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68. The Occurrence of Coliform Bacteria in Milk

Published online by Cambridge University Press:  01 June 2009

J. F. Malcolm
Affiliation:
Bacteriology Department, The West of Scotland Agricultural College, Glasgow

Extract

1. Of 21,569 samples of mixed cow's milk taken under fair conditions of cleanliness and examined by means of the coliform test, 48·3 per cent, gave negative results with 1/10, 1/100 and 1/1000 c.c. amounts; 21–4 per cent, gave positive results with only 1/10 c.c.; 14·0 per cent, gave positive results with only 1/10 and 1/100 c.c.; and 16·3 per cent, gave positive results with 1/10, 1/100 and 1/1000 c.c. It is probable that these results are better than those generally obtained.

2. The proportion of coliform-positive samples was much higher in summer and early autumn than during the winter and spring. This seasonal variation was largely due to atmospheric temperature, there being a well-marked direct correlation between the proportion of coliform-positive samples and the mean of the minimum and maximum atmospheric temperatures.

3. Of 21,857 samples examined, 10,458 were coliform negative and had an average bacterial content of 25,294 per c.c; 11,399 were coliform positive and had an average bacterial content of 160,577 per c.c. The coliform-positive samples contained on an average 6·3 times as many bacteria as the coliform negative.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1933

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References

REFERENCES

(1) Ministry Of Health (1929). Bacteriological Tests for Graded Milk, Memo. 139/Foods. H.M. Stationery Office, London.Google Scholar
(2) Mum, R. and Ritchie, J. (1932). Manual of Bacteriology. Oxford University Press.Google Scholar
(3) Koser, Stewart A. (1924). Correlation of citrate utilisation by members of the colon-aerogenes group with other differential characteristics and with habitat. J. Bad. 9, 5977.Google ScholarPubMed
(4) Macconkey, A. (1905). Lactose-fermenting bacteria in faeces. J. Hyg. 5, 333–79.Google Scholar
(5) Macconkey, A. (1909). Further observations on the differentiation of lactose-fermenting bacilli with special reference to those of intestinal origin. J. Hyg. 9, 86103.CrossRefGoogle ScholarPubMed
(6) Ruchhoft, C. C., Kallas, J. G., Chinn, Ben and Coulter, E. W. (1931). Coliaerogenes differentiation in water analysis. Part I. J. Bact. 21, 407–40; Part II.Google Scholar
Ruchhoft, C. C., Kallas, J. G., Chinn, Ben and Coulter, E. W. (1931). Coliaerogenes differentiation in water analysis. Part I. J. Bact. 22, 125–81.Google Scholar
(7) Babdsley, Doris A. (1926). B. coli an index of faecal pollution of water supplies. J. Hyg. 25, 1125.CrossRefGoogle Scholar
(8) Koser, S. A. (1926). J. Inf. Dis. 38, 506–10.CrossRefGoogle Scholar
(9) Raghavachari, T. N. S. (1926). Ind. J. Med. Res. 14, 47.Google Scholar
(10) Mackie, T. J. (1913). J. Path, and Bact. 13, 137.Google Scholar
(11) Clemesha, W. W. (1912). The bacteriology of surface waters in the tropics. J. Hyg. 12, 463–78.Google Scholar
(12) Rogers, L. A., CLARK, W. M. and EVANS, A. C. (1915). The characteristics of bacteria of the colon type occurring on grains. J. Inf. Dis. 17, 137–59.CrossRefGoogle Scholar
(13) Greenfield, Myrtle(1916). The presence of soil and faecal strains of organisms of the colon-aerogenes group in waters of Kansas. J. Inf. Dis. 19, 647–51.CrossRefGoogle Scholar
(14) Johnson, B. R. (1916). Coli-like organisms of the soil. J. Bact. 1, 96.Google Scholar
(15) Rogers, L. A., Clark, W. M. and Evans, A. C. (1916). Colon bacteria and streptococci and their significance in milk. Amer. J. Pub. Health, 6, 374–80.CrossRefGoogle ScholarPubMed
(16) Burton, L. V. and Rettger, L. F. (1917). Correlations in the colon-aerogenes group. J. Inf. Dis. 21, 162–95.CrossRefGoogle Scholar
(17) Johnson, B. R. and Levine, M. (1917). Characteristics of coli-like micro-organisms from the soil. J. Bact. 2, 379401.Google Scholar
(18) Levine, M. (1918). A statistical classification of the colon-cloacae group. J. Bact. 3, 253–76.Google Scholar
(19) Chen, C. C. and Rettger, L. F. (1920). A correlation study of the colon-aerogenes group of bacteria with special reference to the organisms occurring in the soil. J. Bact. 5, 253–98.CrossRefGoogle Scholar
(20) Wood, D. R. (1920). Recent advances in the differentiation of lactose-fermenting (gas-producing) bacteria with special reference to the examination of water and food products. J. Hyg. 18, 46.Google Scholar
(21) Levine, M. (1921). Bacteria-fermenting lactose and their significance in water analysis. Bull. Eng. Exp. Station, Ames, Iowa, No. 62.Google Scholar
(22) Cruickshank, J. and Cruickshank, R. (1931). The normal bacterial flora of man. A system of bacteriology in relation to medicine, 8. H.M. Stationery Office, London.Google Scholar
(23) Hay, Hilda L. (1932). A study of the Bacillus nvacosus capsulatus group. J. Hyg. 32, 240.CrossRefGoogle ScholarPubMed