Hostname: page-component-8448b6f56d-c47g7 Total loading time: 0 Render date: 2024-04-25T05:24:36.540Z Has data issue: false hasContentIssue false
  • English
  • Français

Effect of storage, light and homogenization on the colour of ultra heat treated and sterilized milk

Published online by Cambridge University Press:  01 June 2009

Geoffrey R. Andrews
Geoffrey R. Andrews
Affiliation:
AFRC Institute of Food Research, Reading Laboratory (University of Reading), Shinfield, Reading RG2 9 AT, UK
Get access Rights & Permissions [Opens in a new window]

Summary

The rates of change in light reflectance and in CIELAB tri-stimulus colour values were compared for direct and indirect ultra heat treated (UHT) and sterilized milk in glass and polyethene bottles stored under different conditions. The rate of change of milk reflectance was higher at shorter wavelengths and the milk colour changed more rapidly at 30 and 37 °C than at room temperature. Sterilized milk in polyethene bottles was bleached when stored in an illuminated cabinet. The colour of skimmed milk changed more rapidly than that of whole milk. The rate of change in reflectance of direct UHT milk above 590 nm was found to be higher than in other milks. A statistical interaction was found between the fat content and the storage temperature for the CIELAB values. The homogenization pressure used in processing UHT milk samples did not affect the rate of change of the milk colour. The main implication of these findings may be that milk colour cannot be used to assess the heat treatment of a milk when the age or storage conditions of the milk are unknown.

Type
Original Articles
Information
Journal of Dairy Research , Volume 53 , Issue 4 , November 1986 , pp. 615 - 624
Copyright
Copyright © Proprietors of Journal of Dairy Research 1986

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

Andrews, G. R. 1984 Distinguishing pasteurized, UHT and sterilized milks by their lactulose content. Journal of the Society of Dairy Technology 37 92–95CrossRefGoogle Scholar
Andrews, G. R. 1987 The lactulose content, colour and organoleptic assessment of ultra heat treated and sterilized milks. Journal of Dairy Research (In press)CrossRefGoogle Scholar
Anon. 1966 A new method for the aseptic bottling of milk. Journal of the Society of Dairy Technology 19 3135CrossRefGoogle Scholar
Bosset, J. O. & Blanc, B. 1978 Determination of the colour of milk and milk products using a tristimulus reflectance photometer (Hunter system). 20th International Dairy Congress, Paris pp. 427428Google Scholar
Burton, H. 1954 Colour changes in heated and unheated milk. I. The browning of milk on heating. Journal of Dairy Research 21 194203CrossRefGoogle Scholar
Burton, H. 1955 Colour changes in heated and unheated milk. II. The whitening of milk on heating. Journal of Dairy Research 22 7481CrossRefGoogle Scholar
Burton, H. 1956 a Colour changes in heated and unheated milk. V. The effects of temperature of measurement, pH, and the addition of certain ions on the reflectance of separated milk. Journal of Dairy Research 23 92104CrossRefGoogle Scholar
Burton, H. 1956 b The effect of heat treatment on the colour of milk: Part I. The colour of milk: its measurement and dependence on various factors. Dairy Industries 21 3841Google Scholar
Burton, H. 1956 c The effect of heat treatment on the colour of milk: Part II. Practical applications of colour measurement in the control of heat treatment. Dairy Industries 21 134137Google Scholar
Burton, H. 1959 Some observations on the performance of UHT milk sterilizing plant. 15th International Dairy Congress, London 4 20452051.Google Scholar
Burton, H., Akam, D. N., Thiel, C. C., Grinsted, E. & Clegg, L. F. L. 1953 Some investigations into the batch process of milk sterilization. Journal of the Society of Dairy Technology 6 98113CrossRefGoogle Scholar
Burton, H. & Rowland, S. J. 1955 Colour changes in heated and unheated milk. III. The effect of variation in milk composition on the whitening and browning of separated milk on heating. Journal of Dairy Research 22 8290.CrossRefGoogle Scholar
Goulden, J. D. S. & Phipps, L. W. 1960 Spectroturbimetric determination of mean globule size in homogenized emulsions. 3rd International Congress on Surface Activity, Cologne 3 190194Google Scholar
Horak, F. P. & Kessler, H. G. 1981 [Colour measurement as an indicator of heat treatment of foods, as exemplified by milk products]. Zeitschrift fur Lebensmittel Technologic und Verfahrenstechnik 32 180184Google Scholar
Horak, F. P. & Kessler, H. G. 1982 Threshold lines of heat-influenced discoloration of various milk products. 21st International Dairy Congress, Moscow (2) 189190.Google Scholar
McLaren, K. & Rigg, B. 1976 The SDC-recommended colour-difference formula: change to CIELAB. Journal of the Society of Dyers and Colourists 92 337338CrossRefGoogle Scholar
Mogensen, G. & Poulsen, P. R. 1980 Quality of UHT milk stored at refrigerated and ambient temperatures as compared to HTST pasteurized milk. Milchwissenschaft 35 552556Google Scholar
Swartzel, K. R., Hansen, A. P. & Mcclure, W. F. 1980 Relationship of absorbance to process treatments and flavour during storage of UHT dairy products. Journal of Dairy Science 63 10391042CrossRefGoogle Scholar