Aims & Scope | Editorial Board| Review Policy | Ethical Policy | Open Access | Contact us
Archives | Search

Reduction of Soil Loss from Sloped Agricultural Field by using Organic Compost
Il-Ha Koh¹·Hui-Cheon Kang¹·Yo Seb Kwon^1,2·Chan Yu³·Mun-Ho Jeong⁴·Won Hyun Ji^4,*
¹National Environment Lab. (NeLab), Seoul 02841, Korea
²Department of Energy and Mineral Resources Engineering, Sejong University, Seoul 05006, Korea
³Department of Agricultural Engineering, Gyeongsang National University, Jinju 52828, Korea
⁴Institute of Mine Reclamation Technology, Mine Reclamation Corporation, Gangwon-Do 26464, Korea
유기퇴비를 이용한 급경사 농경지 토양유실 저감
고일하¹·강희천¹·권요셉¹^,2·유 찬³·정문호⁴·지원현⁴^,*
¹환경기술정책연구원 (NeLab)
²세종대학교 에너지자원공학과
³경상대학교 지역환경기반공학과
⁴한국광해관리공단 기술연구소

References

1. Brady, N.C. and Weil, R.R., 2014, Elements of the Nature and Properties of Soils, Pearson Education Limited.
2. Chae, J.C., Park, S.J., Kang, B.H., and Kim, S.H., 2013, Principles of Crop Cultivation, Hyangmunsa.
3. 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 Journal of Environmental Agriculture, 28(3), 249-257.
4. Cho, S.J., Park, C.S., Um, D.I., 2002, Soil Science, Hyangmunsa.
5. Dong, J., Zhang, K., and Guo, Z., 2012, Runoff and soil erosion from highway construction spoil deposits: a rainfall simulation study, TRANSPORT RES D, 17(1), 8-14.
6. Eu, S., Li, Q., Lee, E.J., and Im, S.J., 2015, Predicting surface runoff and soil erosion from an unpaved forest road using rainfall sim-ulation, J. Korean Env. Res. Tech., 18(3), 13-22.
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, Journal of Korean Society on Water Environment, 24(2), 185-194.
8. Hwang, E., Jo, B.J., Seo, S.D., Park, S.W., Do, D.H., Lee, K.C., Um, B.H., and Kim, C.K., 1993, Agricultural Land Engineering, Hyangmunsa.
9. 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, Korea, p.232.
10. John, Y.W., 1997, Earth Resource and Environment, SNU press.
11. Jo, S.J., Park, C.S., and Um, D.I., 2002, Soil Science, Hyangmunsa.
12. Kim, G.H., Kim, K.Y., Kim, J.G., Sa, D.M., Seo, J.S., Son, B.G., Yang, J.E., Eom, K.C., Lee, S.E., Jeong, G.Y., Jeong, D.Y., Jeong, Y.T., Jeong, J.B., and Hyun, H.N., 2009, Soil Science, Hyangmunsa.
13. Kim, K.N., 2013, Plant, Soil and Fertilizer, Moaadcom
14. KME (Korea Ministry of Environment), 2001, A Study on the Conservation of Surface Soil and Erosion Control.
15. 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 mix-tures under rainfall simulation, J. Soil Groundwater Environ., 23(3), 43-50.
16. Koh, I.H., Yu, C., Park, M.J., and Ji, W.H., 2019, Reduction of soil loss from sloped agricultural field by using hydrated lime, J. Soil Groundwater Environ., 24(2), 1-7.
17. 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 rain-fall simulator experiment, Korean J. Soil Sci. Fert., 45(6), 877-881.
18. 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.
19. NAAS (National Academy of Agricultural Science), 2010, Methods of soil chemical analysis.
20. Osborn, B., 1954, Effectiveness of cover in reducing soil splash by raindrop impact, J SOIL WATER CONSERV, 9, 70-76.
21. 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.
22. Sparks, D.L., 1995, Environmental Soil Chemistry, Academic Press, San Diego, New York, Boston, London, Sydney, Tokyo, To-ronto.
23. 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(16-17), 2921-2943.
24. Yang, J.E., Jung, J.B., Kim, J.E., and Lee,G.S., 2008, Ag-Environmental Science, CIR.
25. Yun, S.W., Jin, H.G., Kang, S.I., Choi, S.J., Lim, Y.C., and Yu, C., 2010, A comparison on the effect of soil improvement methods for the remediation of heavy metal contamination farm land soil, J. Korean Geotechnical Society, 26(7), 59-70.

This Article

2020; 25(4): 48-57

Published on Dec 31, 2020
10.7857/JSGE.2020.25.4.048
Received on Sep 17, 2020
Revised on Oct 12, 2020
Accepted on Dec 2, 2020

Services

References
Pdf

Shared

Correspondence to

Won Hyun Ji
Institute of Mine Reclamation Technology, Mine Reclamation Corporation, Gangwon-Do 26464, Korea
E-mail: greenidea@mireco.or.kr