1 |
Hrabalikova, M., and M. Janecek, 2017. Comparison of different approaches to LS factor calculations based on a measured soil loss under simulated rainfall. Soil and Water Research 12: 69-77. doi:10.17221/222/2015-SWR.
DOI
|
2 |
Bosco, C., de Rigo, D., Dewitte, O., Poesen, J., and P. Panagos, 2015. Modelling soil erosion at European scale: Towards harmonization and reproducibility. Natural Hazards and Earth System Sciences 15: 225-245. doi:10.5194/nhess-15-225-2015.
DOI
|
3 |
Chaubey, I., A. S. Cotter, T. A. Costello, and T. S. Soerens, 2005. Effect of DEM data resolution on SWAT output uncertainty. Hydrological Processes 19(3): 621-628. doi:10.1002/hyp.5607.
DOI
|
4 |
Fu, X., and L. Zhang, 2014. Impact of slope length on soil erosion on sloping farmland with crop in red soil hilly region. Transactions of the Chinese Society of Agricultural Engineering 30(5): 91-98. doi:10.3969/j.issn.1002-6819.2014.05.012.
|
5 |
Ghahramani, A., I. Yoshiharu, and S. M. Mudd, 2012. Field experiments constraining the probability distribution of particle travel distances during natural rainstorms on different slope gradients. Earth Surface Process and Landforms 37(5): 473-485. doi:10.1002/esp.2253.
DOI
|
6 |
Griffin, M. L., D. B. Beasley, J. J. Fletcher, and G. R. Foster, 1988. Estimating soil loss on topographically non-uniform field and farm units. Journal of Soil and Water Conservation 43: 326-331.
|
7 |
Kim, J., Y. S. Park, N. W. Kim, I. M. Chung, W. S. Jang, J. H. Park, J. P. Moon, and K. J. Lim, 2008. Development and evaluation of SWAT topographic feature extraction error (STOPFEE) fix module from low resolution DEM. Journal of Korean Society on Water Quality 24(4): 488-498 (in Korean).
|
8 |
Kim, J., J. Yang, K. J. Lim, S. C. Kim, G. Lee, S. Hwang, N. Yu, and Y. S. Park, 2017. A study to define area of concern for potential soil loss in Geumgang watershed by KORSLE-based GIS model. Journal of Soil Groundwater Environment 22(6): 29-36. doi:10.7857/JSGE.2017.22.6.029 (in Korean).
DOI
|
9 |
Kim, J., Lim, K. J., and Y. S. Park, 2018. Evaluation of regression models of LOADEST and Eight-Parameter Model for nitrogen load estimations. Water, Air, and Soil Pollution 229: 179. doi:10.1007/s11270-018-3844-8.
DOI
|
10 |
Kongju National University, 2017. Development of Topsoil Erosion Model for Korea. Yesan-gun: Republic of Korea.
|
11 |
Koo, J. Y., Yoon, D. S., Lee, D. J., Han, J. H., Jung, Y., Yang, J. E., and K. J. Lim, 2016. Effect of DEM resolution in USLE LS factor. Journal of Korean Society on Water Environment 32(1): 89-97. doi:1015681/KSWE.2016.32.1.89 (in Korean).
DOI
|
12 |
Lin, S., C. Jing, V. Chaplot, X. Yu, Z. Zhang, N. Moore, and J. Wu, 2010. Effect of DEM resolution on SWAT outputs of runoff, sediment and nutrients. Hydrology and Earth System Sciences Discussion 7(4): 4411-4435. doi:10.5194/hessd-7-4411-2010.
DOI
|
13 |
McCool, D. K., L. C. Brown, G. R. Foster, C. K. Mutchler, and L. D. Meyer, 1987. Revised slope steepness factor for the Universal Soil Loss Equation. Transactions of the ASAE 30: 1387-1396. doi:10.13031/2013.30576.
DOI
|
14 |
Panagos, P., Borrelli, P., and K. Meusburger, 2015. A new European Slope Length and Steepness Factor (LS-Factor) for Modeling Soil Erosion by Water. Geosciences 5: 117-126. doi:10.3390/geosciences5020117.
DOI
|
15 |
McCool, D. K., G. R. Foster, C. K. Mutchler, and L. D. Meyer, 1989. Revised slope length factor for the Universal Soil Loss Equation. Transactions of the ASAE 32: 1571-1576. doi:10.13031/2013.31192.
DOI
|
16 |
Ministry of Environment, 2012. A bulletin on the survey of the erosion of topsoil. Sejong-si: Ministry of Environment.
|
17 |
Mitasova, H., J. Hofierka, M. Zlocha, and R. L. Iverson, 1996. Modeling topographic potential for erosion and deposition using GIS. International Journal of Geographical Information Science 10(5): 629-641. doi:10.1080/026937996137918.
DOI
|
18 |
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. doi:10.2136/sssaj1986.03615995005000050042x.
DOI
|
19 |
Moore, I. D., and J. P. Wilson, 1992. Length-slope factors for the Revised Universal Soil Loss Equation: Simplified method of estimation. Journal of Soil and Water Conservation 47: 423-428.
|
20 |
Park, Y. S., and B. A. Engel, 2014. Use of pollutant load regression models with various sampling frequencies for annual load estimation. Water 6: 1685-1697. doi:10.3390/w6061685.
DOI
|
21 |
Park, Y. S., and B. A. Engel, 2015. Analysis for regression model behavior by sampling strategy for annual pollutant load estimation. Journal of Environmental Quality 44(6): 1843-1851. doi:10.2134/jeq2015.03.0137.
DOI
|
22 |
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.
|
23 |
Yu, N. Y., M. H. Shin, J. Kim, and Y. S. Park, 2017b. Application of ArcGIS-based model developed to estimate monthly potential soil loss. Journal of the Korean Society of Agricultural Engineers 59(5): 109-126. doi:10.5389/KSAE.2017.59.5.109 (in Korean).
DOI
|
24 |
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.
|
25 |
Yu, N. Y., D. J. Lee, J. H. Han, K. J. Lim, J. Kim, K. H. Kim, S. Kim, E. S. Kim, and Y. S. Park, 2017a. Development of ArcGIS-based model to estimate monthly potential soil loss. Journal of the Korean Society of Agricultural Engineers 59(1): 21-30. doi:10.5389/KSAE.2017.59.1.021 (in Korean).
DOI
|