한국토양비료학회지 (Korean Journal of Soil Science and Fertilizer)

  • 제44권5호
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  • Pages.773-778
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  • 2011
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  • 0367-6315(pISSN)
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  • 2288-2162(eISSN)
한국토양비료학회 (Korean Society of Soil Science and Fertilizer)
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시설하우스에서 저농도 돈분 액비의 연용이 토양 및 토마토와 오이의 수량에 미치는 영향

Influence of Continuous Application of Low-concentration Swine Slurry on Soil Properties and Yield of Tomato and Cucumber in a Greenhouse

  • 투고 : 2011.08.31
  • 심사 : 2011.10.11
  • 발행 : 2011.10.31
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초록

Long-term continuous application of livestock by-products to agricultural land may adversely affect the soil characteristics and the crop yield. Five year term study from 2007 was carried out to assess the effects of repeated application of low-concentration swine slurry on soil chemical properties including phosphate and heavy metal contents and yield of tomato (Lycopersicon esculentum) and cucumber (Cucumis sativus L.) in a greenhouse. Treatments were conventional chemical fertilizers and three application rates of low-concentration swine slurry (Slurry composting and biofiltration, SCB): 50%, 100%, and 200% of recommended nitrogen fertilization. For swine slurry treatment of 50% nitrogen, deficient nitrogen was supplemented with urea fertilizer. The soil phosphorus and heavy metal contents after five year continuous application of swine slurry were not significantly higher than those of chemical fertilizer use. Repeated application of the swine slurry alone for five years resulted in relatively high soil exchangeable potassium and sodium compared with chemical fertilizer treatment. Contents of heavy metals in leaves of tomato and cucumber did not show significant difference among treatments. Yields of the crops for the swine slurry were not significantly different from that of chemical fertilizer. The results imply that continuous application of the swine slurry may not influence levels of soil phosphate and trace elements in greenhouse soils but could accumulate potassium and sodium in the soil.

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참고문헌

  1. Baker, A.J.M., S.P. McGrath, C.M.D. Sidoli, and R.D. Reevers. 1994. The possibility of in situ heavy metal decontamination of polluted soils using crops of metalaccumulating plants. Res. Conserv. Recycling. 11:41-49. https://doi.org/10.1016/0921-3449(94)90077-9
  2. Ha, H.S., M.S. Yang, H. Lee, Y.B. Lee, B.K. Sohn, and U.G. Kang. 1997. Soil chemical properties and plant mineral contents in plastic film house in southern part of Korea. Korean J. Soil Sci. Fert. 30:272-279.
  3. James, D.W., J. Jotuby-Amacher, G.L. Anderson, and D.A. Huber. 1996. Phosphorus mobility in calcareous soils under heavy manuring. J. Environ. Qual. 25:770-775.
  4. Jensen, M.B., P.R. Jorgensen, H.C.B. Hansen, and N.E. Nielsen. 1998. Biopore mediated subsurface transport of dissolved orthophosphate. J. Environ. Qual. 27:1130-1137.
  5. Jones, J.B. 1991. Plant tissue analysis in micronutrients. p. 477-521. In Mortvedt, J.J. et al. (ed.) Micronutrient in agriculture (2nd ed.). Soil Science Society of America book series 4, Madison, WI, USA.
  6. Jung, G.B., K.Y. Jung, G.H. Cho, B.G. Jung, and K.S. Kim. 1997. Heavy metal contents in soils and vegetables in the plastic film house. Korean J. Soil Sci. Fert. 30:152-160.
  7. Kabata-Pendias, A. 2011. Trace Elements in Soils and Plants (4th ed.). CRC Press. Boca Raton, FL, USA.
  8. Kostat. 2011. http://kosis.kr/abroad/abroad_01List.jsp. Staticstics Korea. Daejeon, Korea.
  9. Kunkle, W.E., L.E. Carr, T.A. Carter, and E.H. Bossard. 1981. Effect of flock and floor type of the levels of nutrient and heavy metals in broiler litter. Poultry Sci. 60:1160-1164. https://doi.org/10.3382/ps.0601160
  10. Lee, Y. 2006. Nitrogen management in Korean agriculture. In Nitrogen Behavior and Effective Management in Agro-Ecosystem. Korea-Japan Joint International Symposium. Rural Development Administration. Suwon. Rep. of Korea.
  11. Lim, D.K., S.B. Lee, S.I. Kwon, S.H. Lee, K.H. So, K.S. Sung, and M.H. Koh. 2004. Effect of pharmaceutical byproduct and cosmetic industry waste water sludge as raw materials of compost on damage of red pepper cultivation. Korean J. Environ. Agr. 23:211-219. https://doi.org/10.5338/KJEA.2004.23.4.211
  12. Lim, T.J., I.B. Lee, S.B. Kang, J.M. Park, and S.D. Hong. 2009. Effects of continual pre-plant application of pig slurry on soil mineral nutrients and yield of Chinese cabbage. Korean J. Environ. Agr. 28:227-232. https://doi.org/10.5338/KJEA.2009.28.3.227
  13. Lloveras, J., M. Aran, P. Villar, A. Ballesta, and A. Arcaya. 2004. Effect of swine slurry on alfalfa production and on tissue and soil nutrient concentration. Agron. J. 96:986-991. https://doi.org/10.2134/agronj2004.0986
  14. Macnicol, R.D. and P.H.T. Beckett. 1985. Critical tissue concentrations of potentially toxic elements. Plant Soil. 85:107-129. https://doi.org/10.1007/BF02197805
  15. Marschner, H. 2002. Mineral nutrition of higher plants (2nd ed.). pp 333-364. Academic Press. London. UK.
  16. McLean, E.O. and M.D. Carbonell. 1972. Calcium, magnesium, and potassium saturation ratios in two soils and their effects upon yields and nutrient contents of German millet and alfalfa. Soil Sci. Soc. Am. J. 36:927-930. https://doi.org/10.2136/sssaj1972.03615995003600060027x
  17. Moreno-Caselles, J., R. Moral, M.D. Perez-Murcia, A. Perez- Espinosa, C. Paredes, and E. Agullo. 2005. Fe, Cu, Mn, and Zn input and availability in calcareous soils amended with the solid phase pig slurry. Commun. Soil Sci. Plant Anal. 36:525-534. https://doi.org/10.1081/CSS-200043279
  18. Morrison, J.L. 1969. Distribution of arsenic from poultry litter in broiler chickens, soil and crops. J. Agric. Food Chem. 17:1288-1290. https://doi.org/10.1021/jf60166a018
  19. National Academy of Agricultural Science (NAAS). 1999. Annual Report of Research and Development for Agricultural Environment in 1998. National Academy of Agricultural Science, RDA, Suwon, Korea.
  20. National Academy of Agricultural Science (NAAS). 2000. Methods of soil chemical analysis. National Academy of Agricultural Science, RDA, Suwon, Korea.
  21. Scott, C., L.D. Geohring, and M.F. Walter. 1998. Water quality impacts of tile drains in shallow, sloping, structured soils as affected by manure applications. Appl. Eng. Agric. 14:593-603.
  22. Seo, Y.H., B.O. Cho, J.K. Choi, A.S. Kang, B.C. Jeong, and Y.S. Jung. 2010. Impact of continuous application of swine slurry on changes in soil properties and yields of tomatoes and cucumbers in a greenhouse. Korean J. Soil Sci. Fert. 43:446-452.
  23. Seo, Y., J. Lee, W.E. Hart, H.P. Denton, D.C. Yoder, M.E. Essington, and E. Perfect. 2005. Sediment loss and nutrient runoff from three fertilizer application methods. Trans. ASABE. 48:2155-2162. https://doi.org/10.13031/2013.20101
  24. Stout, W.L. and D.E. Baker. 1981. Effect of differential adsorption of potassium and magnesium in soils on magnesium uptake by corn. Soil Sci. Soc. Am. J. 45:996-1002. https://doi.org/10.2136/sssaj1981.03615995004500050037x
  25. Tufft, L.S. and C.F. Nockels. 1991. The effects of stress, Escherichia coli, dietary EDTA, and their interaction of tissue trace elements in chicks. Poultry Sci. 70:2439-2449. https://doi.org/10.3382/ps.0702439

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