Radioisotope studies of the Tisza river basin, Uzhansky masif
DOI:
https://doi.org/10.15407/dopovidi2021.06.139Keywords:
composition of radioisotopes, man-made and natural nuclides, specific content, accumulationdistribution, U/Th abundancesAbstract
The results of applying nuclear-physical research methods of determination of the radioisotope composition of bottom sediments and soils of the Tisza river basin, on the example of the Uzh river on the Transcarpathian territory are presented. The database of contents for natural and man-made gamma-active nuclides is obtained using the low-background gamma spectrometry method. The results obtained are essential for setting the standards for their content and for the study of mountain areas. The possibility to establish U/Th/K chemical components in the bottom sediments of the Uzh river is shown. The results of radioisotope research allow modeling the processes of migration pf gamma-active nuclides from reservoirs into the soil horizons of the studied areas. These data are important for predicting the transboundary migration of gamma-active nuclides.
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Chau, N. D., Lucyna, R., Nowak J., & Jodłowski P. (2012). Radium isotopes in the Polish Outer Carpathian mineral waters of various chemical composition. Journal of Environmental Radioactivity, 112, pp. 38-44.
Badawy, W. M., Duliu, O. G.,. Frontasyeva, M. V., El Samman, H. & Faanhof, A. (2018). Environmental radioactivity of soils and sediments: Egyptian sector of the Nile valley, Isotopes in Environmental and Health Studies, 54, Iss. 5, 535-547. https://doi.org/10.1080/10256016.2018.1482292
Okhrana pryrodu. Hydrosfera. Obshchye trebovanyia k otboru prob donnukh otlozhenyi vodnukh obъektov dlia analyza na zahriaznennost: HOST 17.1.5.01-80 [Vved. 01.01.81]. Moscow: Hoskomytet SSSR po standartam, 1981. 6 s. (in Russian).
Orhanyzatsyia y provedenye nabliudenyi za soderzhanyem zahriazniaiushchykh veshchestv v donnukh otlozhe nyiakh vodnukh obyektov: RD 52.24.609-2013. [Vved. 02.09.2013]. Rostov-na-Donu: Roshydromet, 2013. 43 s. (in Russian).
Dikiy, N. P., Lyashko, Yu. V, Medvedeva, E. P., Medvedev, D. V, Parhomenko, Yu. G. & Fedorets, I. D. (2017). The content of natural radioactive isotopes in soil of Kharkov region. Problems of atomic science and technology. Series: Nuclear Physics Investigations, 3 (109), pp. 55-59.
Maslyuk, V., Svatyuk, N., Stets, M., Frontasyeva, M. & Parlag, O. (2013). Statistical regularities in the distribution of radionuclides in sediments of Transcarpathia mountain rivers. Journal of Environmental Radioactivity, 117. P. 9-12. https://doi.org/10.1016/j.jenvrad.2012.04.016
Svatiuk, N. I. & Symochko, D. M. (2010). Radioecology of Transcarpathian mountain Rivers: Time аnd Spatial Correlations. Nuclear Physics and Accelerators in Biology and Medicine. Fifth International Summer School edited by A.Dubnichkova, S. Dubnichka, C. Granja, C. Leroy, I. Stekl. AIP Conference Proceedings; 1/5/2010, 1204. Iss. 1, pp. 263-264.
Symkanich, O., Maslyuk, V., Svatyuk, N., Parlag, O., Shpenik, O. & Sukharev, S. (2016). Radionuclide mo nitoringin Transcarpathian region: the role natural and antropogenic factors. Acta facultatis studiorum hu manitatis et naturae universitatis presoviensis. Natural sciences. Biology-ecology. Preshov, Slovac republic, 43, 6, pp. 11-120.
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