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The influence of season and management system on intake and productivity of confined dairy cows in a Mediterranean climate

Published online by Cambridge University Press:  02 September 2010

J. B. Moran
Affiliation:
Kyabram Research Institute, Kyabram, Victoria 3620, Australia
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Extract

The influence of season and management system on the productivity of Friesian cows in a Mediterranean climate was assessed. Intakes of food and water and milk yields were measured in 154 cows over 2·5 years while intensively managed in yards giving access to shelter (free stalls) or that were fully exposed to solar radiation (open lots). Food quality was also monitored to permit estimates of the efficiency of utilization of metabolizable energy for milk production over fortnightly periods.

The highest milk yields and energetic efficiencies were recorded during spring. Energy intakes were highest but energetic efficiencies were lowest during winter. Cows consumed the least food during summer and autumn and drank the most water during summer. The only significant effect of management system was for water intake, which was higher in the open lots than in the free stalls. There was evidence of heat stress in summer and cold stress in winter, but there appeared to be little benefit with milk yields through the provision of shelter.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1989

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References

REFERENCES

Berman, A., Folman, Y., Kaim, M., Mamen, M., Herz, Z., Wolfenson, D., Arieli, A. and Graber, Y. 1985. Upper critical temperatures and forced ventilation effects for high-yielding dairy cows in a subtropical climate. Journal of Dairy Science 68: 14881495.CrossRefGoogle Scholar
Cotiwan, B., Miller, H. and Moran, J. B. 1985. The behaviour of confined dairy cows as influenced by feeding management and social dominance. Mountain State Agricultural College Research Journal, Philippines 18: 2233.Google Scholar
King, K. R. and Stockdale, C. R. 1981. Milk yield of dairy cows given restricted access to water in a Mediterranean-type climate. Australian Journal of Experimental Agriculture and Animal Husbandry 21: 167171.CrossRefGoogle Scholar
McDowell, R. E., Hooven, N. W. and Camoens, J. K. 1976. Effect of climate on performance of Holsteins in first lactation. Journal of Dairy Science 59: 965973.CrossRefGoogle Scholar
Ministry Of Agriculture, Fisheries And Food, Department Of Agriculture And Fisheries For Scotland And Department Of Agriculture For Northern Ireland. 1984. Energy allowances and feeding systems for ruminants. Reference Book 433. Her Majesty's Stationery Office, London.Google Scholar
Moran, J. B. and Trigg, T. E. 1989. Feed intake and utilization of maize silage-based complete diets by Australian Friesian cows and heifers at various stages of lactation. Livestock Production Science (In press).Google Scholar
National Research Council. 1981. Effect of Environment on Nutrient Requirements of Domestic Animals. National Academy of Sciences, Washington, DC.Google Scholar
Numerical Algorithms Group. 1983. Genstat. A General Statistical Program. Rothamsted Experimental Station, Harpenden.Google Scholar
Perera, K. S., Gwazdauskas, F. C., Pearson, R. E. and Brumback, T. B. 1986. Effect of season and stage of lactation on performance in Holsteins. Journal of Dairy Science 69: 228236.CrossRefGoogle Scholar
Roman-Ponce, H., Thatcher, W. W., Buffington, D. E., Wilcox, C. J. and Van Horn, H. H. 1977. Physiological and production responses of dairy cattle to a shade structure in a subtropical environment. Journal of Dairy Science 60: 424430.CrossRefGoogle Scholar
Shultz, T. A. 1984. Weather and shade effects on cow corral activities. Journal of Dairy Science 67: 868873.CrossRefGoogle ScholarPubMed