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Effect of delayed castration on the growth rate, behaviour and serum insulin-like growth factor-1 concentration of beef cattle on tropical pasture

Published online by Cambridge University Press:  18 August 2016

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Abstract

Male beef calves in northern Australia are generally castrated under 6 months of age as an aid to management of animal behaviour and for the purpose of producing sufficiently fat carcasses at slaughter. It is also common for beef producers to administer hormone growth promotants, such as oestradiol, to increase the growth rates of steers at pasture. This experiment tested the hypothesis that delaying castration by 9 months would produce an increase in growth rate for the period while the cattle are retained as bulls without compromising management of animal behaviour. Bulls of three genotypes were castrated at 7 months or 16 months of age and half were treated with oestradiol after castration. Body weight (BW) and serum insulin-like growth factor-1 concentrations (IGF-1) were measured and behaviour was observed before and after the 16 month castration. At both 7 and 16 months of age, surgical castration of bulls caused no animal welfare problems. BW gain was affected by genotype with Bos taurus types having a lower BW gain than Bos indicus and F1-cross cattle. IGF-1 was similarly affected by genotype. Oestradiol treatment increased growth of the steers (early castrates) during the 9 months between castration times compared with non-implanted steers and bulls. Oestradiol implanted steers had similar BW gain from the late castration to slaughter, regardless of age at castration, which was greater than non-implanted early castrates which, in turn, was greater than the late castrates. Similar differences were observed for IGF-1 concentrations. Behaviour was not affected by genotype, oestradiol treatment or age of castration but this may have been an artefact of the design where all treatment groups were grazed together. Although delayed castration resulted in no behavioural or management problems, it did not produce a commercially useful increase in growth rate.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 2002

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References

Anderson, P. T., Bergen, W. G., Merkel, R. A., Enright, W. J., Zinn, S. A., Refsal, K. R. and Hawkins, D. R. 1988. The relationship between composition of gain and circulating hormones in growing beef bulls fed three dietary crude protein levels. Journal of Animal Science 66: 30593067.Google Scholar
Arnold, G. W. and Dudzinski, M. L. 1978. Ethology of free-ranging domestic animals. Elsevier, Amsterdam.Google Scholar
Davis, M. E. and Bishop, M. D. 1991. Preliminary results on between and within twin set variation in insulin-like growth factor-1 (IGF-1) and some relationships with performance traits in identical twin heifers. Livestock Production Science 27: 255262.Google Scholar
Ford, J. J. and Gregory, K. E. 1983. Effect of late castration and zeranol on feedlot performance and carcass characteristics of bovine males. Journal of Animal Science 57: 286291.Google Scholar
Fraser, A. F. 1980. Farm animal behaviour, second edition. Bailliere Tindall, London.Google Scholar
Gazzola, C., Hill, R. A., Jeffery, M. R., O’Neill, C.J., Reid, D. J., White, D. H. and Burns, B. M. 2000. Scrotal circumference at puberty and its relationship to testes mass in three genotypes of beef cattle. Asian-Australasian Journal of Animal Sciences 13 July 2000: (suppl. B) 146.Google Scholar
Gazzola, C., Jeffery, M. R., White, D. H., Hill, R. A. and Reid, D. J. 2001. Effect of age of castration, oestradiol treatment and genotype on the fat colour of beef cattle raised at pasture. Animal Science 73: 261266.CrossRefGoogle Scholar
Gazzola, C., O’Neill, C. J. and Frisch, J. E. 1999. Comparative evaluation of the meat quality of beef cattle breeds of Indian, African and European origins. Animal Science 69: 135142.Google Scholar
Genstat 5 Committee. 1993. Genstat 5, release 3, reference manual. Oxford University Press, Oxford.Google Scholar
Gregory, K. E. and Ford, J. J. 1983. Effect of late castration, zeranol and breed group on growth, feed efficiency and carcass characteristics of late maturing bovine types. Journal of Animal Science 56: 771780.Google Scholar
Jago, J. G., Cox, N. R., Bass, J. J. and Matthews, L. R. 1997. The effect of prepubertal immunization against gonadotrophin-releasing hormone on the development of sexual and social behaviour of bulls. Journal of Animal Science 75: 26092619.Google Scholar
Jago, J. G., Matthews, L. R., Bass, J. J. and Knight, T. W. 1996. A comparison of two methods of castration of post-pubertal beef cattle and their effect on behaviour, growth and ultimate pH. Proceedings of the New Zealand Society of Animal Production 56: 394397.Google Scholar
Jago, J. G., Matthews, L. R., Trigg, T. E., Dobbie, P. and Bass, J. J. 1999. The effect of immunocastration 7 weeks before slaughter on the behaviour, growth and meat quality of post-pubertal bulls. Animal Science 68: 163171.Google Scholar
Juul, A., Bang, P., Hertel, N. T., Main, K., Dalgaard, P., Jorgensen, K., Muller, J., Hall, K. and Skakkebaek, N. E. 1994. Serum insulin-like growth factor-1 in 1030 healthy children, adolescents, and adults: relation to age, sex, stage of puberty, testicular size, and body mass index. Journal of Clinical Endocrinology and Metabolism 78: 744752.Google Scholar
Kerr, D. E., Laarveld, B., Fehr, M. I. and Manns, J. G. 1991. Profiles of serum IGF-1 concentrations in calves from birth to eighteen months of age and in cows throughout the lactation cycle. Canadian Journal of Animal Science 71: 695705.CrossRefGoogle Scholar
Knight, T. W., Cosgrove, G. P., Lambert, M. G. and Death, A. F. 1999a. Effects of method and age at castration on growth rate and meat quality of bulls. New Zealand Journal of Agricultural Research 42: 255268.Google Scholar
Knight, T. W., Cosgrove, G. P., Lambert, M. G. and Death, A. F. 1999b. Effects of interval from castration of bulls to slaughter on carcass characteristics and meat quality. New Zealand Journal of Agricultural Research 42: 269277.CrossRefGoogle Scholar
Lee, C. Y., Hunt, D. W., Gray, S. L. and Henricks, D. M. 1991. Secretory patterns of growth hormone and insulinlike growth factor-1 during peripubertal period in intact and castrate male cattle. Domestic Animal Endocrinology 8: 481489.Google Scholar
Renaville, R., Devolder, A., Massart, S., Sneyers, M., Burny, A. and Portetelle, D. 1993. Changes in the hypophysial-gonadal axis during the onset of puberty in young bulls. Journal of Reproduction and Fertility 99: 443449.Google Scholar
Renaville, R., Eenaeme, C. van, Breier, B. H., Vleurick, L., Bertozzi, C., Gengler, N., Hornick, J.-L., Parmentier, I., Istasse, L., Haezebroeck, V., Massart, S. and Portetelle, D. 2000. Feed restriction in young bulls alters the onset of puberty in relationship with plasma insulin-like growth factor-1 (IGF-1) and IGF-binding proteins. Domestic Animal Endocrinology 18: 165176.Google Scholar
Renaville, R., Massart, S., Sneyers, M., Falaki, M., Gengler, N., Burny, A. and Portetelle, D. 1996. Dissociation of increases in plasma insulin-like growth factor 1 and testosterone during the onset of puberty in bulls. Journal of Reproduction and Fertility 106: 7986.Google Scholar
Stick, D. A., Davis, M. E., Loerch, S. C. and Simmen, R. C. M. 1998. Relationship between blood serum insulinlike growth factor I concentration and post weaning feed efficiency of crossbred cattle at three levels of dietary intake. Journal of Animal Science 76: 498505.Google Scholar
White, D. H., Gazzola, C., Jeffery, M. R. and Reid, D. J. 2000. The effect of post-pubertal castration on behaviour in beef cattle. Asian-Australasian Journal of Animal Sciences 13 July 2000: (suppl. B) 145.Google Scholar
Yamada, M., Hasegawa, T. and Hasegawa, Y. 1998. Increase in free insulin-like growth factor-1 levels in precocious and normal puberty. Endocrine Journal 45: 407412.Google Scholar