Impact of verification media and resuscitation on accuracy of the membrane filter total coliform enumeration technique

Verification of membrane filter total coliform colonies was compared in lauryl tryptose broth, and m-LAC broth primary media and brilliant green-lactose-bile broth and EC broth secondary media. Verification in m-LAC broth yielded the greatest number of aerogenic isolates for both untreated surface water and drinking water samples. Verification in brilliant green-lactose-bile broth increased the number of false-negative reactions. At least 90% of the isolates aerogenic in primary verification media and anaerogenic in brilliant green-lactose-bile broth were representative of the coliform genera. The addition of a resuscitation step in the membrane filter technique did not yield greater numbers of verified coliforms per sample. Verification of both typical and atypical colonies in m-LAC broth resulted in a 10-fold increase in coliform numbers from untreated surface water. With drinking water, verification of both colony types resulted in an increase from less than 1 coliform per 100 ml to greater than 1/100 ml. A single-step verification in m-LAC broth is proposed as a more rapid and sensitive coliform verification procedure than the standard technique.

[1]  M. Lechevallier,et al.  Coliform species recovered from untreated surface water and drinking water by the membrane filter, standard, and modified most-probable-number techniques , 1981, Applied and environmental microbiology.

[2]  M. Lechevallier,et al.  Failure of the most-probable-number technique to detect coliforms in drinking water and raw water supplies , 1981, Applied and environmental microbiology.

[3]  W. Grabow,et al.  Comparison of m-Endo LES, MacConkey, and Teepol media for membrane filtration counting of total coliform bacteria in water , 1979, Applied and environmental microbiology.

[4]  D. Schnare A retrospective analysis of the formation of the national interim primary drinking water regulations , 1978 .

[5]  J. Clark,et al.  Pollution indicator bacteria associated with municipal raw and drinking water supplies. , 1977, Canadian journal of microbiology.

[6]  E. Sparrow,et al.  Fecal indicator bacteria persistence under natural conditions in an ice-covered river , 1976, Applied and environmental microbiology.

[7]  S. Tobin,et al.  Study on the efficiency of four procedures for enumerating coliforms in water. , 1976, Canadian journal of microbiology.

[8]  B. Dutka Coliforms are an inadequate index of water quality , 1973 .

[9]  S. M. Morrison,et al.  Synergistic false-positive coliform reaction on M-Endo MF medium. , 1970, Applied microbiology.

[10]  H. L. Jeter,et al.  Technical considerations in applying the membrane filter procedure. , 1967, Health laboratory science.

[11]  P. Kabler,et al.  Reevaluation of the Significance of the Coliform Bacteria , 1964 .

[12]  Harold F. Clark,et al.  Coliform Group and Fecal Coliform Organisms as Indicators of Pollution in Drinking Water , 1960 .

[13]  Charles W. Fifield,et al.  Improved Membrane Filter Medium for the Detection of Coliform Organisms , 1958 .

[14]  C. W. Chambers Relationship of coliform bacteria to gas production in media containing lactose. , 1950, Public health reports.

[15]  W. L. Mallmann,et al.  Studies on Media for Coliform Organisms , 1939 .