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Experiments on the nutrition of the dairy heifer:IX. Food utilization in lactation

Published online by Cambridge University Press:  27 March 2009

W. H. Broster
Affiliation:
National Institute for Research in Dairying Shinfield, Reading, Berkshire, England
Valerie J. Broster
Affiliation:
National Institute for Research in Dairying Shinfield, Reading, Berkshire, England
T. Smith
Affiliation:
National Institute for Research in Dairying Shinfield, Reading, Berkshire, England
J. W. Siviter
Affiliation:
National Institute for Research in Dairying Shinfield, Reading, Berkshire, England

Summary

Food utilization by lactating dairy cows was studied in a randomized experiment covering the first 24 weeks of lactation, with further observations on performance over the remainder of the lactation under farm conditions. Over a 3-year period 90 firstcalf cows each took part in the experiment for one lactation, making six groups of 14–16 animals.

For the experimental period a fixed basal diet was given of hay, concentrates, and wet brewer's grains. One group received only the basal ration. Four groups received in addition a fixed concentrates supplement for 4, 8, 12, 16 weeks from calving onwards respectively. The sixth group also had supplementary concentrates for 16 weeks but for weeks 5–12 inclusive the amount was doubled so that this group's diet simulated broadly ad libitum feeding in early lactation.

Milk yield was increased by extra concentrates. The greater part of the effect was apparent in the first 2 weeks of different levels of intake, with a further build-up over the next 6–8 weeks. The size of the response fell as time from calving to initiation of different intakes increased. Additional food increased and delayed peak yield level. Persistency of milk yield was not affected by fixed differences in intake. Rate of liveweight change was improved by extra concentrates, less so in the third compared with the first month on treatment.

A higher level of feeding in early lactation led to a greater partition of nutrients in mid-lactation to milk at the expense of gains in body reserves. This advantage to milk production extended to the end of lactation. In it the greatest response per unit concentrates was obtained from supplementation in the first 4 weeks of lactation but the total effect was increased by giving a double allowance of concentrates, and by extending the period of extra feeding to 8 weeks after calving.

Solids-not-fat content and yield, and fat yield but not fat content, showed a similar response pattern to milk yield.

Animal-to-animal variation in output on constant diets was characterized by negative regressions of live-weight change on milk yield. The regression coefficients were greater in early than in mid-lactation but they were constant in size at any one time for the various groups. A change in ration induced a change in output of the individual in which that production pathway favoured naturally by the animal was the more affected.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1975

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References

REFERENCES

Blaxter, K. L. (1950). Energy feeding standards for dairy cows. Nutrition Abstracts and Reviews 20, 121.Google Scholar
Blaxter, K. L. (1967). The feeding of dairy cows for optimal production. George Scott Robertson Memorial Lecture, Queen's University, Belfast, 11. 1966.Google Scholar
Brosteb, W. H. (1972). Effect on milk yield of the cow of the level of feeding during lactation. Dairy Science Abstracts 34, 265–88.Google Scholar
Broster, W. H., Broster, V. J. & Smith, T. (1969). Experiments on the nutrition of the dairy heifer. VIII. Effect on milk production of level of feeding at two stages of the lactation. Journal of Agricultural Science, Cambridge 72, 229–45.CrossRefGoogle Scholar
Broster, W. H. & Ctonow, R. N. (1964). A note on the use of the analysis of covariance to reduce standard errors in experiments on milk production. Journal of Agricultural Science, Cambridge 63, 91–6.CrossRefGoogle Scholar
Broster, W. H., Sutton, J. D., Smith, T. & Broster, V. J. (1970). Utilization of simple carbohydrates by cattle. Report of the National. Institute for Research in Dairying 19691970, 83–4.Google Scholar
Filmer, D. G., Roberts, P., Mines, K. A. & Clarkson, H. M. (1972). The effect of level of feeding on persistency of milk yield of Ayrshire cows. Animal Production 14, 309–15.Google Scholar
Lucas, H. L. (1943). A method of equalized feeding for studies with dairy cows. Journal of Dairy Science 26, 1011–22.CrossRefGoogle Scholar
Monteiro, L. S. (1972). The control of appetite in lactating cows. Animal Production 14, 263–81.Google Scholar
Ridler, B. & Broster, W. H. (1970). The course of level of milk yield of the cow over the lactation. Report of the National Institute for Research in Dairying 19691970, 53–4.Google Scholar
Snedecor, G. W. & Cochran, G. W. (1967). Statistical Methods. 6th ed.Ames: Iowa State Press.Google Scholar
Woodman, H. E. (1957). Rations for Livestock. Bulletin of the Ministry of Agriculture, Fisheries and Food, no. 48. London.Google Scholar