Heavy metal chemistry in soils received long-term application of organic wastes

Soon-Ik Kwon; Yeon-Ah Jang; Kye-Hoon Kim; Goo-Bok Jung; Min-Kyeong Kim; Hae Hwang; Mi-Jin Chae; Seung-Chang Hong; Kyu-Ho So; Sun-Gang Yun; Kwon-Rae Kim

doi:10.4236/jacen.2012.11001

Journal of Agricultural Chemistry and Environment > Vol.1 No.1, November 2012

Heavy metal chemistry in soils received long-term application of organic wastes

Soon-Ik Kwon, Yeon-Ah Jang, Kye-Hoon Kim, Goo-Bok Jung, Min-Kyeong Kim, Hae Hwang, Mi-Jin Chae, Seung-Chang Hong, Kyu-Ho So, Sun-Gang Yun, Kwon-Rae Kim
Gyeongnam National University of Science and Technology, Jinju, South Korea.
National Academy of Agricultural Science (NAAS), RDA, Suwon, South Korea.
The University of Seoul, Seoul, South Korea.
DOI: 10.4236/jacen.2012.11001 PDF HTML 5,142 Downloads 11,141 Views Citations

Abstract

This study was carried out to understand the long-term effect of organic waste treatment on the fate of heavy metals originated from the organic wastes, together with examination of changes in soil properties. For this, the soils received three different organic wastes (municipal sewage sludge, alcohol fermentation processing sludge, pig manure compost) in three different rates (12.5, 25, 50 ton/ha/yr) for 7 years (1994 - 2000) were used. To see the long-term effect, plant growth study and soil examination were conducted twice in 2000 and 2010, respectively. There was no additional treatment of organic wastes for post ten years after ceasing organic waste treatment for seven years. Soil examination conducted in 2010 showed decreases in soil pH, EC, total nitrogen, organic matter, available phosphorus, exchangeable cations and heavy metal contents in all soils received organic wastes compared to the results obtained in 2000. Speciation of heavy metals in soil through sequential extraction showed that organically bound Cu was the dominant species in all treatment and exchangeable Cu was increased in the plots treated with municipal sewage sludge and alcohol fermentation processing sludge. organically bound Ni increased from 25% - 30% to 32% - 45% in 2010 inall treatment while Pb showed increase in carbonate form in all treatments. Zn existed mainly as sulfide and residual forms, showing increases in organically bound form in all treatment during post ten years.

Keywords

Heavy Metal; Long-Term Application; Organic Wastes; Sequential Extraction

Share and Cite:

S. Kwon, Y. Jang, K. Kim, G. Jung, M. Kim, H. Hwang, M. Chae, S. Hong, K. So, S. Yun and K. Kim, "Heavy metal chemistry in soils received long-term application of organic wastes," Journal of Agricultural Chemistry and Environment, Vol. 1 No. 1, 2012, pp. 1-9. doi: 10.4236/jacen.2012.11001.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	NIER (2004) Resource recycling of waste management status and prospects. National Institute of Environmental Research, Chon, 129-153.
[2]	NIAST (2003) Agricultural utilization of organic wastes and its environmental risk assessments. National Institute of Agricultural Science and Technology, RDA, Suwon, 49-103.
[3]	Epstein, E., Taylor, J.M. and Chaney, R.L. (1976) Effects of sewage sludge and sludge compost applied to soils on some physical and chemical properties. Journal of Environmental Quality, 5, 422-426. doi:10.2134/jeq1976.00472425000500040021x
[4]	Smith, S.R. (1996) Agricultural recycling of sewage sludge and the environment. CAB International. Wallingford, 382.
[5]	Kim, K.-R., Owens, G. and Naidu, R. (2009) Heavy metal distribution, bioaccessibility and phytoavailability in longterm contaminated soils from Lake Macquarie. Australian Journal of Soil Research, 47, 166-176. doi:10.1071/SR08054
[6]	Nicholson, F.A., Chambers, B.J. and Alloway, B.J. (1997) Effect of soil pH on heavy metal bioavailability. Proceeding of Fourth International Conference on the Biogeochemistry of Trace Elements, Berkeley, 23-26 June 1997, 499-500.
[7]	Zhao, F.J., Dunham, S.J. and McGrath, S.P. (1997) Lessons to be learned about soil-plant metal transfers from the 50-year sewage sludge experiment at Woburn, UK. Fourth International Conference on the Biogeochemistry of Trace Elements, Berkeley, 23-26 June 1997, 693-694.
[8]	Horn, A.L., Düring, R.-A. and G?th, S. (2003) Comparison of decision support systems for an optimised application of compost and sewage sludge on agricultural land based on heavy metal accumulation in soil. Science of the Total Environment, 311, 35-48. doi:10.1016/S0048-9697(03)00133-5
[9]	Moolenaar, S.W., Lexmond, T.M. and van der Zee, S.E.A.T.M. (1997) Calculating heavy metal accumulation in soil: A comparison of methods illustrated by a casestudy on compost application. Agricultural Ecosystem and Environment, 66, 71-82. doi:10.1016/S0167-8809(97)00087-X
[10]	MIFAFF (2012) Fertilizer Management Act 2012. Ministry for Food, Agriculture, Forestry and Fisheries, Seoul.
[11]	Nelson, D.W. and Sommers, L.E. (1996) Total carbon, organic carbon, and organic matter. In: Page, A.L., et al. (Eds.), Methods of Soil Analysis, Part 2. Chemical Analysis, 2nd Edition, Soil Science Society of America, Madison, 961-1110.
[12]	Bremner, J.M. (1996) Nirogen-total. In: Sparks, D.L., et al. (Eds.), Methods of soil analysis. Part 3. Chemical Methods. SSSA and ASA, Madison, 1085-1121.
[13]	Miller, W.P. and Miller, M. (1987) A micro pipette method for soil mechanical analysis. Communications in Soil Science and Plant Analysis, 18, 1-15. doi:10.1080/00103628709367799
[14]	Sumner, M.E. and Miller, W.P. (1996) Cation exchange capacity and exchange coefficients. In: Sparks, D.L., et al. Eds., Methods of Soil Analysis Part 3. Chemical Methods, Soil Science Society of America, Madison.
[15]	Kim, K.-R., Owens, G. and Naidu, R. (2010) Effect of root-induced chemical changes on dynamics and plant uptake of heavy metals in rhizosphere soils. Pedosphere, 20, 494-504. doi:10.1016/S1002-0160(10)60039-2
[16]	MoE (2007) Soil Environment Conservation Act 2007. Ministry of Environment, Seoul.
[17]	Chang, A.C., Page, A.L., Warneke, J.E. and Grgurevic, E. (1984) Sequential extraction of heavy metals following a sludge application. Journal of Environmental Quality, 13, 33-38. doi:10.2134/jeq1984.00472425001300010006x
[18]	Kim, J.G., Lee, K.B., Lee, S.B., Lee, D.B. and Kim, S.J. (2000) The effect of long-term application of different organic material sources on chemical properties of upland soil. Korean Journal of Soil Science and Fertilizer, 33, 416-431.
[19]	Businelli, D., Massaccesi, L., Said-Pullicino, D. and Gigliotti, G. (2009) Long-term distribution, mobility and plant availability of compost-derived heavy metals in a landfill covering soil. Science of the Total Environment, 407, 1426-1435. doi:10.1016/j.scitotenv.2008.10.052
[20]	Kim, K.-R., Owens, G., Naidu, R. and Kim, K.-H. (2007) Hyperaccumulation mechanism in plants and the effects of roots on rhizosphere soil chemistry: A critical review. Korean Journal of Soil Science and Fertilizer, 40, 280-291.
[21]	Jung, G.B., Kim, W.I. and Ryu, I.S. (2000) Fractionation and availability of heavy metals in paddy soils near abandoned mining areas. Korean Journal of Environmental Agriculture, 19, 319-323.
[22]	Yoo, S.H., Lee, J.R. and Kim, K.H. (1995) Sequential extraction of Cd, Zn, Cu, and Pb from the polluted paddy soils and their behavior. Korean Journal of Soil Science and Fertilizer, 28, 207-217.

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