resurs., No. 10, 2–9 (2002).
N. L. Chumakova and E. V. Smirnova, “Determination of lanthanum, cerium, neodymium, ytterbium, and yttrium in geological samples using multichannel atomic-emission analyzer,” Zavodskaya Laboratoriya. Diagnostika Mater. 76 (3), 3–8 (2010).
G. V. Dobrovol’skii and I. S. Urusevskaya, Soil Geography. A Textbook (MGU–KolosS, Moscow, 2004) [in Russian].
Field Guide on Russian Soils (Dokuchaev Pochv. Inst., Moscow, 2008) [in Russian].
A. A. Frolov and S. V. Belov, “The complex carbonatite deposits of the Ziminsk ore district (Eastern Sayan, Russia),” Geol. Ore Deposits 42 (1), 94–113 (2000).
V. N. Gorbachev, Soils of East Sayan (Nauka, Moscow, 1978) [in Russian].
GOST 26213-91. Soils. Methods of Determination of Organic Matter. Cited July 01, 1993.
GOST 31957-2012 Water. Methods of Determination of Alkalinity and Weight Concentrations of Carbonates and Hydrocarbonates. Cited January 01, 2014.
V. I. Grebenshchikova and N. A. Zagorul’ko, “Multiyear monitoring studies of macro– and microcomponent composition of the Angara River head,” Vestn. IGSKHA 57, 88–95 (2013).
V. I. Grebenshchikova E. E. Lustenberg, N. A Kitaev, and I. S. Lomonosov, Environmental Geochemistry of the Baikal Region (Baikal Geoecological Test Site), Ed. by M. I. Kuzmin (Geo, Novosibirsk, 2008) [in Russian].
V. I. Grebenshchikova, N. A. Zagorul’ko, and M. V. Pastukhov, “Monitoring studies of ionic composition of water of the Angara River head (Lake Baikal),” Voda: Khimiya Ekol. 4, 2–8 (2011).
A. Kabata-Pendias, Trace Elements in Soils and Plants (2011).
N. A. Kitaev and V. I. Grebenshchikova, Trace and Ore Elements in the Baikal Region Environment: Bedrocks, Bottom Sediments, and Soils): A Monograph, Ed. by N. A. Kitaev, and V. I. Grebenshchikova (IGU, Irkutsk, 2014) [in Russian]
G. A. Mashkovtsev, L. Z. Bykhovskii, A. A. Rogozhin, and A. V. Temnov, “Prospects of rational development of complex tantalum–niobium–rare-earth deposits of Russia,” Razved. Okhr. Nedr, No. 7, 9–13 (2011).
N. A. Mel’nik, Radioecological problems of mining of rare-metal deposits, Innovation Potential (KNTs RAN, Apatity, 2003), pp. 229–233 [in Russian].
NSAM-455-RS. X-ray Fluorescence Determination of Arsenic, Selenium, Rubidium, Strontium, Zirconium, Niobium Molybdenum. Yttrium, Thorium, and Uranium in Rocks, Ores, and Products of their Processing.
A. I. Perelman, Landscape Geochemistry (Geografgiz, Moscow, 1961) [in Russian].
PND F 14.1:2:3:4.121–97. Quantitative Chemical Analysis of Waters. Technique of pH Measurements in Waters by Potentiometric Method (Min. Okhr. Okruzh. Sredy Prir. Res., Moscow, 2004) [in Russian].
L. K. Pozharitskaya and V. S. Samoilov, Petrology, Mineralogy, and Geochemistry of Carbonatites of East Siberia (Nauka, Moscow, 1972) [in Russian].
A. J. Scheib, D. M. A. Flight, M. Birke, T. Tarvainen, J. Locutura and GEMAS Project Team, “The geochemistry of niobium and its distribution and relative mobility in agricultural soils of Europe,” Geochem-Explor. Env. A. 12 (4), 293–302 (2012).
L. L. Shishov, V. D. Tonkonogov, I. I. Lebedev, and M. I. Gerasimova, Classification and Diagnostics of Russian Soils (Oikumena, Smolensk, 2004) [in Russian].
State Report. On a State of Environments of the Irkutsk Oblast in 1995 (Irkutsk, 1996) [in Russian].
A. V. Temnov and V. S. Pikalova, “Scenarios of implementation of mineral–raw potential of the complex rare–metal deposits of the Zima ore district,” Razved. Okhr. Nedr, No. 7, 54–60 (2013).
I. E. Vasilieva and E. V. Shabanova “Certified reference materials of geological and environmental objects: problems and solutions,” Anal. Chem. J. 72 (2), 129–146 (2017).
The authors thank researchers at the Vinogradov Institute of Geochemistry, Siberian Branch, Russian Academy of Sciences, who took part in these studies.
This study was supported by Program FNI 127 of the Russian Science Foundation, Project IGKh SO RAN no. 0350-2016-0027.
Translated by E. Kurdyukov
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Kuznetsov, P.V., Grebenshchikova, V.I. Chemical Composition of Environmental Components in the Area of the Belaya Zima Ta–Nb Deposit, Eastern Sayan Range, Irkutsk Region. Geochem. Int. 59, 889–894 (2021). https://doi.org/10.1134/S001670292107003X
- Ta–Nb deposit
- chemical composition
- surface waters