Hostname: page-component-77c89778f8-7drxs Total loading time: 0 Render date: 2024-07-20T20:14:28.278Z Has data issue: false hasContentIssue false
  • English
  • Français

The effects of quantity and duration of milk feeding on the intake of concentrates and growth of castrated male Saanen kids to slaughter

Published online by Cambridge University Press:  02 September 2010

T. Yan ,
J. E. Cook ,
M. J. Gibb ,
W. E. Ivings  and
T. T. Treacher
T. Yan
Affiliation:
AFRC Institute of Grassland and Environmental Research, Hurley, Maidenhead SL6 5LR
J. E. Cook
Affiliation:
AFRC Institute of Grassland and Environmental Research, Hurley, Maidenhead SL6 5LR
M. J. Gibb
Affiliation:
AFRC Institute of Grassland and Environmental Research, Hurley, Maidenhead SL6 5LR
W. E. Ivings
Affiliation:
AFRC Institute of Grassland and Environmental Research, Hurley, Maidenhead SL6 5LR
T. T. Treacher
Affiliation:
AFRC Institute of Grassland and Environmental Research, Hurley, Maidenhead SL6 5LR
Get access

Abstract

To examine the possibility of reducing milk substitute costs in artificial rearing of goat kids, 36 castrated male Saanen kids at 2 days of age were randomly allocated across six treatments in a 2×3 factorial design experiment. Milk substitute was provided for the kids over a period of 28 or 39 days, and daily levels of milk substitute dry matter (DM) intake were 0·140,0·176 or 0·272 kg.

Increasing the level of milk substitute offered had no significant effect on intake of concentrate up to weaning, but did significantly reduce the total intake of concentrate through to slaughter. Weaning after 39 days, as opposed to 28 days, also significantly reduced the total intake of concentrates. However, there was no difference when the same total quantity of milk substitute was consumed over different periods. Increasing the daily intake of milk substitute significantly increased daily live-weight gain to weaning, but tended to increase the time taken by kids to regain their weaning weight following cessation of milk substitute intake. However, milk substitute level and weaning age did not significantly affect overall daily live-weight gain or the length of time taken to reach 28 kg.

Eight additional kids were slaughtered at 2 days of age to develop regression equations relating initial body composition to live weight. These relationships were similar to others published for 2-day-old Saanen kids. Treatments had no significant effect on overall rates of fat, crude protein, water, ash and energy gain or on final body composition, carcass weight or carcass composition when kids were slaughtered at a live weight of 28 kg. These data suggest that savings in milk substitute may be achieved by reducing the weaning age and/or the daily intake level.

Keywords

body compositionconcentrateskidsmilk substitutesperformance
Type
Research Article
Information
Animal Production , Volume 56 , Issue 3 , June 1993 , pp. 327 - 332
Copyright
Copyright © British Society of Animal Science 1993

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bradstreet, R. B. 1969. The Kjeldahl method for organic nitrogen. Academic Press, New York.Google Scholar
Fehr, P. M. and Sauvant, D. 1976. Production de chevreaux lourds. 1. Influence du l'age et du mode de sevrage sur les performances des chevreaux abattus a 26, 5–29 kg. Annales de Zootechnie 25: 243257.CrossRefGoogle Scholar
Jagusch, K. T., Duganzich, D. M., Kidd, G. T. and Church, S. M. 1983. Efficiency of goat milk utilization by milk-fed kids. New Zealand Journal of Agricultural Research 26: 443445.CrossRefGoogle Scholar
Le Du, Y. L. P., Baker, R. D. and Barker, J. M. 1976. Milkfed calves. 2. The effect of length of milk feeding period and milk intake upon herbage intake and performance of grazing calves. Journal of Agricultural Science, Cambridge 87: 197204.CrossRefGoogle Scholar
Lonsdale, C. R. 1976. The effect of season of harvest on the utilisation by young cattle of dried grass given alone or as a supplement to grass silage. Ph.D. Thesis, University of Reading.Google Scholar
Morand-Fehr, P., Hervieu, J., Bas, P. and Sauvant, D. 1982. Feeding of young goats. Proceedings of the third international conference on goat production and disease, Tuson, Arizona, pp. 90104. Dairy Goat Journal Publishing Company.Google Scholar
Morgan, J. A. and Owen, J. B. 1972a. The nutrition of artificially reared lambs. 1. The effect of different feeding methods applied at three stages of growth. Animal Production 15: 285292.Google Scholar
Morgan, J. A. and Owen, J. B. 1972b. The nutrition of artificially reared lambs. 2. The effect of feeding restriction at three stages of growth on growth and carcass composition. Animal Production 15: 293300.Google Scholar
Opstvedt, J. 1969. Norwegian experiments on nutrition and milk quality in goats. In Grassland in sheep and goat production (ed. Spedding, C. R. W.), European Association for Animal Production, report no. 2, Study Commission on Animal Nutrition, pp. 89100.Google Scholar
Owen, E. and DePaiva, P. 1980. Artificial rearing of goat kids: effect of age at weaning and milk substitute restriction on performance to slaughter weight. Animal Production 30: 480 (abstr.).Google Scholar
Penning, P. D., Cottrell, K. M. and Treacher, T. T. 1973. The effects of quantity and distribution of milk substitute on the performance of artificially reared lambs to forty-eight days of age. Animal Production 17: 179186.Google Scholar
Penning, P. D. and Gibb, M. J. 1979. The effect of milk intake on the intake of cut and grazed herbage by lambs. Animal Production 29: 5367.Google Scholar
Penning, P. D. and Treacher, T. T. 1975. The effects of quantity and distribution of milk substitute on the performance and carcass measurements of artificially reared lambs. Animal Production 20: 111121Google Scholar
Pettinati, J. D. and Swift, C. E. 1975. Rapid determination of fat in meat and meat products by Foss-Let solvent extraction and density measurement. Journal of the Association of Official Analytical Chemists 58: 11821187.Google Scholar
Pettinati, J. D. and Swift, C. E. 1977. Collaborative study of accuracy and precision of rapid determination of fat in meat and meat products by Foss-Let method. Journal of the Association of Official Analytical Chemists 60: 853858.Google Scholar
Teh, T. H., Escobar, E. N. and Potchoiba, M. J. 1985. Effect of restricted milk intake on the performance of goat kids. Journal of Animal Science 61: suppl. 1, p. 382.Google Scholar
Teh, T. H., Potchoiba, M. J., Escobar, E. N. and Lu, C. D. 1984. Weaning methods of goat kids. Journal of Dairy Science 67: suppl. 1, p. 137.Google Scholar