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A Study to Develop Monthly Cover Management Factor Database for Monthly Soil Loss Estimation

월단위 토양유실가능추정치를 위한 지표피복인자의 산정 방안 연구

  • Sung, Yun Soo (Department of Regional Infrastructures Engineering, Kangwon National University) ;
  • Jung, Yunghun (Water Resources Research Center, K-water Institute) ;
  • Lim, Kyoung Jae (Department of Regional Infrastructures Engineering, Kangwon National University) ;
  • Kim, Jonggun (Department of Regional Infrastructures Engineering, Kangwon National University) ;
  • Kim, Ki-Sung (Department of Regional Infrastructures Engineering, Kangwon National University) ;
  • Park, Seung Ki (Faculty of Rural construction Engineering, Kongju National University) ;
  • Shin, Min Hwan (Korea Water Environment Research Institute) ;
  • Kum, Dong Hyuk (Department of Regional Infrastructures Engineering, Kangwon National University) ;
  • Park, Youn Shik (Faculty of Rural construction Engineering, Kongju National University)
  • Received : 2016.07.25
  • Accepted : 2016.09.28
  • Published : 2016.11.30

Abstract

Soil loss is an accompanying phenomenon of hydrologic cycle in watersheds. Both rainfall drops and runoff lead to soil particle detachment, the detached soil particles are transported into streams by runoff. Here, a sediment-laden water problem can be issued if soil particles are severely detached and transported into stream in the watershed. There is a need to estimate or simulate soil erosion in watersheds so that an adequate plan to manage soil erosion can be established. Universal Soil Loss Equation (USLE), therefore, was developed and modified by many researchers for their watersheds, moreover the simple model, USLE, has been employed in many hydrologic models for soil erosion simulations. While the USLE has been applied even in South-Korea, the model is often regarded as being limited in applications for the watersheds in South-Korea since monthly conditions against soil erosion on soil surface are not capable to represent. Thus, the monthly USLE factors against soil erosion, soil erodibility and crop management factors, were established for four major watersheds, which are Daecheong-dam, Soyang-dam, Juam-dam, and Imha-dam watersheds. The monthly factors were established by recent fifteen years from 2000 to 2015. Five crops were selected for the monthly crop management factor establishments. Soil loss estimations with the modified factors were compared to conventional approach that is average annual estimations. The differences ranged from 9.3 % (Juam-dam watershed) to 28.1 % (Daecheong-dam watershed), since the conventional approaches were not capable of seasonally and regionally different conditions.

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References

  1. Arnold, J. G. and R. Srinivasan, 1994. Integration of a BASINscale 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
  2. Chandramohan, T., B. Venkatesh, and A. N. Balchand, 2015. Evaluation of three soil erosion models for small watersheds. Aquatic Procedia 4: 1277-1234.
  3. Choi, J. W., G. W. Hyun, J. W. Lee, D. S. Shin, K. S. Kim, Y. S. Park, J. G. Kim, and K. J. Lim, 2009. Evaluation of Sediment Yield Prediction and Estimation of Sediment Yield under Various Slope Scenarios at Jawoon-ri using WEPP Watershed Model. Journal of Korean Society on Water Environment 25(3): 441-451.(in Korean)
  4. 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
  5. Jung, K. H., W. T. Kim, S. O. Hur, S. K. Ha, P. K. Jung, and Y. S. Jung, 2004. USLE/RUSLE factors for national scale soil loss estimation based on the digital detailed soil map. Korean Journal of Soil Science and Fertilizer 37(4): 199-206 (in Korean).
  6. Kim, D. I., 2012. The alternative analysis of the basin turbidity reduction Effects on The Reservoir and Downstream River. Ph.D. diss., Sangju-si, Gyeongsangbuk-do: Kyungpook National University (in Korean).
  7. Kim, M. S., J. K. Kim, J. K., 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.
  8. Kum, D., Y. S. Park, Y. H. Jung, M. H. Shin, J. Ryu, J. H. Park, J. E. Yang, and K. J. Lim, 2015. Analysis of rainfall-runoff characteristics on bias correction method of climate change scenarios. Journal of Korean Society on Water Environment 31(3): 241-252 (in Korean). https://doi.org/10.15681/KSWE.2015.31.3.241
  9. Lee, D. J., J. M. Lee, D. 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. https://doi.org/10.15681/KSWE.2014.30.6.638
  10. Ministry of Environment, 2012. A bulletin on the survey of the erosion of topsoil. Sejong-si, Republic of Korea.
  11. Park, Y. S., J. G. Kim, N. W. Kim, S. J. Kim, J. H. 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
  12. Wischmeier, W. H. and D. D. Smith, 1978. Predicting Rainfall Erosion Losses. A Guide to Conservation Planning. The USDA Agricultural Handbook No. 537. US Department of Agriculture, General Publishing Office, Washington, DC. p. 85.