Radionuclide distribution in com-ponents of the sarbalyk limneticsystem (baraba lowland, western siberia)

Ovdina E.A.; Strakhovenko V.D.; Yermolaeva N.I.; Zarubina E.Y.; Yermolov Y.V.

doi:10.2205/2019ES000681

Инд. авторы:	Ovdina E.A., Strakhovenko V.D., Yermolaeva N.I., Zarubina E.Y., Yermolov Y.V.
Заглавие:	Radionuclide distribution in com-ponents of the sarbalyk limneticsystem (baraba lowland, western siberia)
Библ. ссылка:	Ovdina E.A., Strakhovenko V.D., Yermolaeva N.I., Zarubina E.Y., Yermolov Y.V. Radionuclide distribution in com-ponents of the sarbalyk limneticsystem (baraba lowland, western siberia) // Russian Journal of Earth Sciences. - 2019. - Vol.19. - Iss. 6. - Art.ES6013. - EISSN 1681-1208.
Внешние системы:	DOI: 10.2205/2019ES000681; РИНЦ: 42751338;
Реферат:	eng: Geochemical and mineralogicalanalysis of the bottom sediment cores of smalllakes can be used as the basis forradio-ecological monitoring and environmentalprotection measures. Here, features of theradionuclide activity distribution in componentsof the limnetic ecosystems of the central Barabalowland were studied, and factors affectingradiocesium absence in the bottom sediment ofLake Sarbalyk were identified. Fieldworkincluded the sampling of limnetic ecosystemcomponents, bottom sediment weighing, andthe determination of pH, Eh, TDS and oxygencontent. Subsequent laboratory investigationinvolved the determination of major and traceelement concentrations by atomic absorptionspectrometry and X-ray fluorescence analysis;mineral composition by X-ray diffractometry(XRD); analysis of sample morphology and composition via scanning electron microscopy;and natural radionuclide and radiocesium con-tent determination by the gamma-spectrometricmethod. Radiocesium is present in all the stud-ied lake bottom sediments of the central Barabalowland in the upper horizons, with the excep-tion of Lake Sarbalyk. Limnetic ecosystem com-ponents were analyzed using modern analyticalmethods, considering the distribution features ofnatural and artificial radionuclides in catchmentarea soils, tussocks and the bottom sediment ofLake Sarbalyk. The results revealed that the ab-sence of radiocesium in the bottom sediment ofLake Sarbalyk is due to two factors: the charac-teristics of the lake overgrowth and the sorptionof dissolved forms of137Cs.
Издано:	2019
Цитирование:	1. Bejrom, S. G., I. P. Vasil'ev, I. M. Gadzhiev (1986),Prirod-nye Resursy Novosibirskoj Oblasti, 215 pp., Nauka, Novosibirsk,USSR (in Russian). 2. Bihari, A., et al. (2018), Fallout isotope chronology of the near-surface sediment record of Lake Bolatau,Journal of Environ-mental Radioactivity, 181, p. 32-41. 3. Egorov, V. N., et al. (2018), Rating Water Quality in Sevastopol Bay by the Fluxes of Pollutant Deposition in Bottom Sediments,Water Resources, 45, no. 2, p. 222-230. 4. Il'in, V. B., A. I. Syso (2001), Pochvenno-geokhimicheskie prov-intsii v Ob'-Irtyshskom mezhdurech'e: prichiny i sledstviya,Sibirskii Ekologicheskii Zhurnal, 2, p. 111-118. (in Russian). 5. Korde, N. V. (1969), Biostratigrafiya i Tipologiya Russkikh Sapropelej, 219 pp., Izd-vo AN SSSR, Moscow, USSR (in Russian). 6. Lan, B., D. Zhang, Y. Yang (2018), Lacustrine sediment chronology defined by137Cs, 210Pb and14C and the hydrological evolution of Lake Ailike during 1901-2013, northern Xinjiang, China,Catena, 161, p. 104-112. 7. Lopotko, M. Z. (1978),Ozera i Sapropel', 88 pp., Nauka i Tehnika, Minsk, USSR (in Russian). 8. Malikova, I. N., V. D. Strakhovenko, et al. (2005), Ekologicheskoe sostojanie pochv Altajskogo kraja: zagrjaznenie radio-ceziem, Sibirskii Ekologicheskii Zhurnal, 12, no. 6, p. 985-998. (in Russian). 9. Naumova, N. B., et al. (2013), Donnye otlozheniya stepnykhozer: zabytye ehkosistemy?,Razvitie Mineral'no-Syr'evoj Bazy Sibiri, p. 276-279, Tomskij Politehnicheskij Universitet, Tomsk (in Russian). 10. Ovdina E. A., Yermolaeva N.I., Zarubina E.Yu., Syso A.I., Yermolov Yu.V. (2016), Osobennosti raspredeleniya radionuklidov v oz. Sarbalyk (Barabinskaya ravnina), Materialy v Mezhdunarodnoi konferentsii Radioaktivnost' i radioaktivnye elementy v srede obitaniya cheloveka, p. 475-477, STT, Tomsk (in Russian). 11. Pestryakova, L. A. (2016), Paleoehkologiya. Metodologicheskie Osnovy Paleoehkologii: Uchebno-Metodicheskoe Posobie, 84pp., Izd-vo NEFU, Yakutsk, Russia (in Russian). 12. Rikhvanov, L. P. (2009), Radioaktivnye Ehlementy v Okruzhayush-hej Srede i Problemy Radioehkologii: Uchebnoe Posobie, 430 pp., STT, Tomsk, Russia (in Russian). 13. Roslyakov, N. A., V. D. Strakhovenko, A. I. Syso (2013), Mestorozh-deniya sapropelevykh zalezhej Novosibirskoj oblasti, RazvitieMineral'no-Syr'evoj Bazy Sibiri, p. 273-276. Tomskij Politehnich-eskij Universitet, Tomsk (in Russian). 14. Shtin, S. M. (2005), Ozernye Sapropeli i Osnovy ikh Komplek-snogo Osvoeniya, 373 pp., MISIS, Moscow, Russia (in Russian). 15. Solotchina, E. P. (2009),Strukturnyj Tipomorfizm Glinistykh Mineralov Osadochnykh Razrezov i Kor Vyvetrivaniya, 236 pp.,Geo, Novosibirsk, Russia (in Russian). 16. Strakhovenko, V. D., et al. (2016), Hydrochemical characteristicof sapropels in Novosibirsk Oblast, Water Resources, 43, no. 3, p. 336-344. 17. Strakhovenko, V. D., et al. (2010), The regularities of distributionof radionuclides and rare-earth elements in bottom sediments ofSiberian lakes,Russian Geology and Geophysics, 51, no. 11, p.1167-1178. 18. Subetto, D. A., M. Ya. Prytkova (2016),Donnye Otlozheniya Raznotipnykh Vodoemov. Metody Izucheniya, 89 pp., KarSCRAS, Petrozavodsk (in Russian). 19. Sukachyov, V. N. (1943),Sapropel' i Ego Znachenie v Sel'skomKhozyajstve, 54 pp., Izd-vo AN USSR, Moscow, USSR (in Russian). 20. Wang, J., M. Baskaran, J. Niedermiller (2018), Mobility of Cs-137 in freshwater lakes: A mass balance and diffusion studyof Lake St. Clair, Southeast Michigan, USA,Geochimica etCosmochimica Acta, 218, p. 323-342. 21. Zarubina, E. Yu. (2013), Pervichnaya produktsiya makrofitovtrekh raznotipnykh sapropelevykh ozer yuga Zapadnoj Sibiri (v predelakh Novosibirskoj oblasti) v 2012 godu // Mir Nauki,Kul'tury, Obrazovaniya, 5, p. 441-444. (in Russian). 22. Zhang, Y. Q., Y. Long, B. Li, S. J. Xu, X. L. Wang, J. Liao(2018), Use of reservoir deposits to reconstruct the recentchanges in sediment yields from a small granite catchment in he Yimeng Mountain region, China,Geomorphology, 293, p. 167-177. 23. Hydrobiological conditions of sapropel formation in lakes in the south of western Siberia / N. I. Yermolaeva, E. Yu. Zarubina, A. V. Puzanov, R. Eu. Romanov, G. A. Leonova // Water Resources. - 2016. - Vol. 43, № 1. - P. 129-140