Alavi-panah, S. K. (2012). Application of Remote Sensing in the Earth Sciences (soil). 4th Edition. Tehran: University of Tehran Press. (In Persian).
Baatz, M., & Schape, A. (2000). Multiresolution Segmentation: an optimization approach for high quality multi scale image segmentation, In: Strobl, L.J. Blaschket. and Griesebener T. (Eds), Angewandte geographische informationseraabeitung XII, Beitrage zun AGIT Symposium Salzburg. Herbert Wichmann Verlag, Heidelberg, 5(3), 12-23.
Bagherzadeh, M. (1993). A Study on the Efficiency of Erosion Potential and Sediment Yield Models Using Remote Sensing and Geographic Information Systems. Unpublished M.Sc. Thesis, Natural Resources College, University of Tarbiat Modares, Tehran, Iran (In Persian).
Blaschke, T., Feizizadeh, B., & Holbling, D. (2014). Object-Based Image Analysis and Digital Terrain Analysis for Locating Landslides in the Urmia Lake Basin, Iran. IEEE Journal of Selected Topics in Applied Earth Observerion and Remote Sensing, 7(12), 4806 – 4817. https://doi.org/10.1109/JSTARS.2014.2350036
Di Stefano, C., Ferro, V., Burguet, M., & Taguas, E. V. (2016). Testing the long-term applicability of USLE-M equation at an olive orchard micro catchment in Spain. Catena, 147, 71-79.
Diyabalanage, S., Samarakoon, K. K., Adikari, S. B., & Hewawasam, T. (2017). Impact of soil and water conservation measures on soil erosion rate and sediment yields in a tropical watershed in the Central Highlands of Sri Lanka. Applied Geography, 79, 103-114.
Fizizadeh, B. (2018). A Novel Approach of Fuzzy Dempster–Shafer Theory for Spatial Uncertainty Analysis and Accuracy Assessment of Object-Based Image Classification. IEEE Geoscience and Remote Sensing Letters, 15(1), 18-22.
Feizizadeh, B., & Salmani, S. (2016). Modeling Agricultural Destruction Lands Resulted by Urban Growing in Suburb of Urmia City by Applying an Object Based Image Analysis Approach. Journal of Town and Country Planning, 8(2), 177-202. (In Persian).
Feizizadeh, B., Blaschke, T., Tiede, D., & Rezaei Moghaddam, M. (2017). Evaluating fuzzy operators of an object-based image analysis for detecting landslides and their changes. Geomorphology, 293, 240-254.
Feizizadeh, B., Kazamei, M., Blaschke, T., & Lakes, T. (2020). An object-based image analysis applied for volcanic and glacial landforms mapping in Sahand Mountain, Iran. Catena, 198, 1-19. https://doi.org/10.1016/j.catena.2020.105073.
Feizizadeh, B., Zand Karimi, A., Pirnazar, M., & Abedi, H. (2015). Evaluating the Capability of Fuzzy algorithms for Improving the Accuracy of land use maps Based on object based image analysis. Journal of geographic information sciences, 24, 107-117.
Fernandez, C., Wu, J. Q., McCool, D. Q., & Stockle, C. O. (2003). Estimating water erosion and sediment yield with GIS, RUSLE and SEDD. Journal of Soil Water Conservation, 58(3), 128-136.
Ganasri, B. P., & Ramesh, H. (2016). Assessment of soil erosion by RUSLE model using remote sensing and GIS - A case study of Nethravathi Basin. Geoscience Front, 7, 953-961.
Ghaderi, A., Najmaei, M., & Azizifar, V. (2010). Assessment and analysis of erosion and sediment Shahid Rajaei dam's watershed using remote sensing and GIS technologies and MPSIAC model. The first regional conference of Civil Engineering. Ghaemshahr, Iran.
Hancock, G. R., Wells, T., Martinez, C., & Dever, C. (2015). Soil erosion and tolerable soil loss: insights into erosion rates for a well-managed grassland catchment. Geoderma, 237-238, 256-265.
Razavi, M. M., Biniaz, M., Asadi, A., & Ajza Shokouhi, M. (2015). Estimation of soil erosion and deposit generation in Bekr Abad drainage basin in Varzghan using MPSIAC in GIS environment. Geographical Space, 15(49), 237-257.
Holbling, D., Friedl, B., & Eisank, C. (2015). An object-based approach for semi-automated landslide changes detection and attribution of changes to landslide classes in northern Taiwan. Earth Science Informatics, 8(2), 327-335.
Li, T., Liu, K., Ma, L. Y., Bao, Y. B., & Wu, L. (2016). Evaluation on soil erosion effects driven by land use changes over Danjiang River Basin of Qinling Mountain. Journal of Natural Resources. 31(4), 583-595 (in Chinese with English abstract).
Lin, C. Y., Lin, W. T., & Chov, W. C. (2002). Soil erosion prediction and sediment yield estimation: the Taiwan experience. Soil Tillage Research, 68, 143-152.
Erfanian, M., Ghahramani Saatloo, P., & Saadat, H. (2015). Assessment of soil erosion risk using a fuzzy model in Gharnaveh Watershed, Golestan. Journal of Water and Soil Conservation, 21(6), 135-154.
Martinez–Casasnovas, J. A. (2003). A spatial information technology approach for the mapping and quantification of gully erosion. Catena, 50(2–4), 293-308.
Merritt, W. S., Letcher, R. A., & Jakeman, A. J. (2003). A review of erosion and sediment transport models. Environmental Modelling and Software, 18, 761-799.
Mueller, U., Devignot, O., & Pessiot, L. (2016). MPC Sen2Cor Configuration and User Manual. S2-PDGS-MPCL2A-SUM-V2.3 Issue: 01.
Nigel, R., & Rughooputh, S. D. D. V. (2010). Soil erosion risk mapping with new dataset: An improved prioritization of high erosion risk area. Catena, 82(3), 191-205.
Qiao, Y. L., & Qiao, Y. (2002). Fast soil erosion investigation and dynamic analysis in the Loess Plateau of China by using information composite technique. Advance Space Research, 29(1), 85-88.
PSIAC. (1968). Report of the water management subcommittee on factors affecting sediment yield in the pacific southwest area and selection and evaluation of measures for reduction of erosion and sediment yield.
Refahi, H. G. (2017). Water Erosion and Conservation, 7th edn. University of Tehran, 672 Pages.
Sadeghi, H. (1993). Comparison of some erosion potential and sediment yield assessment models in Ozon-Dareh subcatchment. Proceedings of the National Conference on Land Use Planning, Tehran, Iran.
Sahin, S., & Kurum, E. (2002). Erosion risk analysis by GIS in environmental impact assessments: a case study—Seyhan Köprü Dam construction. Journal of Environ Manage, 66(3), 239-247.
Shabanlou, S. (2010). Prediction of the erosion and sediment of the Golestan catchment Using MPSIAC model and GIS technology. The first Conference of Applied Research in Water Resources, 405-420.
Tanyas, H., Kolat, Ç., & LütfiSüzen, M. (2015). A new approach to estimate cover-management factor of RUSLE and validation of RUSLE model in the watershed of Kartalkaya dam. Journal of Hydrology, 528, 584-598.
Xu, Y. Q., Shao, X. M., & Peng, J. (2009). Assessment of soil erosion using RUSLE and GIS: a case study of the Maotiao River watershed, Guizhou Province, China. Environmental Geology, 56, 1643-1652.
Zandi, J. (2012). Prioritization of controlling area on soil erosion using RS and GIS techniques (A case study: Vzaroud watershed, Mazandaran). M.Sc. Thesis. Faculty of Natural Resources. Sari Agricultural and Natural Resources University 144 pages.
Zhang, S. H., Fan, W. W., Li, Y. Q., & Yi, Y. J. (2017). Influence of changes in land use and landscape patterns on soil erosion in a watershed. Science of the Total Environment, 574, 34-45.