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Detection of Viruses in Drinking Water by Concentration on Magnetic Iron Oxide

Overview
Journal Appl Environ Microbiol
Specialties Environmental Health
Microbiology
Date 1981 Sep 1
PMID 6271057
Citations 5
Authors
V C Rao
S V Waghmare
S B Lakhe
Affiliations
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Abstract

Discharge of raw domestic wastes containing human enteric viruses into water courses, consumption of untreated water from canals, streams, and shallow wells in villages, and cross-contamination of water in the distribution system because of intermittent water supply in urban areas continue to cause widespread outbreaks of infectious hepatitis in India. To detect a low number of viruses in 50- to 100-liter samples of water, a method was developed with magnetic iron oxide as the virus adsorbent. Poliovirus-seeded dechlorinated tap water, adjusted to pH 3.0 and 0.0005 M AlCl3, was filtered through a 10-g bed of iron oxide sandwiched between two AP20 prefilter pads held in a 142-mm-diameter, stainless-steel holder. Virus was eluted from iron oxide by recirculating three times a 100-ml volume of 3% beef extract, pH 9.0. The eluate was reconcentrated to 5 ml by adjusting to pH 3, adding 1 g of iron oxide, stirring for 30 min, and eluting the readsorbed virus with 5 ml of beef extract, pH 9.0. Virus recovery varied from 60 to 80%. Using the above method, we took a survey of drinking water at three locations in Nagpur during 1976 and found the presence of virus in 7 of 50 samples. The quantity of virus recovered ranged from 1 to 7 plaque-forming units per 30 to 60 liters. Virus was detected in some samples even with residual chlorine. No coliforms were detected in the virus-positive samples.

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References
1.
Farrah S, Gerba C, Wallis C, Melnick J . Concentration of viruses from large volumes of tap water using pleated membrane filters. Appl Environ Microbiol. 1976; 31(2):221-6. PMC: 169751. DOI: 10.1128/aem.31.2.221-226.1976. View
2.
Sobsey M, Gerba C, Wallis C, Melnick J . Concentration of enteroviruses from large volumes of turbid estuary water. Can J Microbiol. 1977; 23(6):770-8. DOI: 10.1139/m77-114. View
3.
Waghmare S, Chalapati Rao V, Lakhe S . Monkey kidney tissue culture--an approach for improved cell yield. Indian J Exp Biol. 1979; 17(6):597-8. View
4.
Sobsey M, Wallis C, Henderson M, Melnick J . Concentration of enteroviruses from large volumes of water. Appl Microbiol. 1973; 26(4):529-34. PMC: 379842. DOI: 10.1128/am.26.4.529-534.1973. View
5.
Warren J, Neal A, Rennels D . Adsorption of myxoviruses on magnetic iron oxides. Proc Soc Exp Biol Med. 1966; 121(4):1250-3. DOI: 10.3181/00379727-121-31020. View