Altınbaş, Ü. 1996. Toprak Etüd ve Haritalama (Ders Kitabı) E.Ü. Ziraat Fakültesi Yayınları No:521, Bornova-İzmir.
De John, E., C. Wang and H.W. Rees. 1986. Soil Redistribution on Three Cultivated New Brunswick Hillslopes Calculated from 137Cs Measurements, Solum Data, and the USLE, Can. J. Soil Sci. 66: 721-730.
Chappell, A., 1999. The Limitations of Using 137Cs for Estimating Soil Redistribution in Semi-arid Environments Geomorphology, 29: 135-152.
Ionita I, R.M. Margineanu and C. Hurjui. 2000. Assessment of the Reservoir Sedimebtation Rates from 137Cs Measurements in the Moldavian Plateau, Acta Geologica Hispanica, 35 (3-4): 357-367.
Lowrance, R., S. McIntyre and C. Lance. 1988. Erosion and Deposition in a Field/Forest System Estimated Using 137Cs Activity, J. Soil Water Conserv., 43:195-199.
McCallan, M.E., B.M. O’Leary and C.W. Rose. 1980. Redistribution of 137Cs by Erosion and Deposition on an Australian Soil, Aust. J. Soil Res., 18:119-128.
McHenry, J.R. and J.C. Ritchie. 1977. Physical and Chjemical Parameters Affecting Transport of 137Cs in Arid Watersheds, Water Resour. Res., 13: 923-927.
Öztaş, T., 1993, Assessment of Erosion Rates and Patterns from Spatial Variability of Cesium-137, A Dissertation Prenseted to the Faculty of The Graduate College at the University of Nebraska In Partial Fulfillment of Requirements for the Degree of Doctor of Philosophy, Lincoln, Nebraska.
Richie, J.C. and J.R. McHenry. 1978. Fallout Cesium-137 in Cultivated and Noncultivated North Central United States Watersheds, J. Environ. Qual. (7): 40-41.
Ritchie, J.C. and J.R. McHenry. 1990. Application of Radioactive Fallout Cesium-137 for Measuring Soil Erosion and Sediment Accumulation Rates and Patterns: A Review, Journal of Environment, 19: 215-233.
Saç, M.M., 2003. Yatağan Havzasında Radyoaktif Sezyum Tekniği kullanılarak Erozyon Hızının Ölçülmesi, Ege Üniversitesi Fen Bilimleri Enstitüsü Nükleer Bilimler Anabilim Dalı, Doktora Tezi, Bornova-İzmir.
Sawhney, B.L., 1967. Cesium sorption in relation to lattice spacing and cation exchange capacity of biotite, Soil Sci. Soc. Amer. Proc., 31: 181-183.
Uğur, A., G. Yener, M. M. Saç, U. Altınbaş, Y. Kurucu, M. Bolca. 2003. Ayrımlı Yamaç Yüzeyleri ve % Eğimlerden Oluşmuş Yatağan Havzası Tarım Topraklarında Radyoaktif Kurşun ve Sezyum Profilleri Kullanılarak Toprak Hareketlerinin Belirlenmesi, TÜBİTAK projesi, Proje No: YDABCAG 100Y60.
Uğur, A., G. Yener, M. M. Saç, U. Altınbaş, Y. Kurucu, M. Bolca, B. Özden. 2004. Vertical Distribution of the Natural and Artificial Radionuclides in Different Soil Profiles to Investigate Soil Erosion, Journal of Radioanalytical and Nuclear Chemistry, 259 (2): 265-270.
Walling D.E., Q. He and T.A. Quine. 1995. Use of Caesium-137 and Lead-210 as Tracers in Soil Erosion Investigations, Tacer Technologies for Hydrological Systems (Proceedings of a Boulder symposium), IAHS Publ. No.229.
Muğla İli Yatağan Havzasında Eğimli Alanların Büyük Toprak Gruplarında 137Cs'nin Dağılımı
Altınbaş, Ü. 1996. Toprak Etüd ve Haritalama (Ders Kitabı) E.Ü. Ziraat Fakültesi Yayınları No:521, Bornova-İzmir.
De John, E., C. Wang and H.W. Rees. 1986. Soil Redistribution on Three Cultivated New Brunswick Hillslopes Calculated from 137Cs Measurements, Solum Data, and the USLE, Can. J. Soil Sci. 66: 721-730.
Chappell, A., 1999. The Limitations of Using 137Cs for Estimating Soil Redistribution in Semi-arid Environments Geomorphology, 29: 135-152.
Ionita I, R.M. Margineanu and C. Hurjui. 2000. Assessment of the Reservoir Sedimebtation Rates from 137Cs Measurements in the Moldavian Plateau, Acta Geologica Hispanica, 35 (3-4): 357-367.
Lowrance, R., S. McIntyre and C. Lance. 1988. Erosion and Deposition in a Field/Forest System Estimated Using 137Cs Activity, J. Soil Water Conserv., 43:195-199.
McCallan, M.E., B.M. O’Leary and C.W. Rose. 1980. Redistribution of 137Cs by Erosion and Deposition on an Australian Soil, Aust. J. Soil Res., 18:119-128.
McHenry, J.R. and J.C. Ritchie. 1977. Physical and Chjemical Parameters Affecting Transport of 137Cs in Arid Watersheds, Water Resour. Res., 13: 923-927.
Öztaş, T., 1993, Assessment of Erosion Rates and Patterns from Spatial Variability of Cesium-137, A Dissertation Prenseted to the Faculty of The Graduate College at the University of Nebraska In Partial Fulfillment of Requirements for the Degree of Doctor of Philosophy, Lincoln, Nebraska.
Richie, J.C. and J.R. McHenry. 1978. Fallout Cesium-137 in Cultivated and Noncultivated North Central United States Watersheds, J. Environ. Qual. (7): 40-41.
Ritchie, J.C. and J.R. McHenry. 1990. Application of Radioactive Fallout Cesium-137 for Measuring Soil Erosion and Sediment Accumulation Rates and Patterns: A Review, Journal of Environment, 19: 215-233.
Saç, M.M., 2003. Yatağan Havzasında Radyoaktif Sezyum Tekniği kullanılarak Erozyon Hızının Ölçülmesi, Ege Üniversitesi Fen Bilimleri Enstitüsü Nükleer Bilimler Anabilim Dalı, Doktora Tezi, Bornova-İzmir.
Sawhney, B.L., 1967. Cesium sorption in relation to lattice spacing and cation exchange capacity of biotite, Soil Sci. Soc. Amer. Proc., 31: 181-183.
Uğur, A., G. Yener, M. M. Saç, U. Altınbaş, Y. Kurucu, M. Bolca. 2003. Ayrımlı Yamaç Yüzeyleri ve % Eğimlerden Oluşmuş Yatağan Havzası Tarım Topraklarında Radyoaktif Kurşun ve Sezyum Profilleri Kullanılarak Toprak Hareketlerinin Belirlenmesi, TÜBİTAK projesi, Proje No: YDABCAG 100Y60.
Uğur, A., G. Yener, M. M. Saç, U. Altınbaş, Y. Kurucu, M. Bolca, B. Özden. 2004. Vertical Distribution of the Natural and Artificial Radionuclides in Different Soil Profiles to Investigate Soil Erosion, Journal of Radioanalytical and Nuclear Chemistry, 259 (2): 265-270.
Walling D.E., Q. He and T.A. Quine. 1995. Use of Caesium-137 and Lead-210 as Tracers in Soil Erosion Investigations, Tacer Technologies for Hydrological Systems (Proceedings of a Boulder symposium), IAHS Publ. No.229.
Saç, M. M., Uğur, A., Yener, G., Bolca, M., vd. (2005). Muğla İli Yatağan Havzasında Eğimli Alanların Büyük Toprak Gruplarında 137Cs’nin Dağılımı. Journal of Agriculture Faculty of Ege University, 42(1), 143-154.