[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7745/KJSSF.2016.49.3.287

Effects of Soil Neutralizing Treatments on Soil Characteristics and Growth of Aster koraiensis in the Acid Soil of Abandoned Metal Mine

Jung, Mun Ho (Institute of Mine Reclamation Technology, Mine Reclamation Corporation)
Lee, Sang Hwan (Institute of Mine Reclamation Technology, Mine Reclamation Corporation)
Kim, Yoon Su (Institute of Mine Reclamation Technology, Mine Reclamation Corporation)
Park, Mi Jeong (Institute of Mine Reclamation Technology, Mine Reclamation Corporation)

Publication Information

Korean Journal of Soil Science and Fertilizer / v.49, no.3, 2016 , pp. 287-292 More about this Journal

Abstract

The objectives of this study were to investigate the effects of soil neutralizing treatments on soil characteristics and growth of Aster koraiensis in the acid soil of abandoned metal mine for selection of proper neutralizer. The most effective neutralizers were acid mine drainage sludge, waste lime + oyster and compost. Those neutralizing treatments showed promoting growth of Aster koraiensis. According to this study, it is applicable of acid mine drainage sludge, waste lime + oyster and compost to neutralize acid soil for rehabilitation in abandoned metal mine. However, follow-up study is necessary to calculate proper ratio of each neutralizer.

Keywords

Abandoned metal mine; Acid soil; Soil neutralizing treatment; Aster koraiensis;

Citations & Related Records

Times Cited By KSCI : 4 (Citation Analysis)

Reference
Cited By KSCI

1	Garcia-Gil, J.C., C. Plaza, P. Soler-Rovira, and A. Polo. 2000. Long-term effects of municipal solid waste compost application on soil enzyme activities and microbial biomass. Soil Biol. Bioch. 32:1907-1913. DOI
2	Grewilling, T. and M. Peech. 1960. Chemical soil tests. Cornell Univ. Agric. Exp. Stn. Bull. no.960.
3	Jeong, J.H., K.S. Koo, C.H. Lee, and C.S. Kim. 2002. Physio-chemical properties of Korean forest soil by regions. J. Korean For. Soc. 91(6):694-700.
4	Jin, H.O, M.J. Lee, Y.O. Shin, J.J. Kim, and S.K, Jun. 1994. Forest Soil. Hyangmoonsa, Seoul, Korea.
5	Joa, J.H., D.G. Moon, H.Y. Won, S.W. Koh, H.N. Hyun, and C.E. Lee. 2010. Effect of consequent application of pig aanure compost on soil chemical properties and dehydrogenase activity in volcanic ash soil. Korean J. Soil Sci. Fert. 43(3):283-288
6	Jung, M.H., T.H. Kim, and H.S. Kim. 2011. Assesment and Selection of Design Factors for Rehabilitation of Abandoned Mine Areas. MIRECO. Annual Report.
7	Jung, M.H., T.H. Kim, and H.S. Jang. 2012. Development of Post-monitoring in Forest Rehabilitation Areas. MIRECO. Annual Report.
8	Jung, M.H., Y.S. Shim, T.H. Kim, J.Y. Oh, and Y.S. Jung. 2012. Characteristics of soil chemical properties in abandoned coal mine forest rehabilitation areas in Mungyeong, Gyeongsangbuk-do. Korean J. Soil Sci. Fert. 45(5):733-737. DOI
9	Kjeldahl, J. 1883. Neue methode zur bestimmung des stickstoffs in organischen korpern. Z. Anal. Chem. 22:366-382. DOI
10	Kim, H.J., J. Yang, J.Y. Lee, and H.J. Sang. 2006. Leaching characteristics of heavy metals from abandoned mines wastes in the Namhan River Shore, Korean Soc. Soil & Ground water Envt, Annual Meetings. pp. 201-207.
11	KSInfo. 2015. Mine Reclamation-Mine Areas-Covering for Rehabilitation of Abandoned Coal Mine Areas-Requirement for Quality. http://standard.ats.go.kr/CODE02/USER/0B/03/SerKS_View.asp.
12	Lee. J.D., T.D. Kim, S.G. Kim, and H.J. Kim. 2013. Study on the contamination characteristics of pollutants at various type of abandoned metal mines. J. Soil & Ground water Env. 18(3): 93-108. DOI
13	Lee, K.J. 2001. Tree Physiology. 2nd ed., Seoul Univ., Seoul, Korea.
14	Lee, Y.H. and S.K. Ha. 2011. Impacts of chemical properties on microbial population from upland soils in Gyeongnam Province. Korean J. Soil Sci. Fert. 44(2): 242-247. DOI
15	Peech, M., L.A. Dean, and J. Reed. 1947. Methods of soil analysis for soil fertility investigation. U.S. Dep. Agric. Circ. 757.
16	MIRECO. 2014. YEAR BOOK OF MIRECO STATISTICS (2014). MIRECO. Annual Report.
17	Oh, S.J., M.H. Cho, C.O. Park. M.H. Jung, and J.Y. Lee. 2012. A study on the development of soil neutralizing-agent using saste materials (waste-lime, oyster, bottom-ash). J. Soil Ground water Environ. 17(6): 92-101. DOI
18	Park, B.Y., Y.W. Uh, S.Y. Yang, S.M. Jang, J.H. Kim, and D.H. Lee. 2001. A study on the acidification of soil. J. Korean Envi. Sci. Soc. 10(4): 305-310.
19	Sourkova. M., J. Frouz, and H. Santruckova. 2005. Accumulation of carbon, nitrogen and phosphorus during soil formation on alder spoil heaps after brown-coal mining, near Sokolov (Czech Republic). Geoderma. 124:203-214. DOI
20	Sukul, P. 2006. Enzymatic activities and microbial biomass in soil as influenced by metalaxyl residues. Soil Biol. Biochem. 38:320-326. DOI
21	Tomoyoshi M., K.K. Masami, and T. Takejiro. 2005. Effects of Pb, Cu, Sb, In and Ag contamination on the proliferation of soil bacterial colonies, soil dehydrogenase activity, and phospholipid fatty acid profiles of soil microbial communities. Water Air soil poll. 164:103-118. DOI
22	Troug, E. 1947. Soil reaction influence on availability of plant nutrients. Soil Sci. Soc. Amer. Proc. 11:305-308. DOI
23	Walkely, A. 1947. A critical examination of a rapid method for determining organic carbon in soils: Effect of variations in digestion conditions and of inorganic soil constituents. Soil Sci. 63:251-263. DOI
24	Wyszkowska, J., J. Kucharski, and W. Lajszner. 2005. Enzymatic activities in different soils contaminated with copper. P. J. Environ. Stu. 14:659-664.
25	Yang, J.E, K.Y. You, W.I. Kim, G.B. Jung, and S.P. Lee. 2005. Ecotoxicological assessment of soil contaminated and remediation effect. NIAST. Anual report.