International Journal of Industrial Entomology and Biomaterials

Korean Society of Sericultural Science (한국잠사학회)
권호 표지

Mineral Compositions in the Feces of Some Silkworms

  • Kim, Iksoo (Department of Sericulture & Entomology, NIAST, RDA) ;
  • Kang, Pil-Don (Department of Sericulture & Entomology, NIAST, RDA) ;
  • Jang, Sung-Kee (College of Natural Resources and Life Science, Dong-A University) ;
  • Ryu, Kang-Sun (Department of Sericulture & Entomology, NIAST, RDA) ;
  • Kim, Doh-Hoon (College of Natural Resources and Life Science, Dong-A University)
  • Published : 2003.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

This study was carried out to investigate the mineral content of the feces of the $5^th$ instar larvae in a few silkworm species such as a parent domestic silkworm (Jam134), a hybrid (Kumok-jam), the Japanese oak silkworm, and the Chinese oak silkworm. The major minerals of all silkworms throughout all $5^th$ instar larval period are K, P, Mg and Ca, and the result is consistent with the previous study of the mineral content in the mulberry leaves. Although the calcium content decreased sharply at $7^th$ day of the $5^th$ instar, the crude protein content significantly increased at the same age in both domestic silkworms, suggesting a direct relationship between feeding behavior of the silkworms at the larval period and mineral/protein contents. However, this trend was not observed in both oak silkworms. In the comparison of the mineral content among silkworm species, two domestic silkworms were significantly higher in the calcium content compared with two oak silkworms, and the hybrid Kumok-jam was further higher significantly than the feces of parental Jam 143. Excluding the calcium content, overall no significant content variation in other minerals was observed among four silkworm species studied in this study.

Keywords

References

  1. Ahn, M. Y., K. S. Ryu, I. Kim, S. Y. Kim, H. S. Lee, J. W. Kimand Y. K. Lee (2001) Cytotoxicity of the ethanol extracts ofmulberry leaves, branches, and silkworm feces. Korean J.Seric. Sci. 43, 26-28
  2. Ahn, M. Y., K. S. Ryu, I. Kim, J. W. Kim, H. S. Lee, Y. K. Leeand E. S. Kim (2002) Pheophytin content and fibrinolyticactivity of silkworm feces in the different larval stages ofsilkworms. Int. J. Indust. Entomol. 5, 195-199
  3. A. O. A. C.: Official Methods of Analysis (1980) 14th edition,Association of Official Analytical Chemists, Washington D.C., USA
  4. Bradford, M. (1976) A rapid sensitive method for the quantita-tion of microgram quantities of protein utilizing the principleof protein dye-binding. Anal. Biochem. 72, 248-254 https://doi.org/10.1016/0003-2697(76)90527-3
  5. Christian, J. L. and J. L. Greger. (1991) Nutrition for living, 3rded. Benjamin/Cummings Pub. Co. Redwood City, CA
  6. Chung, S. H., M. S. Kim and K. S. Ryu (1997) Effect of Silk-worm extract on intestinal-glucosidase activity in miceadministered with a high carbohydrate-containing diet.Korean J. Seric. Sci. 39, 86-92
  7. Eades, M. D. (1994) The doctor's complete guide to vitaminsand minerals. Dell Publishing Co. New York, NY
  8. Gui, Z., G. Xijie and D. Jianyi (2003) The current status andprospect of sericultural byproducts industry in China. Int. J.Indust. Entomol 7, 1-4
  9. Kim, N. J., J. K. Yoon and B. H. Park (1966) Silkworm anat-omy, Physiology and pathology. Hyangmun Sa, Seoul,Korea
  10. Kim I., H. S. Lee, J.-W. Kim, B. K. Yang, M. Y. Ahn, D. H.Kim and K. S. Ryu (2001) Variation of mineral compositionsin the regional, varietal and seasonal mulberry leaves. Int. J.Indust. Entomol. 2, 27-35
  11. Lee, W. C. and I. Kim (2000) The strategy for the developmentof bio-resources utilizing sericultural products and insects.Int. J. Indust. Entomol. 1, 95-102
  12. Ryu, K. S., I. Kim, M. Y. Ahn, J.-W. Kim and P. Lee (2003)Functionality research on silkworm and sericultural prod-ucts. Food Sci. Indust. 36, In press
  13. Yang, H. X., X. R. Zhu and Z. M. Fang (2002) Researchprogress on exploiting and utilizing of silkworm feces. Bull.Sric. 33, 9-12