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Investigations of soil erosion by 137Cs method brings uncertainties of different nature. The estimation of the 137Cs local inventory is associated with problems of data comparison and instrumen-tal errors. In order to avoid systematic errors, the rate of soil erosion determined by the 137Cs method is compared with the values obtained for other radioactive elements. Soil parameters must be regard-ed too. The aim of the work was to test the character of 137Cs and 40K distribution in the topsoil verti-cal section for determination erosion-accumulation type and ratio in different time spans. The topsoil thickened by different types of erosion-accumulation processes was sampled at a 2-3 cm interval. Soil samples were analysed by means of scintillation gamma spectrometry. The relationship between 137Cs and 40K inventories was weakest in the topsoil formed by mixing of soil material during the installa-tion of artificial drains. Based on climatic characteristics, variations of theoretical soil accumulation rate in the last 50 years were calculated for the topsoil accumulated predominantly by water erosion. 40K and 137Cs correlation in the bottom of vertical section of topsoil or arable horizon are closest and this section may be used as a complementary parameter determining the local inventory value
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
126--133
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr.
Twórcy
autor
- Nature Research Centre, T. Sevcenkos 13, LT-03223 Vilnius, Lithuania
autor
- Nature Research Centre, T. Sevcenkos 13, LT-03223 Vilnius, Lithuania
autor
- Nature Research Centre, T. Sevcenkos 13, LT-03223 Vilnius, Lithuania
Bibliografia
- 1. Arnoldus HMJ, 1980. An approximation of the rainfall factor in the Universal Soil Loss Equation. In: De Boodt M & Gabriels D eds, Assessment of Erosion. Wiley, Chichester, West Sussex, UK: 127-132.
- 2. Bujan A, Santanatoglia OJ, Chagas C, Massobrio M, Castiglioni M, Yañez M, Ciallella H and Fernandez J, 2003. Soil erosion evaluation in a small basin through the use of 137Cs technique. Soil and Tillage Research 69(1-2): 127-137, DOI 10.1016/S0167-1987(02)00134-4.
- 3. Bluszcz A, Poręba GJ and Snieszko Z, 2007. The Basis of the Study of the Age of the Holocene Diluvium on Loess Areas of Polish High-lands. Geochronometria 28: 61-66, DOI 10.2478/v10003-007-0022-1.
- 4. Chizhikova NP, 1994. Agrotechnogennye preobrazovania mineralog-icheskovo sostava dernovo-podzolistyh pochv (Agrotechnogenic transformation of mineralogical composition of soddy-podzolic soils). Pochvovedenie 1994(4): 85-91. (in Russian).
- 5. Davis JJ, 1963. Cesium and its relationship to potassium in ecology. In: Schultz V, Klement AE eds., Radioecology. Reinhold, New York: 539-556.
- 6. Du P and Walling DE, 2011. Using 137Cs measurements to investigate the influence of erosion and soil redistribution on soil properties. Applied Radiation and Isotopes 69(5): 717-726, DOI 10.1016/j.apradiso.2011.01.022.
- 7. Golosov V, 2003. Application of Chernobyl-derived 137Cs for the As-sessment of Soil Redistribution within a Cultivated Field. Soil and Tillage Research 69(1-2): 85-98, DOI 10.1016/S0167-1987(02)00130-7.
- 8. Le Bissonnais Y, Montier C, Jamagne M, Daroussin J and King D, 2001. Mapping erosion risk for cultivated soil in France. Catena 46(2-3): 207-220, DOI 10.1016/S0341-8162(01)00167-9.
- 9. Lubytė J and Antanaitis A, 2004. Migration of Radionuclides in Arable Land of Lithuania. Journal of Environmental Engineering and Landscape Management 12(1): 22-29, DOI 10.1080/16486897.2004.9636811.
- 10. Lunev МI and Orlov PМ, 2009. Soderzhanije jestestvennyh radionukli-dov v pochvah selskohoziajstvennyh ugodij Rossii (Content of natural radioizotopes in soils of agriculture lands). Radioaktivnostj i radioaktivnye elementy v srede obitanija cheloveka, Materials of 3rd international conference, Tomsk. June 23-27 2009: 325-328 (in Russian).
- 11. Mazeika J, 2002. Radionuclides in the geoenvironment of Lithuania. Vilnius: 216 pp.
- 12. Mietelski WJ, Dubchak S, Błażej S, Anielska T and Turnau K, 2010. 137Cs and 40K in fruiting bodies of different fungal species collected in a single forest in southern Poland. Journal of Environmental Radioactivity 101(9): 706-711, DOI 10.1016/j.jenvrad.2010.04.010.
- 13. Poręba GJ, Moska P and Bluszcz A, 2006. On the contribution of radioactive fallout isotopes to the total dose rate in dating of young sediments. Geochronometria 25: 47-50.
- 14. Porto P, Walling DE and Ferro V, 2001. Validating the use of caesium-137 measurements to estimate soil erosion rates in a small drain-age basin in Calabria. Southern Italy. Journal of Hydrology 248(1-4): 93-108, DOI 10.1016/S0022-1694(01)00389-4.
- 15. Racinskas A, 1990. Dirvozemio erozija (Soil erosion). Vilnius: 135 pp (in Lithuanian).
- 16. Ritchie JC and McCarty GW, 2003. 137Cesium and soil carbon in a small agricultural watershed. Soil and Tillage Research 69(1-2): 45-51, DOI 10.1016/S0167-1987(02)00127-7.
- 17. Sutherland RA, 1992. Caesium-137 estimates of erosion in agricultural areas. Hydrological Processes 6(2): 215-225, DOI 10.1002/hyp.3360060209.
- 18. Wischmeier WH and Smith DD, 1978. Predicting rainfall erosion losses – a guide for conservation planning. US Department of Agriculture Handbook: 537.
- 19. Van der Knijff JM, Jones RJA and Montanarella L, 2000. Soil Erosion Risk Assessment. EC, JRC, Space Applications Institute, European Soil Bureau: 7-22.
- 20. Van Oost K, Govers G, Desmet P, 2000. Evaluating the effects of changes in landscape structure on soil erosion by water and tillage. Landscape Ecology 15: 577-589.
- 21. Verheijen FGA, Jones RJA, Smith CJ and Rickson RJ, 2009. Tolerable versus actual soil erosion rates in Europe. Earth-Science Reviews 94(1-4): 23-38, DOI 10.1016/j.earscirev.2009.02.003.
- 22. Zapata F, 2003. The use of environmental radionuclides as tracers in soil erosion and sedimentation investigations: recent advances and future developments. Soil and Tillage Research 69(1-2): 3-13, DOI 10.1016/S0167-1987(02)00124-1.
- 23. Zukova ОМ, 2009. Odnorodnostj vypadenija atmosfernovo 210Pb pri ocenke tempov erozionno-akkumuliativnyh processov (Continuous atmospferic falout 210Pb in valuation of erosion-accumulation pro-cesses), Izvestija RAN, Serija Geograficheskja 2009 (2): 85-94 (in Russian).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cad61a23-9513-4fae-b4e0-699dccbf4443