한국자원식물학회지 (Korean Journal of Plant Resources)

  • 제20권3호
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  • Pages.258-262
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  • 2007
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  • 1226-3591(pISSN)
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  • 2287-8203(eISSN)
한국자원식물학회 (The Plant Resources Society of Korea)
권호 표지

Yield Performance and Nutritional Quality of 'Agakong' Soybean Harvested in Drained-Paddy and Upland Fields

  • Eun, Jhong-Ho (Division of Biosciences College of Agriculture and Life Sciences, Kyungpook National University) ;
  • Rico, Cyren M. (Division of Biosciences College of Agriculture and Life Sciences, Kyungpook National University) ;
  • Kim, Man-Keun (Division of Biosciences College of Agriculture and Life Sciences, Kyungpook National University) ;
  • Souvandouane, Souliya (Division of Biosciences College of Agriculture and Life Sciences, Kyungpook National University) ;
  • Son, Tae-Kwon (R&D Center, ISTECH, Inc., CU Techno Center) ;
  • Shin, Dong-Il (Faculty of Life Resources, Catholic University of Daegu) ;
  • Chung, Il-Kyung (Faculty of Life Resources, Catholic University of Daegu) ;
  • Lee, Sang-Chul (Division of Biosciences College of Agriculture and Life Sciences, Kyungpook National University)
  • 발행 : 2007.06.30
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초록

The study was conducted to evaluate the performance of the popular isoflavone-rich soybean 'agakong' in upland and in drained-paddy fields. Analysis revealed no significant variation in terms of plant height, number of seeds per pod, number of nodes, and 100-seed weight between the two cropping system. Number of pods was significantly higher in paddy field(234.2kg 10a$^{-1}$) compared to those harvested in the upland field, which was later manifested on the yield where paddy soybeans obtained 278.1kg 10a$^{-1}$ whereas upland only obtained 179.3kg 10a$^{-1}$. This observed difference in yield was attributed to the observed higher amount of N in the paddy soil (0.907%) as compared to the upland soil (0.458%). In terms of nutritional content, protein and phytic acid contents were the only parameters that showed significant differences while oil, sugar, reducing power and fatty acids were all comparable in paddy and filed condition. Protein content was higher in upland soil (47.4%) than that of the paddy (44.9%) soil. On the opposite, phytic acid was higher in paddy (2.90%) than in upland (1.09%). This study showed that the yield of soybean is generally a factor of soil N, drained-paddy field production of soybean is comparable to upland-filed production with the benefit of increasing phytic acid content while maintaining its nutritional value.

키워드

참고문헌

  1. Akiyama, T., J. Ishida, S. Nakagawa, H. Ogawara, S. Watababe, N. Itoh, M. Shiuya and Y. Fuani. 1987. Genistein, a specific inhibitor of tyrosine protein kinases. J. Biol. Chem. 262: 5592- 5595
  2. Antonio, D., A. Inteaz and K. Selim. 1991. Identification of phytate in proteins using polyacrylamide disc gel electrophoresis. J. Agri. Food Chem. 39: 2128-2130 https://doi.org/10.1021/jf00012a005
  3. Bremmer, J. M. and C. S. Mulvaney. 1982. Nitrogen - Total. In: Methods of Soil Analysis (A. L. Page et al., ed.) Agronomy Monograph 9, Part 2, 2nd ed. American Society of Agronomy, Madison, WI pp. 595-624
  4. Caragay, A.B. 1992. Cancer-preventive foods and ingredients. Food Technol. (Chicago) 4: 65-68
  5. Cho, Y.S., H.K. Park, W.H. Kim, S.D. Kim, J.H. Seo, Y.G. Kim and J.C. Shin. 2006. Evaluation of growth parameters and yield characteristics of three soybean cultivars in upland and drainedpaddy field. Proceedings of the Korean Society of Crop Science Conference. pp.286-287
  6. Filho, O.L. de M., C. S. Sediyama, M. A. Moreira, M.S. Reis, G. A. Massoni and N. D. Piovesan. 2004. Grain yield and seed quality of soybean selected for high protein content. Brasilia 39(5): 445- 450
  7. Huang, W. and H.J. Lantzsch. 1983. Sensitive method for the rapid determination of phytate in cereals and products. J. Sci. Food Agric., 34: 1423-1426 https://doi.org/10.1002/jsfa.2740341217
  8. Ishiguro, T., T. Ono, T. Wada, C. Tsukamoto and Y. Kono. 2006. Change in soybean Phytate content as a result of field growing conditions and influence on tofu texture. Biosci. Biotechnol. Biochem. 70(4): 874-880 https://doi.org/10.1271/bbb.70.874
  9. Kim, S.L., K.Y. Park, Y.H. Lee and Y.H. Ryu. 2004. Seed quality of soybean produced from upland and drained-paddy field. Korean J. Crop Sci. 49(4): 309-315
  10. Kitts, D.D., C.R. Kirshnamurti and W.D. Kitts. 1980. Uterine weight changes and 3H-uridine uptake in the rats treated with phytoestrogens. Can. J. Anim. Sci. 60: 531-534 https://doi.org/10.4141/cjas80-062
  11. Linkermen, G., J. E. Board and M. E. Musgrave. 1998. Water lodging effects on growth and yield components in late-planted soybean. Crop Sci. 38: 1576-1584 https://doi.org/10.2135/cropsci1998.0011183X003800060028x
  12. Messina, M. 1995. Modern applications for an ancient bean: soybean and the prevention and treatment of chronic disease. J. Nutr. 125: S567- S569
  13. Naim, M., B. Gestetner, A. Bondi and Y. Birk. 1976. Antioxidative and antihebolitic activity of soybean isoflavones. J. Agric. Food. Chem. 22: 806-811 https://doi.org/10.1021/jf60195a031
  14. Park, K.Y., S. L. Lim, S. O. Shin, S. L. Kim, H. T. Yun, J.K. Moon and J. E. Lee. 2006. Difference of growth phases and quality of soybean in agakong and upland. Proceedings of the Korean Society of Crop Science Conference pp.118-119
  15. Puiatti, M. and L. Sodek. 1999. Waterlogging affects nitrogen transport in xylem of soybean. Plant Physiol. Biochem. 37: 769- 773
  16. Sallam, A. and H.D. Scott. 1987. Effects of prolonged flooding on soybeans during early vegetative growth. Soil Sci. 38: 90-97
  17. Sediyama, T., M.G. Pereira, C.S. Sediyama and J.L.L. Gomes. 1996. Cultura da soja: parte II. Vicosa: Imprensa Universitaria da UFV. pp. 75
  18. Scott, H.D., J. DeAngulo, M.B. Daniels and L.S. Wood. 1989. Flood duration effects on soybean growth and yield. Agron. J. 81: 631-636 https://doi.org/10.2134/agronj1989.00021962008100040016x
  19. Timmerman, M. and B. Brolley. 2002. Effect of Soil Nitrogen on Soybean Yield and Quality. Poster Presented in the 3rd Annual Manitoba Agriculture and Food Conference. Proceedings of Manitoba Agronomists Conference 2002
  20. Yen, G.C. and H.Y. Chen. 1995. Antioxidant activity of various tea extracts in relation to their antimutagenicity. J. Argic. Food Chem. 46: 849-854