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A preliminary investigation of the importance of clostridia in the production of rancid flavour in Cheddar cheese

Published online by Cambridge University Press:  01 June 2009

A. V. Goudkov
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading
M. Elisabeth Sharpe
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading

Summary

Bacteriological examination of 15 pairs of Cheddar cheeses, of which one of each pair was made aseptically, showed that there was a relationship between the development of rancid flavour and the numbers of Clostridium tyrobutyricum present. Other species of clostridia, Cl. beijerinkii, Cl. sporogenes and Cl. perfringens, were also present but occurred only as spores. Conditions for the growth of Cl. tyrobutyricum appeared to be more favourable in the aseptically made cheese; it is suggested that the adventitious bacterial flora of the non-aseptically made cheese, which gains access during cheesemaking, has some inhibitory effect on the growth of this organism.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1966

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References

REFERENCES

Beerens, H., Castel, M. M. & Put, H. M. C. (1962). Annls. Inst. Pasteur, Paris, 103, 117.Google Scholar
Beynum, J. van & Pette, J. W. (1935). Zentbl. Bkt. ParasitKde (II. Abt.), 93, 198.Google Scholar
Breed, R. S., Murray, E. G. D. & Smith, N. R. (1957). Bergey's Manual of Determinative Bacteriology. London: Baillière, Tindall and Cox.Google Scholar
Bryant, M. P. ' Burkey, L. A. (1956). J. Bact. 71, 43.Google Scholar
Castell, C. H. (1942). Scient. Agric. 23, 131.Google Scholar
Castell, C. H. & Irvine, O. R. (1942). Scient. Agric. 23, 176.Google Scholar
Davis, J. G. (1955). A Dictionary of Dairying. London: Leonard Hill.Google Scholar
Deibel, R. H. & Evans, J. B. (1960). J. Bact. 79, 356.CrossRefGoogle Scholar
Galesloot, Th. E. (1961). Neth. Milk Dairy J. 15, 263.Google Scholar
Goudkov, A. V. & Sharpe, M. E. (1965). J. appl. Bact. 28, 63.CrossRefGoogle Scholar
Hirsch, A. & Grinsted, E. (1954). J. Dairy Res. 21, 101.CrossRefGoogle Scholar
Hirsch, A., McClintock, M. & Mocquot, G. (1952). J. Dairy Res. 19, 179.CrossRefGoogle Scholar
Hood, E. G. & White, A. H. (1931). Bull. Dep. Agric. Dom. Can. no. 146.Google Scholar
Hunter, J. E. & Frazier, W. C. (1961). J. Dairy Sci. 44, 2176.CrossRefGoogle Scholar
Kutzner, H. J. (1963). Zentbl. Bakt. ParasitKde (I. Abt. Orig.), 191, 441.Google Scholar
Mabbitt, L. A., Chapman, H. R. & Sharpe, M. E. (1959). J. Dairy Res. 26, 105.CrossRefGoogle Scholar
Manual of Microbiological Methods (1957). McGraw-Hill Book Co. Inc.Google Scholar
Mossel, D. A. A. (1959). J. Sci. Fd Agric. 10, 662.CrossRefGoogle Scholar
Naylor, J. & Sharpe, M. E. (1958). J. Dairy Res. 25, 92.CrossRefGoogle Scholar
Peterssen, I. (1961). Svenska Mejeritidn. 53, 329.Google Scholar
Ritter, W., Sahli, K. W., Schilt, P. & Heuscher, E. (1963). Schweiz. Milchztg, 89, Nr. 47, Wissenschaft. Beil. 91, 723.Google Scholar
Rogosa, M., Mitchell, J. A. & Wiseman, R. F. (1951). J. dent. Res. 30, 682.CrossRefGoogle Scholar
Rosenbeger, R. F. (1956). J. appl. Bact. 19, 173.CrossRefGoogle Scholar
Swartling, P. & Lindgren, B. (1960). Rep. Milk Dairy Res. Alnarp, 62.Google Scholar