Listing of publications

  1. Alatorre, L.C., Begueria, S., Lana-Renault, N., Navas, A., Garcia-Ruiz, J.M. (2012). Soil erosion and sediment delivery in a mountain catchment under scenarios of land use change using a spatially distributed numerical model. Hydrology and Earth System Sciences, 16(5), 1321-1334.
  2. Alonso, J., Audicio, P., Martinez, L., Scavone, M., Rezzano, E. (2013). Comparison of measured 137Cs data and USLE/RUSLE simulated long-term erosion rates. Agrociencia, 16(3), 261-267.
  3. Ayoubi, S., Ahmadi, M., Abdi, M.R., Afshar, F.A. (2012). Relationships of 137Cs inventory with magnetic measures of calcareous soils of hilly region in Iran. Journal of Environmental Radioactivity, 112, 45-51.
  4. Bai, X., Zhang, X., Long, Y., Liu, X., Zhang, S. (2013). Use of 137Cs and 210Pbex measurements on deposits in a karst depression to study the erosional response of a small karst catchment in Southwest China to land-use change. Hydrological Processes, 27(6), 822-829.
  5. Ballais, J.L., Cohen, M., Bonté, P., Larromanière, M., Lefèvre, I., Maingre, A., Poumailloux, A., Roussin, A., Sol, S. (2013). Hydric erosion in Sierra Magina olive groves (Andalusia, Spain) – Prospects for sustainable development. Zeitschrift für Geomorphologie, 57(1), 1-23.
  6. Bauziene, I., Mazeika, J., Skuratovic, Z. (2013). Fallout 137Cs and natural 40K as tracers of topsoil development during slope processes – a case study from the Daugai environs, Southern Lithuania. Geochronometria, 40(2), 126-133
  7. Belmont, P., Stout, J. (2013). Tracking channel-floodplain sediment exchange with conservative and non-conservative geochemical tracers. In: Geophysical Research Abstracts, Vol. 15, EGU2013-9800, EGU General Assembly 2013.
  8. Belyaev, V.R., Golosov, V.N., Markelov, M.V., Evrard, O., Ivanova, N.N., Paramonova, T.A., Shamshurina, E.N. (2013). Using Chernobyl-derived 137Cs to document recent sediment deposition rates on the River Plava floodplain (Central European Russia) Hydrological Processes, 27(6), 807-821.
  9. Benmansour, M., Mabit, L., Nouira, A., Moussadek, R., Bouksirate, H., Duchemin, M., Benkdad, A. (2013). Assessment of soil erosion and deposition rates in a Moroccan agricultural field using fallout 137Cs and 210Pbex. Journal of Environmental Radioactivity, 115, 97-106.
  10. Bilotta, G.S., Grove, M., Mudd, S.M. (2012). Assessing the significance of soil erosion. Transactions of the Institute of British Geographers, 37(3), 342-345.
  11. Blebea-Apostu, A.M., Radulescu, I., Margineanu, R., Ionita, I., Popescu, I.V. (2012). Assessment of sedimentation rate through the use of anthropogenic 137Cs radionuclide. Romanian Reports in Physics, 64(1), 211-220.
  12. Caitcheon, G.G., Olley, J.M., Pantus, F., Hancock, G., Leslie, C. (2012). The dominant erosion processes supplying fine sediment to three major rivers in tropical Australia, the Daly (NT), Mitchell (Qld) and Flinders (Qld) Rivers. Geomorphology, 151, 188-195.
  13. Caro, A., Legarda, F., Romero, L., Herranz, M., Barrera, M., Valiño, F., Idoeta, R., Olondo, C. (2013). Map on predicted deposition of 137Cs in Spanish soils from geostatistical analyses. Journal of Environmental Radioactivity, 115, 53-59.
  14. Ceaglio, E., Meusburger, K., Freppaz, M., Zanini, E., Alewell, C. (2012). Estimation of soil redistribution rates due to snow cover related processes in a mountainous area (Valle d’Aosta, NW Italy). Hydrology and earth system sciences, 16(2), 517-528.
  15. Chappell, A., Sanderman, J., Thomas, M., Read, A., Leslie, C. (2012). The dynamics of soil redistribution and the implications for soil organic carbon accounting in agricultural south-eastern Australia. Global Change Biology, 18(6), 2081-2088.
  16. Chartin, C., Evrard, O., Salvador-Blanes, S., Hinschberger, F., Van Oost, K., Lefèvre, I., Daroussin, J., Macaire, J.J. (2013). Quantifying and modelling the impact of land consolidation and field borders on soil redistribution in agricultural landscapes (1954-2009). Catena, 110, 184-195.
  17. Chhem-Kieth, S., Mabit, L., Gómez, J. A., Toloza, A., Vanwalleghem, T. (2012). Radioisotopics and physicochemical investigation to assess soil erosion affecting Spanish orchard fields. IAEA-Soils Newsletter, 34(2), 31-33.
  18. Chhem-Kieth, S., Mabit, L., Toloza, A., Mayr, L., Resch, C., Zupanc V. (2012). Combined use of fallout radionuclide (137Cs) and stables isotopes (δ13C, δ15N) in East Slovenia: Preliminary Results. IAEA-Soils Newsletter, 34(2), 30-31.
  19. Damnati, B., Sanaa, I., Radakovitch, O. (2013). Quantifying erosion using 137Cs and 210Pb in cultivated soils in three Mediterranean watershed: Synthesis study from El Hachef, Raouz and Nakhla (North West Morocco). Journal of African Earth Sciences, 79, 50-57.
  20. Dercon, G., Mabit, L., Hancock, G., Nguyen, M.L., Dornhofer, R., Bacchi, O.O.S., Benmansour, M., Bernard, C., Froehlich, W., Golosov, V.N., Haciyakupoglu, S., Hai, P.S., Klik, A., Li, Y., Lobb, D.A., Onda, Y., Popa, N., Rafiq, M., Ritchie, J.C., Schuller, P., Shakhashiro, A., Wallbrink, P., Walling, D.E., Zapata, F., Zhang, X. (2012). Fallout radionuclide-based techniques for assessing the impact of soil conservation measures on erosion control and soil quality: an overview of the main lessons learnt under an FAO/IAEA Coordinated Research Project. Journal of Environmental Radioactivity, 107, 78-85.
  21. Fang, H., Li, Q., Sun, L., Cai, Q. (2012). Using 137Cs to study spatial patterns of soil erosion and soil organic carbon (SOC) in an agricultural catchment of the typical black soil region, Northeast China. Journal of Environmental Radioactivity, 112, 125-132.
  22. Fang, H., Sun, L., Qi, D., Cai, Q. (2012). Using 137Cs technique to quantify soil erosion and deposition rates in an agricultural catchment in the black soil region, Northeast China. Geomorphology, 169-170, 142-150.
  23. Fokin A.D., Torshin, S.P. (2013). Method of studying the degradation of soil macroaggregates based on the self-absorption of 137Cs β Radiation. Eurasian Soil Science, 46(4), 386-392.
  24. Funk, R., Li, Y., Hoffmann, C., Reiche, M., Zhang, Z., Li, J., Sommer, M. (2012). Using 137Cs to estimate wind erosion and dust deposition on grassland in Inner Mongolia-selection of a reference site and description of the temporal variability. Plant and Soil, 351(1-2), 293-307.
  25. Gaspar, L., Navas, A. (2013). Vertical and lateral distributions of 137Cs in cultivated and uncultivated soils on Mediterranean hillslopes. Geoderma, 207-208, 131-143.
  26. Gaspar, L., Navas, A., Walling, D.E., Machín, J., Gómez Arozamena, J. (2013). Using 137Cs and 210Pbex to assess soil redistribution on slopes at different temporal scales. Catena, 102, 46-54.
  27. Gateuille, D., Evrard, O., Lefevre, I., Moreau-Guigon, E., Alliot, F., Chevreuil, M., Mouchel, J.M. (2013). Understanding Polycyclic Aromatic Hydrocarbon transfers at the catchment scale combining chemical and fallout radionuclides analyses. In: Geophysical Research Abstracts, Volume 15, EGU2013-2928-1, European Geosciences Union – General Assembly 2013.
  28. Gharibreza, M., Raj, J.K., Yusoff, I., Ashraf, M.A., Othman, Z., Wan Zakaria, W.T. (2013). Effects of agricultural projects on nutrient levels in Lake Bera (Tasek Bera), Peninsular Malaysia. Agriculture, Ecosystems & Environment, 165, 19-27.
  29. Gharibreza, M., Raj, J.K., Yusoff, I., Othman, Z., Wan Zakaria, W.T., Ashraf, M.A. (2013). Land use changes and soil redistribution estimation using 137Cs in the tropical Bera Lake catchment, Malaysia. Soil and Tillage Research, 131, 1-10.
  30. Gibbs, M., Mabit, L. (2012). Test of compound-specific stable isotope (CSSI) technique to investigate sediment provenance in a small Austrian watershed. IAEA-Soils Newsletter, 34(2), p. 29.
  31. Golosov, V., Aseeva, E., Belyaev, V., Markelov, M., Alyabieva, A. (2012). Redistribution of sediment and sediment-associated contaminants in the River Chern basin during the last 50 years. In: Erosion and Sediment Yields in the Changing Environment. IAHS Publication, 356, 12-19.
  32. Golosov, V.N., Belyaev, V.R., Markelov, M.V. (2013). Application of Chernobyl-derived 137Cs fallout for sediment redistribution studies: lessons from European Russia. Hydrological Processes, 27(6), 781-794.
  33. Greenwood, P. (2012). Exploring the potential for using artificial radionuclides to assess the selective erosion of sediment particles and soil organic matter. In: Geophysical Research Abstracts, Vol. 14, EGU2012-13926, EGU General Assembly 2012.
  34. Guo, W., Li, Z.,  Shen, W., Wang, X., Zeng, G., Chen, X., Zhang, X., Zhang, Y., Liu, G., Wang, S. (2012). Effects of soil and water conservation and its interactions with soil properties on soil productivity. Journal of Central South University, 19(8), 2279-2285.
  35. Guzmán, G., Quinton, J.N., Nearing, M.A., Mabit, L., Giráldez, J.V., Gómez, J.A. (2013). Sediment tracers in water erosion studies: Current approaches and challenges. In: Geophysical Research Abstracts, Vol. 15, EGU2013-1321-1, EGU General Assembly 2013.
  36. Guzmán, G., Quinton, J.N., Nearing, M.A., Mabit, L. Gómez, J.A. (2013). Sediment tracers in water erosion studies: Current approaches and challenges. Journal of Soils and Sediments, 13(4), 816-833.
  37. Haciyakupoglu, S., Oğuz, I., Esen, A.N. (2012). Determination of spatial 137Cs distribution in Ugrak watershed. BALWOIS 2012, International Conference on Water, Climate and Environment. http://balwois.com/2012/USB/papers/558.pdf
  38. Hancock, G.R., Murphy, D.V., Li, Y. (2013). Soil properties and environmental tracers: A DEM based assessment in an Australian Mediterranean environment. Geomorphology, 183, 45-57.
  39. Henry, A., Mabit, L., Jaramillo, R.E., Cartagena, Y., Lynch, J.P. (2013). Land use effects on erosion and carbon storage of the Río Chimbo watershed, Ecuador. Plant and Soil, 367, 477-491.
  40. Hien, P.D., Dung, B.D., Phien, T. (2013). Redistributions of 137Cs and soil components on cultivated hill slopes with hedgerows as conservation measures. Soil and Tillage Research, 128, 149-154.
  41. Huisman, N.L.H., Karthikeyan, K.G. (2012). Using radiometric tools to track sediment and phosphorus movement in an agricultural watershed. Journal of Hydrology, 450-451, 219-229.
  42. Huon, S., de Rouw, A.,  Bonté, P., Robain, H.,  Valentin, C.,  Lefèvre, I., Girardin, C.,  Le Troquer, Y., Podwojewski, P., Sengtaheuanghoung, O. (2013). Long-term soil carbon loss and accumulation in a catchment following the conversion of forest to arable land in northern Laos. Agriculture, Ecosystems & Environment, 169, 43-57.
  43. Iurian, A.R., Begy, R., Cătinaş, I., Cosma, C. (2012). Results of Medium-Term Soil Redistribution Rates in Cluj County, Romania, using 137Cs Measurements. Procedia Environmental Sciences, 14, 22-31.
  44. Iurian, A.R., Begy, R.C., Cosma, C. (2013). The uncertainty given by the input parameters in the radiometric modeling of soil redistribution rates. In: Geophysical Research Abstracts, Vol. 15, EGU2013-8272, EGU General Assembly 2013.
  45. Iurian, A.R., Mabit, L., Begy, R., Cosma, C. (2013). Comparative assessment of erosion and deposition rates on cultivated land in the Transylvanian Plain of Romania using 137Cs and 210Pbex. Journal of Environmental Radioactivity. http://dx.doi.org/10.1016/j.jenvrad.2013.02.009
  46. Iurian, A.R., Mabit, L., Begy, R., Cosma, C. (2012). Comparative assessment of erosion and deposition rates on cultivated land in the Transylvanian Plain of Romania using 137Cs and 210Pbex. In: 6th International Symposium on in situ Nuclear Metrology as a tool for radioecology (INSINUME 2012), Book of abstracts of INSINUME 2012, Institute for Radioelements (IRE) and IRE ELiT (Environment & Life science Technology), p. 52.
  47. Jia, Y., Wang, Z., Zheng, X., Han, L. (2012). Estimation of soil erosion in the Xihanshui River Basin by using 137Cs technique. International Journal of Sediment Research, 27, 486-497.
  48. Jun, Z., Ruiting, C., Mingli Z., Hao, Y. (2012). Correlation Study of 137Cs and 210Pbex Content and Soil Particle Composition in Zhenjiang Area. In: 2012 2nd International Conference on Remote Sensing, Environment and Transportation Engineering (RSETE 2012). IEEE Conference Publications, ISBN: 978-1-4673-0872-4, pp. 386-390.
  49. Kanai, Y., Saito, Y., Tamura, T., Nguyen, V.L., Ta, T.K.O., Sato, A. (2013). Sediment erosion revealed by study of Cs isotopes derived from the Fukushima Dai-ichi nuclear power plant accident. Geochemical Journal, 47, 79-82.
  50. Katz, H.A., Daniels, J.M., Ryan, S. (2013). Slope-area thresholds of road-induced gully erosion and consequent hillslope-channel interactions. Earth Surface Processes and Landforms, doi: 10.1002/esp.3443
  51. Khoshbinfar, S., Moghaddam, M.V. (2012). Spatial variability of soil 137Cs in the South Caspian region. Environmental Monitoring and Assessment, 184(5), 3053-3062.
  52. Kim, J.K., Onda, Y., Yang, D.Y., Kim, M.S. (2013). Temporal variations of reservoir sediment sources in a small mountainous catchment in Korea. Earth Surface Processes and Landforms, doi: 10.1002/esp.3379
  53. Kirchner, G. (2013). Establishing reference inventories of 137Cs for soil erosion studies: Methodological aspects. Geoderma, 211-212, 107-115.
  54. Koiter, A.J., Lobb, D.A., Owens, P.N., Tiessen, K.H.D., Li, S. (2012). Assessing the sources of suspended sediments in the streams of an agricultural watershed in the Canadian prairies using caesium-137 as a tracer. In: Geophysical Research Abstracts, Vol. 14, EGU2012-3925, EGU General Assembly 2012.
  55. Konz, N., Prasuhn, V., Alewell, C. (2012). On the measurement of alpine soil erosion. Catena, 91, 63-71.
  56. Li, F., Zhang, J., Su, Z. (2012). Changes in SOC and Nutrients under Intensive Tillage in Two Types of Slope Landscapes. Journal of Mountain Science, 9(1), 67-76.
  57. Li, M., Yao, W., Li, Z., Liu, P., Yang, E., Shen, Z. (2012). Using 137Cs to quantify the sediment delivery ratio in a small watershed. Applied Radiation and Isotopes, 70(1), 40-45.
  58. Li, Q.Y., Fang, H.Y., Sun, L.Y., Cai, Q.G. (2012). Using the 137Cs technique to study the effect of soil redistribution on soil organic carbon and total nitrogen stocks in an agricultural catchment of northeast China. Land Degradation & Development, doi: 10.1002/ldr.2144
  59. Li, S., Lobb, D.A., Tiessen, K.H.D. (2012). Soil Erosion and Conservation. In:  Encyclopedia of Environmetrics 2nd Ed. John Wiley & Sons. 8 pages, doi: 10.1002/9780470057339.vas031.pub2.
  60. Li, Y., Van Oost, K., Quine, T., Govers, G. (2013). Land rehabilitation, erosion and C sequestration in soils of the Chinese Loess Plateau. In: Geophysical Research Abstracts, Vol. 15, EGU2013-12026, EGU General Assembly 2013.
  61. Long, Y., Zhang, X., Wen, A., He, X. (2012). 137Cs Finger Printing Technique for Erosion and Sedimentation Studies. Journal of Mountain Science, 9(1), 34-40.
  62. López-Vicente, M., López-Montero, T., Gaspar, L., Machín, J., Navas, A. (2013). Soil redistribution in a small Mediterranean agro-ecosystem: modelling predictions calibrated with 137Cs derived rates. In: Geophysical Research Abstracts, Vol. 15, EGU2013-1367-1, EGU General Assembly 2013.
  63. López-Vicente, M., Navas, A., Gaspar, L., Machín, J. (2013). Advanced modelling of runoff and soil redistribution for agricultural systems: The SERT model. Agricultural Water Management, 125, 1-12.
  64. Mabit, L., Chhem-Kieth, S., Toloza, A., Vanwalleghem, T., Bernard, C., Amate, J.I., González de Molina, M., Gómez, J.A. (2012). Radioisotopics and physicochemical background indicators to assess soil degradation affecting olive orchards in southern Spain. Agriculture, Ecosystems & Environment, 159, 70-80.
  65. Mabit, L., Meusburger, K., Fulajtar, E., Alewell, C. (2013). The usefulness of 137Cs as a tracer for soil erosion assessment: A critical reply to Parsons and Foster (2011). Earth-Science Reviews. http://dx.doi.org/10.1016/j.earscirev.2013.05.008
  66. Meersmans, J., Quine, T. (2013). Refining regional SOC estimates: Accounting for erosion induced within field variability of the vertical distribution of SOC. In: Geophysical Research Abstracts, Vol. 15, EGU2013-12846, EGU General Assembly 2013.
  67. Meusburger, K., Leitinger, G., Mabit, L., Mueller, M.H., Alewell, C. (2013). Impact of snow gliding on soil redistribution for a sub-alpine area in Switzerland. Hydrology and Earth System Sciences Discussion, 10, 9505-9531.
  68. Meusburger, K., Mabit, L., Park, J.H., Sandor, T., Alewell, C. (2013). Combined use of stable isotopes and fallout radionuclides as soil erosion indicators in a forested mountain site, South Korea. Biogeosciences Discussion, 10, 2565-2589.
  69. Mian, L., Wenyi, Y., Zhanbin, L., Puling, L., Er, Y., Zhenzhou, S. (2012). Using 137Cs to quantify the sediment delivery ratio in a small watershed. Applied Radiation and Isotopes, 70(1), 40-45.
  70. Minella, J.P.G., Merten, G.H., Walling, D.E., Moro, M. (2012). Using 137Cs measurements and sediment yield monitoring to document catchment-scale sediment dynamics and budgets. In: Erosion and sediment yields in the changing environment. Collins, A.L., Golosov, V., Horowitz, A.J., Lu, X., Stone, M., Walling, D.E., Zhang, X.B. (Eds.), Book Series: IAHS Publication, 356, pp. 338–344.
  71. Montes, M.L., Silva, L.M.S., Sá, C.S.A., Runco, J., Taylor, M.A., Desimoni, J. (2013). Inventories and concentration profiles of 137Cs in undisturbed soils in the northeast of Buenos Aires Province, Argentina. Journal of Environmental Radioactivity, 116, 133-140.
  72. Mukundan, R., Walling, D.E., Gellis, A.C., Slattery, M.C., Radcliffe, D.E. (2012). Sediment Source Fingerprinting: Transforming From a Research Tool to a Management Tool. Journal of the American Water Resources Association, 48(6), 1241-1257.
  73. Nagle, G.N., Fahey, T.J., Woodbury, P.B., Ritchie, J.C. (2012). Bank erosion in fifteen tributaries in the glaciated upper Susquehanna Basin of New York and Pennsylvania. Physical Geography, 33(3), 229-251.
  74. Navas, A., Gaspar, L., Quijano, L., Lopez-Vicente, M., Machin, J. (2012). Patterns of soil organic carbon and nitrogen in relation to soil movement under different land uses in mountain fields (South Central Pyrenees). Catena, 94, 43-52.
  75. Navas, A., López-Vicente, M., Gaspar, L., Machín, J. (2012). Assessing soil redistribution in a complex karst catchment using fallout 137Cs and GIS. Geomorphology. http://dx.doi.org/10.1016/j.geomorph.2012.03.018
  76. Nie, X.J., Zhao, T.Q., Qiao, X.N. (2013). Impacts of soil erosion on organic carbon and nutrient dynamics in an alpine grassland soil. Soil Science and Plant Nutrition, 1–9. http://dx.doi.org/10.1080/00380768.2013.795475
  77. Olley, J.M., Burton, J., Smolders, K., Pantus, F., Pietsch, T. (2013). The application of fallout radionuclides to determine the dominant erosion process in water supply catchments of subtropical South-east Queensland, Australia. Hydrological processes, 27(6), 885-895.
  78. Olley, J., Brooks, A., Spencer, J., Pietsch, T., Borombovits, D. (2013). Subsoil erosion dominates the supply of fine sediment to rivers draining into Princess Charlotte Bay, Australia. Journal of Environmental Radioactivity, 124, 121-129.
  79. Olson, K.R., Gennadiyev, A.N., Zhidkin, A.P., Markelov, M.V., Golosov, V.N., Lang, J.M. (2013). Use of magnetic tracer and radio-cesium methods to determine past cropland soil erosion amounts and rates. Catena, 104, 103-110.
  80. Othman, Z., Ismail W.R. (2012). Using environmental radionuclide, 137Cs to investigate soil re-distribution in an agricultural plot in Kalumpang, Selangor, Malaysia. Kajian Malaysia, 30(2), 45-70.
  81. Owens, P.N., Blake, W.H., Giles, T.R., Williams, N.D. (2012). Determining the effects of wildfire on sediment sources using 137Cs and unsupported 210Pb: the role of landscape disturbances and driving forces. Journal of Soils and Sediments, 12(6), 982-994.
  82. Owens, P.N., Giles, T.R., Blake W.H., Petticrew, E.L., Bol, R. (2012). Muted response of fine-grained sediment to a wildfire in British Columbia: the role of landscape disturbances and driving forces. In: Geophysical Research Abstracts, Vol. 14, EGU2012-6876, EGU General Assembly 2012.
  83. Parfitt, R.L., Baisden, W.T., Ross, C.W., Rosser, B.J., Schipper, L.A., Barry, B. (2013). Influence of erosion and deposition on carbon and nitrogen accumulation in resampled steepland soils under pasture in New Zealand. Geoderma, 192, 154-159.
  84. Parkner, T., Onda, Y. (2012). Rapid reduction of 137Cs caused by soil erosion on a typical agricultural. Japan Geoscience Union Meeting 2012. Japan Geoscience Union. http://www2.jpgu.org/meeting/2012/html5/PDF/M-AG34/MAG34-P16_e.pdf
  85. Parsons, A.J., Foster I.D.L. (2013). The assumptions of science A reply to Mabit et al. (2013). Earth-Science Reviewshttp://dx.doi.org/10.1016/j.earscirev.2013.05.011
  86. Pichler, B., Brandovà, D., Alewell, C., Ivy-Ochs, S., Kubik, P.W., Kneisel, C.,  Meusburger, K., Ketterer, M., Egli, M. (2013). The effect of permafrost on soil erosion using meteoric 10Be, 137Cs and 239+240Pu in the Eastern Swiss Alps. In: Geophysical Research Abstracts, Vol. 15, EGU2013-8468, EGU General Assembly 2013.
  87. Pietsch, D., Mabit, L. (2012). Terrace soils in the Yemen Highlands: Using physical, chemical and radiometric data to assess their suitability for agriculture and their vulnerability to degradation. Geoderma, 185, 48-60.
  88. Porto, P., Walling, D.E. (2012). Using plot experiments to test the validity of mass balance models employed to estimate soil redistribution rates from 137Cs and 210Pbex measurements. Applied radiation and isotopes, 70(10), 2451-2459.
  89. Porto, P., Walling, D.E. (2012). Validating the use of 137Cs and 210Pbex measurements to estimate rates of soil loss from cultivated land in southern Italy. Journal of Environmental Radioactivity, 106, 47-57.
  90. Porto, P., Walling, D.E., Callegari, G. (2013). Using 137Cs and 210Pbex measurements to investigate the sediment budget of a small forested catchment in southern Italy. Hydrological Processes, 27(6), 795-806.
  91. Porto, P., Walling, D.E., Callegari, G., La Spada, C. (2012). Further investigation of the relationship between 137Cs and 210Pbex flux and sediment output from two small experimental catchments in Calabria, southern Italy. In: Erosion and sediment yields in the changing environment, Collins, A.L., Golosov, V., Horowitz, A.J., Lu, X., Stone, M., Walling, D.E., Zhang, X.B. (Eds.), Book Series: IAHS Publication, 356, pp. 385-393.
  92. Preston, T.M., Sojda, R.S., Gleason, R.A. (2013). Sediment accretion rates and sediment composition in Prairie Pothole wetlands under varying land use practices, Montana, United States. Journal of Soil and Water Conservation, 68(3), 199-211.
  93. Prokop, P., Poreba, G.J. (2012). Soil erosion associated with an upland farming system under population pressure in northeast India. Land Degradation & Development, 23(4), 310-321.
  94. Rahimi, M.R., Ayoubi, S., Abdi, M.R. (2013). Magnetic susceptibility and 137Cs inventory variability as influenced by land use change and slope positions in a hilly, semiarid region of west-central Iran. Journal of Applied Geophysics, 89, 68-75.
  95. Rodriguez, E., Suarez, J.A., Gasco, C., Schmid, T., Rodriguez, M. (2012). Radionuclide determination techniques and spectroradiometry as tool to determine soil erosion. In: Geophysical Research Abstracts, Vol. 14, EGU2012-14216, EGU General Assembly 2012.
  96. Saç, M.M., Yumurtaci, E., Yener, G., Camgöz, B., Uğur, A., Özden, B. (2012). Soil erosion determinations by using 137Cs technique in the agricultural regions of Gediz Basin, Western Turkey. Environmental Geology, 55(3), 477-483.
  97. Sanderman, J., Chappell, A. (2013). Uncertainty in soil carbon accounting due to unrecognized soil erosion. Global Change Biology, 19(1), 264-272.
  98. Schmengler, A.C., Vlek, P.L.G. (2012). Facing the scaling problem: A multi-methodical approach to simulate soil erosion at hillslope and catchment scale. In: Geophysical Research Abstracts, Vol. 14, EGU2012-10913, EGU General Assembly 2012.
  99. Schuller, P., Walling, D.E., Iroume, A., Castillo, A., Quilodran, C. (2012). Sediment source fingerprinting to quantify fine sediment sources in forested catchments, Chile. In: Geophysical Research Abstracts, Vol. 14, EGU2012-2156, EGU General Assembly 2012.
  100. Schuller, P., Walling, D.E., Iroumé, A., Quilodrán, C., Castillo, A., Navas, A. (2013). Using 137Cs and 210Pbex and other sediment source fingerprints to document suspended sediment sources in small forested catchments in south-central Chile Original Research Article. Journal of Environmental Radioactivity, 124, 147-159.
  101. Shi, Z.L., Wen, A.B., Zhang, X.B., He, X.B., Li, H., Yan, D.C. (2012). 137Cs and 210Pbex as Soil Erosion Tracers in the Hilly Sichuan Basin and the Three Gorges Area of China. Journal of Mountain Science, 9(1), 27-33.
  102. Su, Z., Zhang, J., Xiong, D., Liu, G. (2012). Assessment of Soil Erosion by Compensatory Hoeing Tillage in a Purple Soil. Journal of Mountain Science, 9(1), 59-66.
  103. Supper, R., Baron, I., Winkler, E., Motschka, K., Jaritz, W., Moser, G., Carman, M. (2012). Caesium-137 as Indicator of Present Mass-Movement and Erosion Processes. In: Geophysical Research Abstracts, Vol. 14, EGU2012-13816, EGU General Assembly 2012.
  104. Stockmann, U., Minasny, B., McBratney, A.B., Hancock, G.R., Willgoose, G.R. (2012). Exploring short-term soil landscape formation in the Hunter Valley, NSW, using gamma ray spectrometry. In: Minasny, Malone and McBratney (Eds). Digital Soil Assessments and Beyond. Taylor & Francis Group, London, ISBN 978-0-415-62155-7. pp. 77-82.
  105. Teramage, M.T., Onda, Y., Kato, H., Wakiyama, Y., Mizugaki, S., Hiramatsu, S. (2013). The relationship of soil organic carbon to 210Pbex and 137Cs during surface soil erosion in a hillslope forested environment. Geoderma, 192, 59-67.
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