This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Hrabovskyy, V., Dzendzelyuk, O., Katerynchuk, I., & Furgala, Yu. (2004). Monitoring of radionuclides contamination of soils in Shatsk National Natural Park (Volyn region, Ukraine) during 1994–2001. J. Environ. Radioact., 72(1), 25–33.HrabovskyyV.DzendzelyukO.KaterynchukI.FurgalaYu.2004Monitoring of radionuclides contamination of soils in Shatsk National Natural Park (Volyn region, Ukraine) during 1994–2001721253310.1016/S0265-931X(03)00182-6Search in Google Scholar
Kubica, B., Mietelski, J. W., Gołaś, J., Skiba, S., Tomankiewicz, E., Gaca, P., Jasińska, M., & Tuteja-Krysa, M. (2002). Concentration of 137Cs, 40K, 238Pu and 239+240Pu radionuclides. Pol. J. Environ. Studies, 11(5), 537–545.KubicaB.MietelskiJ. W.GołaśJ.SkibaS.TomankiewiczE.GacaP.JasińskaM.Tuteja-KrysaM.2002Concentration of 137Cs, 40K, 238Pu and 239+240Pu radionuclides115537545Search in Google Scholar
Cochran, J. K., Feng, H., Amiel, D., & Beck, A. (2006). Natural radionuclides as tracers of coastal biogeochemical processes. J. Geochem. Explor., 88(1/3), 376–379.CochranJ. K.FengH.AmielD.BeckA.2006Natural radionuclides as tracers of coastal biogeochemical processes881/337637910.1016/j.gexplo.2005.08.079Search in Google Scholar
Pourcelot, D., Louvat, F., Gauthier-Lafaye, S., & Stille, P. (2003). Formation of radioactivity enriched soils in mountain areas. J. Environ. Radioact., 68(3), 215–233.PourcelotD.LouvatF.Gauthier-LafayeS.StilleP.2003Formation of radioactivity enriched soils in mountain areas68321523310.1016/S0265-931X(03)00051-1Search in Google Scholar
Maňkovska, B., Oszlanyi, J., & Barančok, P. (2008). Measurement of the atmosphere loading of the Slovak Carpathians using bryophyte technique. Ekologia (Bratislava), 27(4), 339–350.MaňkovskaB.OszlanyiJ.BarančokP.2008Measurement of the atmosphere loading of the Slovak Carpathians using bryophyte technique274339350Search in Google Scholar
Maslyuk, V. T., Svatyuk, N. I., Stets, M. V., Frontasyeva, M. V., & Parlag, O. O. (2013). Statistical regularities in the distribution of radionuclides in sediments of Transcarpathia mountain rivers. J. Environ. Radioact., 117, 9–12. 10.1016/j.jenvrad.2012.04.016.MaslyukV. T.SvatyukN. I.StetsM. V.FrontasyevaM. V.ParlagO. O.2013Statistical regularities in the distribution of radionuclides in sediments of Transcarpathia mountain rivers11791210.1016/j.jenvrad.2012.04.016Open DOISearch in Google Scholar
Symader, W., & Roth, M. (2002). Changes in chemical characteristics of river bed samples caused by exceptional high floods in the Kartelbornsbach basin near Trier (pp. 333–338). International Association of Hydrological Sciences. (PIAHS vol. 276).SymaderW.RothM.2002333338International Association of Hydrological Sciences(PIAHS vol. 276)Search in Google Scholar
Bourdon, B., Turner, S., Henderson, G. M., & Lundstrom, C. C. (2003). Introduction to U-series geochemistry. Rev. Mineral. Geochem., 52(1), 1–21.BourdonB.TurnerS.HendersonG. M.LundstromC. C.2003Introduction to U-series geochemistry52112110.1515/9781501509308-006Search in Google Scholar
Dragović, S., Mihailović, N., & Gajić, B. (2008). Heavy metals in soils: distribution, relationship with soil characteristics and radionuclides and multivariate assessment of contamination sources. Chemosphere, 72(3), 491–495.DragovićS.MihailovićN.GajićB.2008Heavy metals in soils: distribution, relationship with soil characteristics and radionuclides and multivariate assessment of contamination sources72349149510.1016/j.chemosphere.2008.02.063Search in Google Scholar
Krmar, M., Slivka, J., Varga, E., Bikit, I., & Vesković, M. (2009). Correlations of natural radionuclides in sediment from Danube. J. Geochem. Explor., 100(1), 20–24.KrmarM.SlivkaJ.VargaE.BikitI.VeskovićM.2009Correlations of natural radionuclides in sediment from Danube1001202410.1016/j.gexplo.2008.03.002Search in Google Scholar
Chen, J. M., Wasserburg, G. J., & Edwards, R. L. (1992). Mass spectrometry and application to uranium-series disequilibrium. In M. Ivanovich, & R. S. Harmon (Eds.), Uranium-series disequilibrium. Applications to Earth, marine, and environmental sciences (2nd ed.) (pp. 174–206). Oxford: Clarendon Press.ChenJ. M.WasserburgG. J.EdwardsR. L.1992Mass spectrometry and application to uranium-series disequilibriumIvanovichM.HarmonR. S.2nd ed.174206OxfordClarendon PressSearch in Google Scholar
McElnea, A. E., Ahern, C. R., & Menzies, N. W. (2002). The measurement of actual acidity in acid sulfate soils and the determination of sulfidic acidity in suspension after peroxide oxidation. Soil Res., 40(7), 1133–1157.McElneaA. E.AhernC. R.MenziesN. W.2002The measurement of actual acidity in acid sulfate soils and the determination of sulfidic acidity in suspension after peroxide oxidation4071133115710.1071/SR01118Search in Google Scholar
Sheppard, S. C., Evenden, W. G., & Anderson, A. J. (1992). Multiple assays of uranium toxicity in soil. Environ. Toxicol. Water Quality, 7(3), 275–294.SheppardS. C.EvendenW. G.AndersonA. J.1992Multiple assays of uranium toxicity in soil7327529410.1002/tox.2530070307Search in Google Scholar
Davis, J. C., & Sampson, R. J. (1986). Statistics and data analysis in geology (Vol. 646). New York: Wiley.DavisJ. C.SampsonR. J.1986646New YorkWileySearch in Google Scholar
Yu, K. C., Tsai, L. J., Chen, S. H., & Ho, S. T. (2001). Correlation analyses on binding behavior of heavy metals with sediment matrices. Water Res., 35(10), 2417–2428.YuK. C.TsaiL. J.ChenS. H.HoS. T.2001Correlation analyses on binding behavior of heavy metals with sediment matrices35102417242810.1016/S0043-1354(00)00518-2Search in Google Scholar
Yankovoi, A. G. (2001). Multivariate analysis in the system STATISTICA (pp. 1–216). Odessa: Optimum.YankovoiA. G.20011216OdessaOptimumSearch in Google Scholar
Sokal, R. R. (1958). A statistical method for evaluating systematic relationships. Univ. Kansas Sci. Bull., 38, 1409–1438.SokalR. R.1958A statistical method for evaluating systematic relationships3814091438Search in Google Scholar
Manolopoulou, M., Mironaki, D., & Papastefanou, C. (2003). A new technique for the accurate measurement of 226Ra by gamma spectroscopy in voluminous samples. Nucl. Instrum. Methods Phys. Res. Sect. A-Accel. Spectrom. Dect. Assoc. Equip., 508(3), 362–366.ManolopoulouM.MironakiD.PapastefanouC.2003A new technique for the accurate measurement of 226Ra by gamma spectroscopy in voluminous samples508336236610.1016/S0168-9002(03)01701-7Search in Google Scholar
Stoate, L. (2012). Determination of levels of background radiation in soils samples. Doctoral dissertation, University of Surrey, UK.StoateL.2012Doctoral dissertation,University of SurreyUKSearch in Google Scholar
Tucker, B., Donakowski, J., & Hays, D. (2012). Comparison of activity determination of radium 226 in FUSRAP soil using various energy lines – 12299. In Proceedings WM-2012 Conference, 26 February – 1 March, 2012 (pp. 1–9). Phoenix, Arizona, USA.TuckerB.DonakowskiJ.HaysD.2012Comparison of activity determination of radium 226 in FUSRAP soil using various energy lines – 12299Proceedings WM-2012 Conference26 February – 1 March, 201219PhoenixArizona, USASearch in Google Scholar
Chabot, G. (2008). Answer to Question #7823 Submitted to “Ask the Experts”, Health Physics Society, Surveys and Measurements (SM). Retrieved October 1, 2008, from https://hps.org/publicinformation/ate/q7823.html.ChabotG.2008Retrieved October 1, 2008, from https://hps.org/publicinformation/ate/q7823.htmlSearch in Google Scholar
Lozano, J. C., Blanco, P. R., & Vera Tome, F. (2002). Distribution of long-lived radionuclides of the 238U series in the sediments of a small river in a uranium mineralized region of Spain. J. Environ. Radioact., 63(2), 153–171.LozanoJ. C.BlancoP. R.Vera TomeF.2002Distribution of long-lived radionuclides of the 238U series in the sediments of a small river in a uranium mineralized region of Spain63215317110.1016/S0265-931X(02)00024-3Search in Google Scholar