Korean Journal of Organic Agriculture (한국유기농업학회지)

Korean Association of Organic Agriculture (한국유기농업학회)
권호 표지

Variation of Soil and Leaf in a 'Wonhwang' Pear Orchard Appled by Selenium Solution

셀레늄 처리방법에 따른 '원황' 배 과원의 토양 및 수체 변화

  • 최현석 (국립농업과학원 유기농업과) ;
  • 김월수 (전남대학교 원예학과) ;
  • 김현지 (전라남도 농업기술원 원예연구소) ;
  • 최경주 (국립농업과학원 유기농업과) ;
  • 이연 (국립농업과학원 유기농업과)
  • Received : 2010.02.20
  • Accepted : 2010.05.17
  • Published : 2010.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

This study was established on which the selenium (Se), known as one of the functional elements in the human body, treatment was the most effective for the Se uptake in the soil and tree. Se treatments included foliar application, soil fertigation, and trunk injection. Se fertigation and control had similar soil $P_2O_5$, K, and Mg concentrations, and calcium and Se concentrations in the soil were greater on the control and Se fertigation, respectively. Leaf characteristics were not different among the treated trees. No differences were observed for the leaf K and Ca concentrations among the treated trees, and foliar Mg was greater on the Se treated trees than the control. Se foliar application and trunk injection had greater Se concentrations in the leaves and fruits than the Se fertigation and control.

본 연구는 신체에 유익한 기능성 성분으로 알려져 있는 셀레늄을 '원황' 배나무에 처리방법을 달리했을 때 어떤 처리방법이 토양과 수체에 셀레늄 흡수를 증진시키는 것에 대해서 조사하였다. 셀레늄 처리는 엽면살포, 토양 내 관주, 그리고 수간주입을 포함하였다. 토양 내 인산과 칼륨 및 마그네슘 함량은 대조구와 셀레늄 관주 처리간에 비슷한 경향을 보였고, 토양 내 칼슘은 셀레늄 처리로 인한 양이온 경쟁작용으로 대조구에서 오히려 높았고 셀레늄 함량은 관주 처리구에서 높게 나타났다. 셀레늄 처리에 따른 엽형질은 별다른 영향을 받지 못했다. 엽중 칼륨과 칼슘은 모든 처리구 간에 별다른 영향이 없었고, 마그네슘은 셀레늄 처리구에서 대조구보다 높은 경향이 나타났다. 엽과 과실 내 셀레늄 함량은 셀레늄 엽면살포와 수간주입 처리구에서 대조구와 관주 처리구보다 유의적으로 높게 나타났다.

Keywords

References

  1. 농업과학기술원. 2006. 작물별 시비처방 기준, 농업과학기술원, 수원, 한국. pp. 168-171.
  2. Chung, A. S., S. O. Yoon, U. Jung, and J. M. Park. 2003. Effect of selenium on chemoprevention and metastasis. J. Kor. Asso. Cancer Preven. 8: 45-52.
  3. Clark, L. C., G. F. Jr. Combs, B. W. Turnbull, E. H. Slate, D. K. Chalker, J. Chow, L. S. Davis, R. A. Glover, G. F. Graham, E. G. Gross, A. Krongrad, J. L. Jr. Lesher, H. K. Park, B. B. Jr. Sanders, C. L. Smith, and J. R. Taylor. 1996. Effects of selenium supplementation for cancer prevention in patients with carcinoma of the skin. A randomized controlled trial. Nutritional prevention of cancer study group. JAMA. 276: 1957-1963. https://doi.org/10.1001/jama.276.24.1957
  4. Faust, M. (ed.). 1989a. Nutrition of fruit trees. pp. 53-132. In: Physiology of Temperate Zone Fruit Trees. A Wiley-InterScience Publication.
  5. Faust, M. (ed.). 1989b. Photosynthetic productivity. In: Physiology of temperate zone fruit trees, John Wiley & Sons, Inc., U.S.A., pp. 1-51.
  6. Hartikainen, H., T. Xue and V. Piironen. 2000. Selenium as an antioxidant and pro-oxidant in ryegrass. Plant Soil 225: 193-200. https://doi.org/10.1023/A:1026512921026
  7. Kim, H. J., W. S. Kim, and H. S. Choi. 2009. Effect of selenium treatment on the quality of 'Wonwhang' pear fruit. Kor. J. Food. Preserv. 16: 838-842.
  8. Kononova, M. M. 1966. Soil organic matter. p. 544. In: Nowakowski, T. Z., A. C. D. Newman (eds). Its nature, its role in soil formation and in soil fertility. Pergamon Press, Oxford, England.
  9. Lee, G. P. and K. W. Park. 2001. Study of selenium and germanium treatment on their accumulation traits and induced antioxidant capacity in 'seoul' lettuce in hydroponics. Acta Hort. 548: 491-496.
  10. Lee, S. J., H. M. Kang, and I. S. Kim. 2008. Effect of sodium selenate supplied condition by fertigation on the growth and content of minerals, ascorbic acid, nitrate, and selenium of some western vegetables. J. Bio-Environ. Control 17: 43-50.
  11. Mikkelsen, R. L. and H. F. Wan. 1990. The effect of selenium on growth and quality in hydroponically-grown Korea mint (Agastache rugosa). J. Kor. Soc. Hort. Sci. 42: 483-486.
  12. Park, K. W. and D. S. Yang. 2004. Production of functional Korean ginseng by selenium supplement in hydroponic system. Acta Hort. 629: 307-311.
  13. Stadtman, T. C. 1996. Selenocystein. Annu. Rev. Biochem. 65: 83-10. https://doi.org/10.1146/annurev.bi.65.070196.000503