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Effect of elevated ripening temperatures on proteolysis and flavour development in Cheddar cheese

Published online by Cambridge University Press:  01 June 2009

John W. Aston ,
Janet E. Giles ,
Ian G. Durward  and
John R. Dulley
John W. Aston
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Queensland 4007, Australia
Janet E. Giles
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Queensland 4007, Australia
Ian G. Durward
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Queensland 4007, Australia
John R. Dulley
Affiliation:
Otto Madsen Dairy Research Laboratory, Department of Primary Industries, Hamilton, Queensland 4007, Australia
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Summary

The effect of storing Cheddar cheeses at elevated temperatures on proteolysis and flavour development was examined. Cheeses were stored under the following ripening conditions: (1) 8 °C for 32 weeks (control); (2) 15 °C for 8 weeks then 8 °C for 24 weeks; (3) 17·5 °C for 8 weeks then 8 °C for 24 weeks; (4) 20 °C for 8 weeks then 8 °C for 24 weeks; (5) 15 °C for 32 weeks; (6) 17·5 °C for 32 weeks; and (7) 20 °C for 32 weeks. The rates of build up of products of proteolysis and flavour increased in the order of the above treatments and substantial acceleration of ripening was achieved. However, after 32 weeks at 17·5 °C and 16 weeks at 20 °C, cheeses received significantly lower preference scores than the control cheeses (P < 0·05) mainly owing to the development of off flavours. The maximum temperature at which cheeses could be stored for 32 weeks without reduction in quality was 15 °C. Cheeses stored at this temperature for the entire period had levels of products of proteolysis at 12 weeks of age which were similar to those of controls at 32 weeks, and estimations of age at 20 weeks which were similar to those of controls at 32 weeks.

Type
Original Articles
Information
Journal of Dairy Research , Volume 52 , Issue 4 , November 1985 , pp. 565 - 572
Copyright
Copyright © Proprietors of Journal of Dairy Research 1985

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References

REFERENCES

Aston, J. W., Grieve, P A., Durward, I. G. & Dulley, J. R. 1983 a Proteolysis and flavour development in Cheddar cheeses subjected to accelerated ripening treatments. Australian Journal of Dairy Technology 38 5965Google Scholar
Aston, J. W., Fedrick, I. A., Durward, I. G. & Dulley, J. R. 1983 b The effect of elevated ripening temperatures on proteolysis and flavour development in Cheddar cheese. I. Higher initial storage temperatures. New Zealand Journal of Dairy Science and Technology 18 143151.Google Scholar
Baker, B. C. (REV.) 1977 A Pocket Book of Cheddar Cheese Manufacture. Metric edn Melbourne, Australia: Australian Society of Dairy Technology.Google Scholar
Dulley, J. R. 1976 The utilization of cheese slurries to accelerate the ripening of Cheddar cheese. Australian Journal of Dairy Technology 31 143148Google Scholar
Fedrick, I. A., Aston, J. W., Durward, I. G. & Dulley, J. R. 1983 The effect of elevated ripening temperatures on proteolysis and flavour development in Cheddar cheese. II. High temperature storage midway through ripening. New Zealand Journal of Dairy Science and Technology 18 253260Google Scholar
Fedrick, I. A. & Dulley, J. R. 1984 The effect of elevated storage temperatures on the rheology of Cheddar cheese. New Zealand Journal Dairy Science and Technology 19 141150Google Scholar
Fryer, T. F. 1982 The controlled ripening of Cheddar cheese. XXI International Dairy Congress Moscow 1 (1), 485Google Scholar
Grieve, P. A. & Dulley, J. R. 1983 Use of Streptococcus lactis lac-mutants for accelerating Cheddar cheese ripening. 2. Their effect on the rate of proteolysis and flavour development. Australian Journal of Dairy Technology 38 4954Google Scholar
Jarrett, W. D., Aston, J. W. & Dulley, J. R. 1982 A simple method for estimating free amino acids in Cheddar cheese. Australian Journal of Dairy Technology 37 5558Google Scholar
Law, B. A., Hosking, Z. D. & Chapman, H. R. 1979 The effect of some manufacturing conditions on the development of flavour in Cheddar cheese. Journal of the Society of Dairy Technology 32 8790Google Scholar
Law, B. A. & Wigmore, A. 1982 Accelerated cheese ripening with food grade proteinases. Journal of Dairy Research 49 137146Google Scholar
Lawrence, R. C. & Giles, J. 1967 Production of strong-flavoured Cheddar cheese. New Zealand Journal of Dairy Science and Technology 2 148Google Scholar
Mcbride, R. L. & Hall, C. 1979 Cheese grading versus consumer acceptability: an inevitable discrepancy. Australian Journal of Dairy Technology 34 6668Google Scholar
Mccallum, P. 1966 Grading butter and cheese. Queensland Agricultural Journal 92 498502Google Scholar
Marshall, J. & Waugh, I. 1978 Observations on the maturing of Cheddar cheese for local market. Australian Journal of Dairy Technology 33 8892Google Scholar
Miah, A. H., Reinbold, G. W., Hammond, E. G. & Vedamuthu, E. R. 1968 Effect of curd temperature upon Cheddar cheese characteristics during curing. Journal of Dairy Science 51 942Google Scholar
O'keeffe, A. M., Mulholland, E. D., Kiely, N., O'brien, M. F. & Phelan, J. A. 1979 Effect of ripening temperature, active SH group development and added proteinases on the rate of maturation of Cheddar cheese. Irish Journal of Food Science and Technology 3 74Google Scholar
O'keeffe, A. M., Mulholland, E. D. & Phelan, J. A. 1980 The influence of temperature on the acceleration of Cheddar cheese ripening. Irish Journal of Food Science and Technology 4 75Google Scholar
Snedecor, G. W. & Cochran, W. G. 1967 Statistical Methods 6th edn pp. 488493. Ames, IA: Iowa State University PressGoogle Scholar
Standards Association of Australia 1969 Determination of Percentage of Fat in Milk by the Babcock Method. North Sydney, Australia: SAA (AS N26–1969)Google Scholar
Standards Association of Australia 1970 Methods for the Sampling and Chemical Analysis of Cheese. North Sydney, Australia: SAA (AS N75–1970)Google Scholar
Wilster, G. H. 1964 Practical Cheesemaking 10th edn pp. 1113Corvallis, OR, USA: Oregon State University Book Stores IncGoogle Scholar
Yamamoto, T., Takahashi, K., Yoshino, M. & Yoshitake, M. 1968 [Effects of the amount of rennet and of temperature on the ripening of Cheddar cheese.] Bulletin of National Institute of Animal Industry, Chiba no. 18 5360 (Dairy Science Abstracts 32 277)Google Scholar