Effect of chlorination on antibiotic resistance profiles of sewage-related bacteria.

AUTOR(ES)

Murray, G E

RESUMO

A total of 1,900 lactose-fermenting bacteria were isolated from raw sewage influent and chlorinated sewage effluent from a sewage treatment plant, as well as from chlorinated and neutralized dilute sewage, before and after a 24-h regrowth period in the laboratory. Of these isolates, 84% were resistant to one or more antibiotics. Chlorination of influent resulted in an increase in the proportion of bacteria resistant to ampicillin and cephalothin, the increase being most marked after regrowth occurred following chlorination. Of the other nine antibiotics tested, chlorination resulted in an increased proportion of bacteria resistant to some, but a decrease in the proportion resistant to the remainder. Multiple resistance was found for up to nine antibiotics, especially in regrowth populations. Identification of about 5% of the isolates showed that the highest proportion of Escherichia coli fell in untreated sewage. Some rare and potentially pathogenic species were isolated from chlorinated and regrowth samples, including Yersinia enterocolitica, Yersinia pestis, Pasteurella multocida, and Hafnia alvei. Our results indicate that chlorination, while initially lowering the total number of bacteria in sewage, may substantially increase the proportions of antibiotic-resistant, potentially pathogenic organisms.

Documentos Relacionados

• Chlorination of Indicator Bacteria and Viruses in Primary Sewage Effluent
• Ultrasonic enhancement of antibiotic action on gram-negative bacteria.
• Transfer and expression of degradative and antibiotic resistance plasmids in acidophilic bacteria.
• Transfer of antibiotic resistance genes between gram-positive and gram-negative bacteria.
• Effect of Racephenicol on Antibiotic Resistance of Lactose-Fermenting Enteric Bacteria in Chickens