References
- Arnold, J. G. and R. Srinivasan, 1994. Integration of a BASIN-scale water quality model with GIS. Journal of the American Water Resources Association 30(3): 453-462. https://doi.org/10.1111/j.1752-1688.1994.tb03304.x
- Boyce, R. C., 1975. Sediment Routing with Sediment Delivery Ratios, In Present and Prospective Technology for Predicting Sediment Yields and Sources, 61-65.
- Chandramohan, T., B. Venkatesh, and A. N. Balchand, 2015. Evaluation of three soil erosion models for small watersheds. Aquatic Procedia 4: 1277-1234.
- Cho, H. and J. Jung, 2005. Estimating soil loss in alpine farmland with RUSLE and SEDD. The Journal of Geographic Information System Association of Korea 13(1): 79-90.
- Devatha, C. P., V. Deshpande, and M. S. Renukaprasad, 2015. Estimation of soil loss using USLE model for Kulhan Watershed, Chattisgarh- a case study. Aquatic Procedia 4: 1429-1436. https://doi.org/10.1016/j.aqpro.2015.02.185
- Diodato, N. and G. Bellocchi, 2007. Estimating monthly (R)USLE climate input in a Mediterranean region using limited data. Journal of Hydrology 345(3-4): 224-236. https://doi.org/10.1016/j.jhydrol.2007.08.008
- Flanagan, D. C. and S. J. Livingston, 1995. WEPP User Summary. NSERL Report 11. West Lafayette, Indiana: USDA-ARS National Soil Erosion Research Laboratory.
- Frankenberger, J. R., S. Dun, D. C. Flanagan, J. Q. Wu, and W. J. Elliot, 2011. Development of a GIS interface for WEPP model application to Great Lakes forested watersheds. In Proceedings of the International Symposium on Erosion and Landscape Evolution (ISELE), 139. Anchorage, AK, Mich: American Society of Agricultural and Biological Engineers (ASABE).
- Fraser, R. H., 1999. SEDMOD: A GIS-based Delivery Model for Diffuse Source Pollutants. Yale University.
- Jung, P. K., K. T. Um, and D. U. Choi, 1983. Rainfall erosion factor for estimating soil loss. Journal of Korean Society of Soil Science and Fertilizer 16: 112-118 (in Korean).
- Kang, H., K. S. Kim, Y. S. Park, N. Kim, Y. S. Ok, J. Kim, Y. H. Choi, and K. J. Lim, 2009. Development and Application of SATEEC L Module for Slope Length Adjustment Based on Topography Change. Korean Journal of Environmental Agriculture 28(2): 113-124 (in Korean). https://doi.org/10.5338/KJEA.2009.28.2.113
- Kang, H., Y. S. Park, N. W. Kim, T. S. Ok, W. S. Jang, J. C. Ryu, K. S. Kim, and K. J. Lim, 2010. Development and application of integrated system with SATEEC, nLS and USPED for gully erosion evaluation. Journal of Korean Society on Water Quality 26(4): 637-647 (in Korean).
- Kim, M. S., J. K. Kim, and D. Y. Yang, 2007. Application and comparison of GeoWEPP model and USLE model to natural small catchment -a case study in Danwol-dong, Icheon-si. The Korean Society of Economic and Environmental Geology 40(1): 103-113 (in Korean).
- Kongju National University, 2016. Development of Topsoil Erosion Model for Korea. Yesan-gun: Republic of Korea.
- Lee, D. J., J. M. Lee, D. H. Kum, Y. S. Park, Y. Jung, Y. Shin, G. C. Jeong, B. C. Lee, and K. J. Lim, 2014. Analysis of effects on soil erosion reduction of various best management practices at watershed scale. Journal of Korean Society on Water Environment 30(6): 638-646 (in Korean). https://doi.org/10.15681/KSWE.2014.30.6.638
- Lim, K. J., J. D. Choi, K. S. Kim, M. Sagong, and B. A. Engel, 2003. Development of Sediment Assessment Tool for Effective Erosion Control (SATEEC) in Small Scale Watershed. Journal of Korean Society of Agricultural Engineers 45(5): 85-96 (in Korean).
- Ministry of Environment, 2012. A bulletin on the survey of the erosion of topsoil. Sejong-si: Ministry of Environment.
- Moore, I. D. and G. J. Burch, 1986. Physical Basis of the Length-Slope Factor in the Universal Soil Loss Equation, Soil Science Society of America Journal 50: 1294-1298. https://doi.org/10.2136/sssaj1986.03615995005000050042x
- Park, Y. S., J. Kim, N. Kim, K. S. Kim, J. Choi, and K. J. Lim, 2007. Analysis of Sediment Yields at Watershed Scale using Area/Slope-Based Sediment Delivery Ratio in SATEEC. Journal of Korean Society on Water Quality 23(5): 650-658 (in Korean).
- Park, Y. S., J. Kim, N. Kim, S. Kim, J. Jeon, B. A. Engel, W. S. Jang, and K. J. Lim, 2010. Development of New R, C. and SDR Modules for the SATEEC GIS System. Computers & Geosciences 36(6): 726-734. https://doi.org/10.1016/j.cageo.2009.11.005
- Park, Y. S., B. A. Engel., and J. Harbor, 2014. A web-based model to estimate the impact of best management practices, Water 6, 455-471. https://doi.org/10.3390/w6030455
- Renard, K. G., G. R. Foster, G. A. Weesies, D. K. McCool, and D. C. Yoder, 1997. Prediction soil erosion and water: A guide to conservation planning with the revised USLE Vol. 703, Washington, DC: US Government Printing Office.
- Renschler, C. S., D. C. Flanagan, B. A. Engel, and J. R. Frankenberger. 2002. GeoWEPP: The geospatial interface to the Water Erosion Prediction Project. In ASAE Annual Meeting, 1. St. Joseph, Mich.: ASAE.
- Risal, A., R. Bhattarai, D. Kum, Y. S. Park, J. E. Yang, and K. J. Lim, 2016. Application of Web ERosivity Module (WERM) for estimation of annual and monthly R factor in Korea. CATENA 147: 225-237. https://doi.org/10.1016/j.catena.2016.07.017
- USDA, 1972. Sediment Source, Yields, and Delivery Ratios In Section 3 Sedimentation, U.S. Department of Agriculture.
- Vanoni, V. A., 1975. Sedimentation Engineering, Manual and Report ASCE 54: 745. New York, Mich: ASCE.
- Williams, J. R., and H. D. Berndt, 1977. Sediment Yield Prediction Based on Watershed Hydrology. Transactions of the ASAE 20(6): 1100-1104. https://doi.org/10.13031/2013.35710
- Wischmeier, W. H. and D. D. Smith, 1965. Predicting rainfall erosion losses from cropland east of the Rocky Mountains: A guide for selection of practices for soil and water conservation Handbook No.282. Agricultural Researach Service U. S. Department of Agriculture.
- Wischmeier, W. H. and D. D. Smith, 1978. Predicting rainfall erosion losses: A guide to conservation planning Handbook No.537. U. S. Department of Agriculture.
- Yu, B., G. M. Hashim, and Z. Eusof, 2001. Estimating the r-factor with limited rainfall data: a case study from peninsular Malaysia. Journal of Soil and Water Conservation 56: 101-105.