All Issue

2019 Vol.24, Issue 2
30 April 2019. pp. 1 ~ 7
Abstract
The feasibility of using hydrated lime ($Ca(OH)_2$) was assessed in reducing soil loss in sloped land under field condition. During 6-month monitoring from May to October, amendment of hydrated lime (3%, w/w) to a test plot decreased soil loss by 76% as compared to the unamended plot. However, the growth of natural vegetation was hampered by hydrated lime addition due to pH increase. Hydrated lime can be used as an effective agent to prevent soil loss in sloped land, but additional treatments are needed to preserve vegetation growth, especially in crop fields.

References
  1. Brady, N.C. and Weil, R.R., 2014, Elements of the Nature and Properties of Soils, Pearson Education Limited.
  2. Branson, F.A. and Owen, J.B., 1970, Plant cover, runoff, and sediment yield relationships on Mancos shale in Western Colorado, Water Resour. Res., 6, 184-790.
  3. Chae, J.C., Park, S.J., Kang, B.H., and Kim, S.H., 2013, Principles of Crop Cultivation, Hyangmunsa.
  4. Choi, B.S. Lim, J.E., Choi, Y.B., Lim, K.J., Choi, J.D., Joo, J.H., Yang, J.E., and Ok, Y.S., 2009, Applicability of PAM (polyacrylamide) in soil erosion prevention: rainfall simulation experiments, Korean J. Soil Sci. Fert., 28(3), 249-257.
  5. Cho, S.J., Park, C.S., and Um, D.I., 2002, Soil Science, Hyangmunsa.
  6. Greene, R.S.B., Kinnell, P.I.A., and Wood, J.T., 1994, Role of plant cover and stock trampling on runoff and soil erosion from semi-arid wooded rangelands, Aust. J. Soil Res., 32, 953-973.10.1071/SR9940953
  7. Heo, S.G., Jun, M.S., Park, S.H., Kim, K.S., Kang, S.K., Ok, Y.S., and Lim, K.J., 2008, Analysis of soil erosion reduction ratio with changes in soil reconditioning amount for highland agricultural crops, Korean J. Soil Sci. Fert., 24(2), 185-194.
  8. Hwang, W.J., Bang, H.W., Hyun, S.H., Ji, W.H., and Lee., S.H., 2016, Assessment of several amendments for soil erosion reduction in sloping land, Proceedings of KoSSGE 2016 fall conference, Daejeon, Koea, p.232.
  9. Hur, S.O., Jung, K.H., Ha, S.K., Kwak, H.K., and Kim, J.G., 2005, Mathematical description of soil loss by runoff at inclined upland of maize cultivation, Korean J. Soil Sci. Fert., 38(2), 66-71.
  10. Kainz, M., 1989, Runoff, erosion and sugar beet yields in conventional and mulched cultivation. Results of the 1988 experiment, In: U.R. Schwertmann, R.J. Rickson, K. Auerswald (ed.), Soil Protection Measures in Europe, Soil Technology Series 1, p.103-114.
  11. Kim, K.N., 2013, Plant, Soil and Fertilizer, Moa-adcom.
  12. KME (Korea Ministry of Environment), 2001, A Study on the Conservation of Surface Soil and Erosion Control, 6-8 p.
  13. Koh, I.H., Roh, H., Hwang, W.J., Seo, H.G., and Ji, W.H., 2018, Reducing soil loss of sloped land using lime-organic compost mixtures under rainfall simulation, J. Soil Groundwater Environ., 23(3), 43-50.10.7857/JSGE.2018.23.3.043
  14. Lee, G.J., Lee, J.T., Ryu, J.S., Oh, D.S., and Kim, J.S., 2012, Effects of slope gradient and rainfall intensity on soil losses with rainfall simulator experiment, Korean J. Soil Sci. Fert., 45(6), 877-881.10.7745/KJSSF.2012.45.6.877
  15. Lee, J.T., Lee, G.J., Ryu, J.S., Park, S.H., Han, K.H., and Zhang, Y.S., 2011, Evaluation of surface covering methods for reducing soil loss of highland slope in radish cultivation, Korean J. Soil Sci. Fert., 44(5), 667-673.10.7745/KJSSF.2011.44.5.667
  16. Lee, M.H., Choi, S.I., Lee, J.Y., Lee, G.K., and Park, J.W., 2008, Soil & Groundwater Environment, Donghwa Technology Publishing Co..
  17. NAAS (National Academy of Agricultural Science), 2010, Methods of soil chemical analysis.
  18. Oh, Y.J., Kim, M.H., Na, Y.E., Hong, S.H., Paik, W.K., and Yoon, S.T., 2012, Vulnerability assessment of soil loss in farm area to climate change adaption, Korean J. Soil Sci. Fert., 45(5), 711-716.10.7745/KJSSF.2012.45.5.711
  19. Osborn, B., 1954, Effectiveness of cover in reducing soil splash by raindrop impact, J SOIL WATER CONSERV, 9, 70-76.
  20. Park, C.S., Jung, Y.S., Joo, J.H., and Lee, J.T., 2005, Best management practices reducing soil loss in the saprolite piled upland in Hongcheon highland, Korean J. Soil Sci. Fert., 38(3), 119-126.
  21. Park, C.W., Sonn, Y.K., Hyun, B.K., Song, K.C., Chun, H.C., Moon, Y.H., and Yun, S.G., 2011, The redetermination of USLE rainfall erosion factor for estimation of soill loss at Korea, Korean J. Soil Sci. Fert., 44(6), 977-982.10.7745/KJSSF.2011.44.6.977
  22. Wainwright, J., Parsons, A.J., and Abrahams, A.D., 2000, Plot-scale studies of vegetation, overland flow and erosion interactions: case studies from Arizona and New Mexico, Hydrol. Process, 14, 2921-2943.10.1002/1099-1085(200011/12)14:16/17<2921::AID-HYP127>3.0.CO;2-7
  23. Yang, J.E., Jung, J.B., Kim, J.E., and Lee,G.S., 2008, Ag-Environmental Science, CIR.
  24. Duran Zuazo, V.H. and Rodriguez Pleguezuelo, C.R., 2008, Soil-erosion and runoff prevention by plant covers. A review, Agron. Sustain. Dev., 28,
Information
  • Publisher :The Korean Society of Soil and Groundwater Environment
  • Publisher(Ko) :한국지하수토양환경학회
  • Journal Title :Journal of Soil and Groundwater Environment
  • Journal Title(Ko) :지하수토양환경
  • Volume : 24
  • No :2
  • Pages :1 ~ 7