The use of cesium-137 to assess modern agrogenic transformation of soil cover in the areas subjected to Chernobyl fallout, Eurasian Soil Science, vol.36, pp.788-802, 2003. ,
A comparison of methods for evaluating soil redistribution in the severely eroded Stavropol region, southern European Russia, Geomorphology, vol.65, pp.173-193, 2005. ,
Quantitative assessment of effectiveness of soil conservation measures using a combination of 137 Cs radioactive tracer and conventional techniques, Catena, vol.79, pp.214-227, 2009. ,
Assessment of overbank sedimentation rates and associated pollutant transport within the Severnaya Dvina River Basin, Geography Environment Sustainability, vol.4, pp.68-84, 2011. ,
Erosion and sediment yield in the former USSR, Modelling Erosion, Sediment Transport and Sediment Yield, vol.60, pp.31-45, 2002. ,
Sediment yield conditioned by glaciation in a rural agricultural basin of southern Ontario, Canada. Phys. Geog, vol.15, pp.495-515, 1994. ,
Fingerprinting suspended sediment sources in a large urban river system, The Science of the Total Environment, vol.314, pp.513-534, 2003. ,
Incorporating soil surface crusting processes in an expert-based runoff model: sealing and transfer by runoff and erosion related to agricultural management, Catena, vol.46, pp.189-205, 2002. ,
Sediment concentration in interrill flow: interactions between soil surface conditions, vegetation and rainfall, Earth Surf. Processes Landf, vol.27, pp.193-205, 2002. ,
Modelling interrill erosion in small cultivated catchments, Hydrol. Processes, vol.16, pp.3215-3226, 2002. ,
Reliability of an expert-based runoff and erosion model: application of STREAM to different environments, Catena, vol.78, pp.129-141, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-00514223
Modelling the impact of land use change and rainfall erosivity on sediment export from an agricultural catchment of the northwestern European loess belt, Ecosystems & Environment, vol.138, pp.83-94, 2010. ,
Chernobyl 137 Cs redistribution in the small basin of the Lokna river, Central Russia. Phys. Chem. Earth, vol.24, issue.10, pp.881-885, 1999. ,
Response of a small arable catchment sediment budget to introduction of soil conservation measures, Sediment Dynamics in Changing Environments, vol.325, pp.106-113, 2008. ,
Overbank sedimentation rates on the flood plains of small rivers in Central European Russia, Sediment Dynamics for a Changing Future, pp.129-136, 2010. ,
Atlas of Radionuclide Contamination of European Parts of Russia, Belorussia and the Ukraine, IGKE Rosgidromet, 1998. ,
Effect of topographic scale on the estimation of soil erosion rates using an empirical model, Sediment Dynamics for a Changing Future, pp.334-344, 2010. ,
Theoretical-empirical equation of topography factor for a statistical model of soil erosion by water, Soil Erosion and Channel Processes, vol.11, pp.25-44, 1998. ,
Channel storage of fine-grained sediment in the Potomac River, Drainage Basin Sediment Delivery, vol.159, pp.287-303, 1986. ,
The role of soil erosion and fluvial processes in the post-fallout redistribution of Chernobyl-derived caesium-137: case study of the Lapki catchment, Central Russia. Geomorphology, vol.40, pp.185-204, 2001. ,
Predicting Soil Erosion by Water -a Guide to Conservation Planning with Revised Universal Soil Loss Equation (RUSLE), 1994. ,
Influence of sediment budgets on small river state in the Volga, Don, Dnieper and Dniester River basins, Reasons and Mechanism of Small River Degradation, pp.27-36, 1996. ,
Modelling ephemeral gully erosion in small cultivated catchments, Catena, vol.50, pp.489-505, 2003. ,
Assessment of the contamination of cultivated soils by eighteen trace elements around smelters in the north of France, Water, Air, & Soil Pollution, vol.135, pp.173-194, 2002. ,
Use of fallout 137 ?s in investigations of overbank sediment deposition on river floodplains, Catena, vol.29, pp.263-282, 1997. ,
Rates of contemporary overbank sedimentation and sediment storage on the floodplains of the main channel systems of the Yorkshire Ouse and River Tweed, UK. Hydrol. Processes, vol.13, pp.993-1009, 1999. ,
Storage of sedimentassociated nutrients and contaminants in river channel floodplain systems, Appl. Geochemistry, vol.18, pp.195-220, 2003. ,
Predicting Rainfall Erosion Losses from Cropland East of the Rocky Mountains. ARS-USDA in Cooperation with Purdue University, Purdue Agric. Exp. Sta. Handbook, issue.282, 1965. ,