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Journal of the Korean Society of Civil Engineers

Journal of the Korean Society of Civil Engineers

ISO Journal TitleKSCE J. Civ. Environ. Eng. Res.
  • Open Access, Bi-monthly

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  3. 2020-02 (v.40 n.1)
  4. 10.12652/Ksce.2020.40.1.0111
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1 
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2 
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3 
Foster, G. R., Yoder, D. C., Weesies, G. A., McCool, D. K., McGregor, K. C. and Bingner, R. L. (2003). RUSLE 2.0 user's guide." USDA-Agricultural Research Service, Washington D.C.
4 
Jung, P. K., Ko, M. H., Im, J. N., Um, K. T. and Choi, D. U. (1983). "Rainfall erosion factor for estimating soil loss." Korean Journal of Soil Science and Fertilizer, Vol. 16, No. 2, pp. 112-118 (in Korean).
5 
Kim, J. G., Yang, D. Y. and Kim, M. S. (2010). "Evaluation physical characteristics of raindrop in Anseung, Gyeonggi province." Journal of the Korean Geomorphological Association, Vol. 17, No. 1, pp. 49-57 (in Korean).
6 
Kim, S. J., Lee, J. H., Shim, J. G. and Choi, B. C. (2017). "Analysis on the characteristics of rainfall kinetic energy at Youngpyung using PARSIVEL observation data." Proceedings of the Autumn Meeting of KMS in 2017, KMS, pp. 170-171 (in Korean).
7 
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8 
Lee, J. H. (2015). "A comparative study on rainfall kinetic energy equations for Korea." Proceedings of the KWRA 2015 Conference, Korea Water Resources Association, pp. 32-36 (in Korean).
9 
Lee, J. H., Shin, J. Y. and Heo, J. H. (2011). "Evaluation of rainfall erosivity in Korea using different kinetic energy equations." Korean Journal of Soil Science and Fertilizer, Vol. 44, No. 3, pp. 337-343 (in Korean).DOI
10 
Lee, J. S. and Won, J. Y. (2013). "Analysis of the characteristic of monthly rainfall erosivity in Korea with derivation of rainfall energy equation." Journal of the Korean Society of Hazard Mitigation, KSHM, Vol. 13, No. 3, pp. 177-184 (in Korean).DOI
11 
Lim, Y. S., Kim, J. W., Kim, J. K. and Park, B. I. (2012). "Evaluation of kinetic energy of raindrops at Daejeon city using laser-optical disdrometer." Journal of the Korean Geomorphological Association, Vol. 19, No. 2, pp. 133-143 (in Korean).
12 
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13 
National Disaster Management Research Institute (NDMI) (2005). A basic study on the development of the soil erosion model in the mountain area (SEMMA), p. 20 (in Korean).
14 
Nearing, M. A., Yin, S. Q., Borrelli, P. and Polyakov, V. O. (2017). "Rainfall erosivity: An historical review." CATENA, Vol. 157, pp. 357-362.DOI
15 
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16 
Park, J. H., Woo, H. S., Pyun, C. K. and Kim, K. I. (2000). "A study of distribution of rainfall erosivity in USLE/RUSLE for estimation of soil loss." Journal of Korea Water Resources Association, KWRA, Vol. 33, No. 5, pp. 603-610 (in Korean).
17 
Renard, K. G., Foster, G. R., Weesies, G. A., McCool, D. K. and Yoder, D. C. (1997). Predicting soil erosion by water: A guide to conservation planning with the revised universal soil loss equation (RUSLE), Agricultural Handbook, No. 703, U. S. Department of Agriculture, Washington, DC, USA.
18 
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19 
Shin, S. S, Park, S. D. and Choi, B. K. (2016). "Universal power law for relationship between rainfall kinetic energy and rainfall intensity." Advances in Meteorology, Vol. 2016, Article ID 2494681, pp. 1-11.DOI
20 
Van Dijk, A. I. J. M., Bruijnzeel, L. A. and Rosewell, C. J. (2002). "Rainfall intensity-kinetic energy relationships: a critical literature appraisal." Journal of Hydrology, Vol. 261, No. 1, pp. 1-23.DOI
21 
Wischmeier, W. H. and Smith, D. D. (1958). "Rainfall energy and its relationship to soil loss." Transactions of the American Geophysical Union, Vol. 39, No. 3, pp. 285-291.DOI
22 
Wischmeier, W. H. and Smith, D. D. (1965). Rainfall-erosion losses from cropland east of the Rocky Mountains-guide for selection of practices for soil and water conservation. Agriculture Handbook, No. 282, U. S. Department of Agriculture, Washington, DC, USA.
23 
Wischmeier, W. H. and Smith, D. D. (1978). Predicting rainfall erosion losses-A guide to conservation planning. Agriculture Handbook, No. 537, U.S. Department of Agriculture, Washington, DC, USA.