Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-27T08:28:03.598Z Has data issue: false hasContentIssue false

The effect on milk composition of feeding spring grass to cows

Published online by Cambridge University Press:  01 June 2009

R. Waite
Affiliation:
The Hannah Dairy Research Institute, Kirkhill, Ayr
M. E. Castle
Affiliation:
The Hannah Dairy Research Institute, Kirkhill, Ayr
J. N. Watson
Affiliation:
The Hannah Dairy Research Institute, Kirkhill, Ayr

Extract

1. An experiment to investigate the seasonal increase in the solids-not-fat content of milk, which usually occurs in Britain when cows go from winter feeding to spring grazing, is described.

2. Two similar groups of cows were fed good quality winter rations at the same high level both before and after calving (about 115% of the Woodman standard after calving), until spring grass was available. One group of 7 cows was then fed for 6 weeks almost entirely on cut grass, returning to winter rations for a further 3 weeks. The control group of 6 cows continued to be fed throughout the experiment on winter rations and both groups remained indoors for the whole of the experiment. The estimated nutrient intake of both groups in all periods was kept substantially constant.

3. Changes in milk yield and composition were mainly those associated with advancing stage of lactation, and grass feeding had little specific effect. It is concluded that the increase in milk protein content which is normally observed soon after the start of spring grazing probably results from an improved plane of nutrition and not specifically from an increase in the intake of soluble carbohydrates.

4. Increases in the total nitrogen content of the milk as the experiment proceeded were contributed to uniformly by the casein, total albumin and β-lactoglobulin fractions.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1959

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

REFERENCES

(1)Waite, R., White, J. C. D. & Robertson, A. (1956). J. Dairy Res. 23, 65.CrossRefGoogle Scholar
(2)Bailey, G. L. (1952). J. Dairy Res. 19, 89.CrossRefGoogle Scholar
(3)Riddet, W., Campbell, I. L., McDowall, F. H. & Cox, G. A. (1941). N.Z. J. Sci. Tech. 23, nos. 2A, 80A.Google Scholar
(4)Rowland, S. J. (1946). Dairy Ind. 11, 656.Google Scholar
(5)Bartlett, S., Folley, S. J., Rowland, S. J., Curnow, D. H. & Simpson, S. A. (1948). Nature, Lond., 162, 845.Google Scholar
(6)Bassett, E. G. & White, E. P. (1955). N.Z. J. Sci. Tech. 36A, 485.Google Scholar
(7)Holmes, W., Waite, R., MacLusky, D. S. & Watson, J. N. (1956). J. Dairy Res. 23, 1.CrossRefGoogle Scholar
(8)Waite, R. & Boyd, J. (1953). J. Sci. Fd Agric. 14, 257.CrossRefGoogle Scholar
(9)Hamilton, T. S. (1942). J. Nutr. 23, 101.CrossRefGoogle Scholar
(10)Burroughs, W., Gerlaugh, P., Edgington, B. H. & Bethke, R. M. (1949). J. Anim. Sci. 8, 271CrossRefGoogle Scholar
(11)Lewis, D. & McDonald, I. W. (1958). J. agric. Sci. 51, 108.CrossRefGoogle Scholar
(12)Moon, F. E. (1954). J. agric. Sci. 44, 140.CrossRefGoogle Scholar
(13)Woodman, H. E. (1954). Bull. Minist. Agric., Lond., no. 48.Google Scholar
(14)Dijkstra, N. D. (1954). Neth. J. agric. Sci. 2, 273.Google Scholar
(15)Hallsworth, E. G. (1949). J. agric. Sci. 39, 254.CrossRefGoogle Scholar
(16)Schneider, B. H., Lucas, H. L., Pavlech, Helen M. & Cipollini, M. A. (1951). J. Anim. Sci. 10, 706.CrossRefGoogle Scholar
(17)Aschaffenburg, R. & Drewry, J. (1957). Biochem. J. 65, 273.CrossRefGoogle Scholar
(18)Rowland, S. J. (1938). J. Dairy Res. 9, 30.CrossRefGoogle Scholar
(19)Blackburn, P. S., Laing, C. M. & Malcolm, J. F. (1955). J. Dairy Res. 22, 37.CrossRefGoogle Scholar