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Effects of dietary levels of oxytetracycline on the growth and organ weights of guinea fowl (Numida meleagris)

Published online by Cambridge University Press:  27 March 2009

Tunde Oguntona
Tunde Oguntona
Affiliation:
Department of Animal Science, Faculty of Agriculture, University of Maiduguri, P.M.B. 1069, Maiduguri, Nigeria
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Summary

Growth and visceral organ weights of male guinea fowl (Numida meleagris) given different levels of oxytetracycline have been studied in two experiments. In the first experiment 0, 5·0, 10·0, 15·0 and 20·0 mg oxytetracycline per kg diet were given to male guinea fowl from day 1 to 12 weeks. Body weight showed significant (P < 0·05) increases with incremental levels of the antibiotic up to 10 mg/kg diet. No further increases in growth were recorded with supplementation above this level. There were no treatment effects on the gizzard, lungs and male reproductive organs. Only the heart, liver and intestine weights were significantly (P < 0·05) affected by the treatment, and then only at the highest (20 mg/kg) of the inclusion rates examined. A second experiment was conducted to find out if the growth response obtained with 10 mg/kg oxytetracycline could be produced with a smaller dose. This was achieved at 6·6 mg/kg.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 111 , Issue 2 , October 1988 , pp. 217 - 220
Copyright
Copyright © Cambridge University Press 1988

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References

Clegg, F. G. (1962). The effects of antibiotics on the bowel. In Antibiotics in Agriculture (ed. Woodbine, M.), pp. 361371. London: Butterworth.Google Scholar
Feed Additive Compendium (1985). Vol. 23, p. 354. Minnesota: Miller Publishing Co.Google Scholar
Heuser, G. F. (1957). An evaluation of antibiotics, arsenicals, nitrofurans and surfactants in poultry nutrition. Proceedings Cornell Nutrition Conference, pp. 123125.Google Scholar
Hughes, B. L. & Jones, J. E. (1980). Diet regimes for growing guineas as meat birds, Poultry Science 59, 582584.CrossRefGoogle Scholar
Porter, L. M., Shelton, J. R. & Kelly, M. (1971). Effects of zinc bacitracin, dried bakery product and different fish meals in the diets of young turkeys. Poultrv Science 50, 11091115.Google Scholar
Rezvyakov, N. P., Polyakov, S. M. & Bogomolova, R. A. (1979). Changes in the morphometric indices of the skeletal muscles of guinea hens under the influence of dietary supplementation with biologically active compounds. Soviet Agricultural Science 9, 4446.Google Scholar
Ruitenberg, E. J.Kampelmacher, E. H., Jasen, L. M. & Cohen, P. (1973). Morphological and functional aspects of oxytetracycline administration to conventional rats. British Journal of Nutrition 30, 157163.CrossRefGoogle ScholarPubMed
Steel, R. G. D. & Torrie, J. H. (1960). Principles and Procedures of Statistics. New York: McGraw-Hill.Google Scholar
Vo, K. V., Peters, J., Adefope, N. A., Fenderson, C. L. & Williams, H. (1985). Effect of selected feed additives on performance of guinea keet broilers. Poultry Science 64, (Suppl.) 193.Google Scholar