Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-27T01:48:16.275Z Has data issue: false hasContentIssue false

Effects of mechanical agitation of raw milk on the milk-fat globule in relation to the level of induced lipolysis

Published online by Cambridge University Press:  01 June 2009

Hilton C. Deeth
Affiliation:
Otto Madsen Dairy Research Laboratory, Hamilton, Queensland 4007, Australia
Carolyn H. Fitz-Gerald
Affiliation:
Otto Madsen Dairy Research Laboratory, Hamilton, Queensland 4007, Australia

Summary

The amount of damage caused to the milk-fat globule by mechanical agitation of raw milk was assessed by several methods and related to the level of induced lipolysis resulting from the agitation. The results obtained by measuring the amount of ‘free’ fat formed, the percentage of fat in the skim-milk phase after separation, and the increase in the proportion of alkaline phosphatase associated with the skim-milk phase, showed little correlation with the level of lipolysis induced by agitation over a range of conditions. However, the level of induced lipolysis showed good correlation with the amount of lipolysis caused by addition of an exogenous lipase (from Candida cylindraceae) to the agitated milk. It is concluded that classical methods of assessing milk-fat globule damage are unsuitable for predicting the amount of fat available for lipase action and the lipolytic potential of raw milk subjected to mechanical agitation.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1978

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

Anderson, M. & Cheeseman, G. C. (1975). Annual Bulletin, International Dairy Federation, Document 86, 11.Google Scholar
Anderson, M., Cheeseman, G. C., Knight, D. J. & Shipe, W. F. (1972). Journal of Dairy Research 39, 95.CrossRefGoogle Scholar
Aristova, V. P. (1974). U.S.S.R. Patent 444 976.Google Scholar
(Dairy Science Abstracts, 1975, 37, 355.)Google Scholar
Aristova, V. P., Sokolova, T. V., Gushchina, I. M. & Bulochnikova, E. K. (1974). Sovershenstvovanie tekhnologicheskikh protsessov v molochnoi promyshlennosti, Vol. 1, p. 77.Google Scholar
(Dairy Science Abstracts, 1975, 37, 803.)Google Scholar
Aule, O. & Worstorff, H. (1975). Annual Bulletin, International Dairy Federation, Document 86, 116.Google Scholar
Claypool, L. L. (1965). Thesis, University of Minnesota.Google Scholar
Deeth, H. C. & Fitz-Gerald, C. H. (1975). Annual Bulletin, International Dairy Federation, Document 86, 24.Google Scholar
Deeth, H. C. & Fitz-Gerald, C. H. (1977). Journal of Dairy Research 44, 569.CrossRefGoogle Scholar
Deeth, H. C., Fitz-Gerald, C. H. & Wood, A. F. (1975). Australian Journal of Dairy Technology 30,109.Google Scholar
Dillier-Zulauf, A. & Wirasekara, P. E. (1971). Deutsche Molkerei-Zeitung 92, 1943.Google Scholar
Hlynka, I., Hood, E. G. & Gibson, C. A. (1945). Journal of Dairy Science 28, 79.CrossRefGoogle Scholar
King, N. (1951). Dairy Industries 16, 727.Google Scholar
Lagoni, H. & Peters, K. H. (1959). Kieler Milchwirtschaftliche Forschungsberichte 11, 291.Google Scholar
Mulder, H. & Walstra, P. (1974). The milk fat globule: emulsion science as applied to milk products and comparable foods, p. 67. Farnham Royal, Bucks: Commonwealth Agricultural Bureaux.Google Scholar
Rothwell, J. (1962). Journal of the Society of Dairy Technology 15, 190.CrossRefGoogle Scholar
Solms-Baruth, H. (1971). Deutsche Milchwirtschaft 23, 1375.Google Scholar
Stannard, D. J. (1975). Journal of Dairy Research 42, 241.CrossRefGoogle Scholar
Tarassuk, N. P. & Frankel, E. N. (1957). Journal of Dairy Science 40, 418.CrossRefGoogle Scholar
Te Whaiti, I. E. & Fryer, T. F. (1975). New Zealand Journal of Dairy Science and Technology 10, 2.Google Scholar
Te Whaiti, I. E. & Fryer, T. F. (1976). New Zealand Journal of Dairy Science and Technology 11, 91.Google Scholar
Webb, B. H. & Hall, S. A. (1935). Journal of Dairy Science 18, 275.CrossRefGoogle Scholar