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Comparative weights of dairy calves at 4, 8, 12 and 16 weeks of ag at Moor Plantation, Ibadan, Nigeria

Published online by Cambridge University Press:  27 March 2009

J. A. Adeneye
Affiliation:
Department of Animal science, University of Ibadan, Ibadan, Nigeria

Summary

In a comparative study of some factors that influence the body weights of 36 Friesian, 54 Holstein, 22 Holstein-Friesian, 24 Jersey and 17 Brown Swiss calves born during 1964–9 at the Moor Plantation dairy herd, Ibadan, breeds differed significantly (P <0·01) at all ages. Highly significant sex differences (P <0·01) existed at 4 and 8 weeks of age. The season of birth significantly influenced the weight at 4 and 8 (P < 0·05) and at 12 weeks (P < 0·01). The season × sex and season × breed interactions significantly affected the weights at virtually all ages but the sex × breed interaction did not. The birth weight exerted a highly significant influence (P < 0·01) on all other body weights. It reduced the residual variation as well as the differences and interactions between the main effects. After adjusting for birth-weight differences, body weight was significantly (P < 0·05) influenced at various ages by breed of calf, season of birth, sex × breed and season × breed interactions. The sex and season × sex interaction effects on adjusted body weights at all ages were negligible (P > 0·05).

Type
Research Article
Copyright
Copyright © Cambridge University Press 1982

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References

REFERENCES

Adeneye, J. A., Bamiduro, T. A., Adebanjo, A. K. & Akinyemi, A. A. (1977). Factors affecting birth weight of Holstein-Friesian oalves in Western Nigeria. Journal of Agricultural Science, Cambridge 88, 111117.CrossRefGoogle Scholar
Afifi, Y. A. & Soliman, A. M. (1971). Sources of variation in birth and weaning weights of Friesian oalves. Agricultural Research Review 49, 115.Google Scholar
Bernard, C., Dufour, L. & Lemay, J. P. (1962). Growth relationships from birth to 240 days of age and their associations with feed efficiency in dairy calves. Canadian Journal of Animal Science 42, 218225.Google Scholar
Bodisco, V. & Cevallos, E. (1971). Birth weight of Brown Swiss calves. Abstract in III Reunión Latinoamericana de Producción Animal, Bogotá, 1971, p. 136.Google Scholar
Bodisco, V., Fuenmayor, C. & Cevallos, E. (1969). First calving in Holstein-Friesian and Brown Swiss cows at the Centre of Agricultural Research at Maracay. Agronomia Tropical 19, 299308.Google Scholar
Carneiro, G. G. & Lush, J. L. (1954). Reproductive rates and growth of purebred Brown Swiss cattle in Brazil. Journal of Dairy Science 37, 11451157.CrossRefGoogle Scholar
Cullity, M. (1969). Birth weights of calves. Journal of Agriculture of Western Australia, 4th Series 10, 349550.Google Scholar
Hodges, J., O'Connor, L. K. & Clakk, W. M. (1960). The size of dairy heifers. Animal Production 2, 187195.Google Scholar
Joubert, D. M. (1954). The influence of winter nutritional depressions on the growth, reproduction and production of cattle. Journal of Agricultural Science, Cambridge 44, 566.CrossRefGoogle Scholar
Knudsen, P. B. & Sohael, A. S. (1970). The Vom herd: a study of the performance of a mixed Friesian/Zebu herd in a tropical environment. Tropical Agriculture, Trinidad 47, 189203.Google Scholar
McDowell, R. E., Richardson, G. V., Lehmann, R. P. & McDaniel, B. T. (1969). Interbreed matings in dairy cattle. IV. Growth rate of two-breed crosses. Journal of Dairy Science 52, 16241632.CrossRefGoogle Scholar
Maltos, J., Cartwright, T. C. & De Alba, J. (1970). Two stages of growth in dairy cattle in the humid tropics. Memorias de la Asociación Latinoamericana de Producción Animal 5, 3547.Google Scholar
Maricz, M. (1958). Results of continuous crossing with Frieslands and Jerseys at the Nioka Station. Bulletin d'Information de I'Institut National pour I'Etude Agronomique du Congo Belge 7, 133164.Google Scholar
Matthews, O. A. & Fohrman, M. H. (1954). Beltsville growth standards for Holstein cattle. Technical Bulletin, U. S. Department of Agriculture no. 1099, 50 pp.Google Scholar
Mendoza, W. C, Baclay, A., Salomon, F. & Tinapay, I. (1965). Birth weights of Holstein and Jersey calves under tropical conditions. Araneta Journal of Agriculture 12, 117134.Google Scholar
Morrison, F. B. (1956). Feeds and Feeding, 22nd edn, p. 680. Ithaoa, U. S. A.: Morrison Publishing Company.Google Scholar
Naude, R. T. (1967). Birth weight of pure- and crossbred dairy calves with observations on the ease of parturition of their dams. Proceedings of the South African Society of Animal Production 1967 6, 137143.Google Scholar
Ragab, M. T. & Abdel-Aziz, A. S. (1961). The effect of some environmental factors on body weights and relative growth rate in Friesian calves of Tahreer Province. Journal of Animal Production of the United Arab Republic 1, 107120.Google Scholar
Rodriguez, B. (1970). [The Brown Swiss breed in Spain], Zootechnia 19, 367377.Google Scholar
Roman, P. H. & Cabello, F. E. (1970). [Costs of rearing replacement heifers in a tropioal climate]. Tecnica Pecuaria en Mexico. No. 14, 4247.Google Scholar
Steel, R. G. D. & Torrie, J. H. (1960). Principles and Procedures of Statistics. New York: McGraw-Hill.Google Scholar
Strachan, R. T. & Mawson, W. F. (1962). Growth of Jersey calves in the tropics. Queensland Agricultural Journal 88, 647651.Google Scholar
Uganda, (1972). Annual Report for the year ended 31st December, 1970. Department of Veterinary Services and Animal Industry, Entebbe, Uganda: Govt. Printer. 63 pp.Google Scholar
Wilson, P. N. & Houghton, R. T. R. (1962). The development of the herd of Holstein-Zebu cattle ofthe Imperial College of Tropical Agriculture, Trinidad. Empire Journal of Experimental Agriculture 30, 159180.Google Scholar