Journal of Animal Science and Technology

Korean Society of Animal Sciences and Technology (한국축산학회)
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Effects of Crude Protein Levels on Nitrogen Balance in Adult Jindo Dog

사료내 조단백질 수준이 진도성견의 질소균형에 미치는 영향

  • Kang, Tae-Il (College of Animal Bioscience & Technology, Konkuk University) ;
  • Maeng, Won-Jai (College of Animal Bioscience & Technology, Konkuk University) ;
  • Kim, Myeong-Hwa (College of Animal Bioscience & Technology, Konkuk University) ;
  • Lee, Sang-Rak (College of Animal Bioscience & Technology, Konkuk University)
  • 강태일 (건국대학교 동물생명과학대학) ;
  • 맹원재 (건국대학교 동물생명과학대학) ;
  • 김명화 (건국대학교 동물생명과학대학) ;
  • 이상락 (건국대학교 동물생명과학대학)
  • Received : 2008.12.18
  • Accepted : 2009.04.21
  • Published : 2009.04.01
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Abstract

This study was conducted to determine the protein requirement level in adult Jindo dog (Korea Jindo Dog) through nitrogen balance experiments. 12 female dogs aged 36~38 weeks old (for early stage) or aged 45~49 weeks old (for late stage) were fed one of 3 diets containing 17, 19 and 21% of crude protein. Body weight of dogs were measured during the 12 days of feeding trial, and feces and urine were collected last 3 days of the trial period. In early stage of Jindo dog, average daily gain of dogs fed experimental diets containing 17, 19 and 21% of crude protein were -38.33, -16.25 and -12.71g/d, respectively. There was a significant differences between 17 and 21% of crude protein treatments (p<0.05) and calculated retained nitrogen were -0.29, -0.04 and -0.03g/kg$BW^{.75}$/d, respectively. In late stage of Jindo dog, average daily gain of dogs fed experimental diets containing 17, 19 and 21% of crude protein were -34.05, -28.71 and -28.28g/d, and calculated retained nitrogen were -0.33, -0.06 and 0.09g/kg$BW^{.75}$/d, respectively, and were significantly higher (p<0.05) in dogs fed 21% of crude protein diet than those of other dogs. In early stage and late stage of adult Jindo dog, a calculated linear regression equation for nitrogen intake (x) and nitrogen retention (y) were y = 0.7484x-1.18 ($R^2$ = 0.9923) and y = 0.88231x-1.0894 ($R^2$ = 0.9982) and the requirement of crude protein were estimated as 9.85g/kg$BW^{.75}$/d and 7.72g/kg$BW^{.75}$/d from above equation.

본 연구는 진도성견의 단백질 급여수준이 질소균형에 미치는 영향을 조사하여 단백질 급여 표준을 설정하기 위한 기초 자료를 얻기 위하여 실시하였다. 진도견 성견초기(생후 36~38주령)와 성견후기(생후 45~49주령)의 암컷 12두를 대상으로 단백질 수준을 17, 19 및 21%로 설정한 실험사료를 급여하여 체중, 사료섭취량 및 분뇨 배설량을 측정하였다. 성견초기의 일당 증체량은 조단백질 함량 17, 19 및 21%구에서 각각 -38.33, -16.25 및 -12.71g으로 나타났으며 17% 조단백질 사료급여구가 19 및 21% 급여구에 비하여 유의하게 낮았다(p<0.05). 축적된 질소량은 각각 -0.29, -0.04 및 -0.03g/kg$BW^{.75}$/d로 계산되었으며 조단백질 17% 급여구가 19 및 21% 급여구에 비하여 유의하게(p<0.05) 낮은 결과를 나타내었다. 질소섭취량(x)과 질소축적량(y)간에 y = 0.7484x-1.18 ($R^2$ = 0.9923)의 회귀식이 도출되었으며, 이 식으로부터 성견초기의 유지 조단백질 요구량은 9.85g/kg$BW^{.75}$/d로 추정되었다. 진도견 성견후기의 일당 증체량은 실험구 별로 각각 -34.05, -28.71 및 -28.28g으로 17% 단백질 사료급여구가 다른 구에 비하여 낮게 나타났으나 유의한 차이는 아니었다. 축적된 질소량은 각각 -0.33, -0.06 및 -0.09g/kg$BW^{.75}$/d로 계산되었으며 17% 조단백질 급여구가 19 및 21% 급여구에 비하여 유의하게(p<0.05) 낮은 결과를 나타내었다. 질소섭취량(x)과 질소축적량(y)간에 y = 0.8823x-1.0894 ($R^2$ = 0.9982)의 회귀식이 도출되었으며 이식을 이용하여 계산한 결과 성견후기의 유지 조단백질 요구량은 7.72g/kg$BW^{.75}$/d로 추정되었다. 본 연구는 우리나라에서 진도견을 대상으로 한 영양소 요구량을 설정하기 위한 최초의 연구로 생각되며 연구의 결과는 진도견의 단백질 요구량을 설정하는데 기초 자료가 될 것으로 생각된다. 그러나 진도견의 단백질 요구량을 최종적으로 설정하기 위해서는 전 생애에 걸쳐서 성별 및 사육환경에 따른 영양소 요구량에 대한 추가적인 연구가 필요하다고 사료된다.

Keywords

References

  1. Allison, J. B. 1956. Optimal nutrition correlated with nitrogen retention. Am. J. Clin. Nutr. 4:662. https://doi.org/10.1093/ajcn/4.6.662
  2. Allison. J. B. 1964. The nutritive value of dietary proteins. In Mammalian Protein Metabolism, vol.II, p.47, ed. H. N. Munro. and J. B. Allison, New York: Academic Press.
  3. A.O.A.C. 1990. Official method of analysis. 15th ed. Association of official analytical chemists, Inc.
  4. Arnold, A. and Schad, J. S. 1954. Nitrogen balance studies with the dogs on casein or methionine-supplemented casein. J. Nutr. 53:265. https://doi.org/10.1093/jn/53.2.265
  5. Association of American Feed Control Officials. 1992. Official publication. Association of American Feed Control Officials.
  6. Campbell, I. T. and Donaldson, J. 1981. Energy requirements of antarctic sledge dogs. Br. J. Nutr. 45:95. https://doi.org/10.1079/BJN19810081
  7. Davis, S. J. and Valls, F. R. 1978. Evidence for domestication of the dog 12,000 years ago in the Natufian of Israel. Nature, 276:608. https://doi.org/10.1038/276608a0
  8. Durrer, J. L. and Hannon, J. P. 1962. Seasonal variations in caloric intake of dogs living in an arctic environment. Am. J. Physiol. 202:375.
  9. Earle, K. E. and Smith, P. M. 1991. Digestible energy requirements of adult cats maintenance. J. Nutr. 121:45. https://doi.org/10.1093/jn/121.suppl_11.S45
  10. Greaves, J. P. and Scott, P. P. 1960. Nutrition of the cat. III. Protein requirements for nitrogen equilibrium in adult cats maintained on a mixed diet. Br. J. Nutr. 14:361. https://doi.org/10.1079/BJN19600047
  11. Hill, R. C., Lewis, D. D., Scott, K. C., Sundstrom, D. and Butterwick, R. F. 1998. Increased dietary protein slows racing Greyhounds. J. Vet. Intern. Med. 12:242 (abs.).
  12. Hill, R. C., Lewis, D. D., Scott, K. C., Sundstrom, D. and Butterwick, R. F. 1995. Clinical nutrition in the athletic dog. In proceeding 11th Annual Int. Canine Sports Med. Symp, Orlando Florida, M. Bloomberg p. 10.
  13. Holme, D. W. 1982. Practical use of prepared foods for dogs and cats. In dog and Nutrition. New York. Pergamon Press.
  14. Kade, C. F., Phillips, Jr., J. H. and Phillips, W. A. 1948. The determination of the minimum nitrogen requirement of the adult dog for maintenance of nitrogen balance. J. Nutr. 36:109. https://doi.org/10.1093/jn/36.1.109
  15. Kronfeld, D. S., Hammel, E. P., Ramberg, Jr., C. F. and Dunlap, Jr. H. L. 1977. Hematological and metabolic responses to training in racing sled dogs fed diets containing medium, low or zero carbohydrate. Am. J. Clin. Nutr. 30:419. https://doi.org/10.1093/ajcn/30.3.419
  16. Lazar, V. 1990. Dog food history, Pet Food Ind. p. 40, Set/Oct. 1990.
  17. Mabee, D. M. and Morgan, A. F. 1951. Evaluation by dog growth of egg yolk protein and six other partially purified protein, some after heat treatment. J. Nutr. 43:261. https://doi.org/10.1093/jn/43.2.261
  18. Melnick, D. and Cowgill, G. R. 1937. The protein minima for nitrogen equilibrium with different proteins. J. Nutr. 13:401. https://doi.org/10.1093/jn/13.4.401
  19. National Research Council. 1985. Nutrient Requirements of Dogs. Washington, D. C.: National Academy Press.
  20. Ontko, J. A., Wuthier, R. E. and Phillips, P. H. 1957. The effects of increased dietary fat upon the protein requirement of the growing dog. J. Nutr. 62:163. https://doi.org/10.1093/jn/62.2.163
  21. Schaeffer, M. C., Rogers, Q. R. and Morris. J. G. 1989. Protein in the nutrition of dogs and cats. Nutrition of the dog and cat. New York, Cambridge University Press.
  22. SAS package. 1996. SAS Institute Inc.
  23. 森爲三. 1937. 珍島犬た關する調査報告. 朝鮮總督府林業試驗場報告.
  24. 朴鍾萬. 1971. 韓國珍島犬에 關한 硏究(第 I 報). 韓國畜産學會誌. 第13券第2號.