Abstract
Thein vitro toxic effect of different volatile fatty acids (VFA) on Shigella dysenteriae was studied in pure culture. Volatile fatty acids viz., acetate, propionate, butyrate, valerate, caproate and heptanoate, exerted pH dependent toxic effect on the pathogen, with minimum inhibitory concentration in the range of 10–3000 mg l−1. The effect of high levels of VFA on S. dysenteriae was studied during anaerobic digestion of human night soil in an experimental digester with VFA level ≅ 9000 mg l−1 and pH ≅ 6.5. Another digester, with VFA level ≅ 700 mg l−1 and pH 7.4, served as the control. In the experimental digester, S. dysenteriae was completely eliminated within 18 days. In the control digester, a four-log reduction in pathogen count was achieved however the pathogen was not completely eliminated. T 90 values for the experimental and control digesters were 2.2 and 3.7 days respectively.
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References
Abdul, P. & Lloyd, D. 1985 Pathogen survival during anaerobic digestion: Fatty acids inhibit anaerobic growth of Escherichia coli. Biotechnology Letters 7, 125-128.
Agarwal, K.C., Vinayak, V.K., Ganguly, N.K., Kumar, M. & Chhuttani, P.N. 1978 Ecological effects of production of biogas from human excreta on the enteric pathogens. Indian Journal of Medical Research 67, 737-743.
Carrington, E.G., Harman, S.A. & Pike, E.B. 1982 Inactivation of Salmonella during anaerobic digestion of sewage sludge. Journal of Applied Bacteriology 53, 331-334.
Cherrington, C.A., Hinton, M. & Chopra, I. 1990 Effect of short chain organic acids on macromolecular synthesis in Escherichia coli. Journal of Applied Bacteriology 68, 69-74.
Dayal, M. (ed.) 1981 Biogas Technology and Utilization–A Status Report, New Delhi: Department of Science and Technology, Government of India.
Fay, J.P. & Farias, R.N. 1975 The inhibitory effect of fatty acids on the growth of Escherichia coli. Journal of General Microbiology 91, 233-240.
Ginnivan, M.J., Woods, J.L. & O'Callaghan, J.R. 1980 Survival of Salmonella dublin in pig slurry during aerobic thermophilic treatment in batch, cyclic and continuous systems. Journal of Applied Bacteriology 49, 13-18.
Henry, D.P., Frost, A.J., Samuel, J.L., O'Boyle, D.A. & Thomson, R.H. 1983 Factors affecting the survival of Salmonella and Escherichia coli in anaerobically fermented pig waste. Journal of Applied Bacteriology 55, 89-95.
Hungate, R.E. 1969 A roll tube method for cultivation of strict anaerobes. Methods in Microbiology 3B, 117-132.
Kearney, T.E., Larkin, M.J. & Levett, P.N. 1993 The effect of slurry storage and anaerobic digestion on survival of pathogenic bacteria. Journal of Applied Bacteriology 74, 86-93.
Kunte, D.P., Yeole, T.Y., Chiplonkar, S.A. & Ranade, D.R. 1998 Inactivation of Salmonella typhi by high levels of volatile fatty acids during anaerobic digestion. Journal of Applied Microbiology 84, 138-142.
Kwon, Y.M. & Ricke, S.C. 1998 Survival of Salmonella typhimurium poultry isolate in the presence of propionic acid under aerobic and anaerobic conditions. Anaerobe 4, 251-256.
Miller, T.L. & Wolin, M.J. 1974 A serum bottle modification of Hungate technique for cultivating obligate anaerobes. Applied Microbiology 27, 985-87.
MNES (1999) Annual Report 1997-98, New Delhi: Ministry of Non-Conventional Energy Sources, Government of India.
Olsen, J.E. & Larsen, H.E. 1987 Bacterial decimation times in anaerobic digestion of animal slurries. Biological Wastes 21, 153-168.
Snedecor, G.W. & Cochran, W.G. 1967 Statistical Methods 6th edition. New Delhi: Oxford and IBH Publishing Co.
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Kunte, D., Yeole, T. & Ranade, D. Effect of volatile fatty acids on Shigella dysenteriae during anaerobic digestion of human night soil. World Journal of Microbiology and Biotechnology 16, 519–522 (2000). https://doi.org/10.1023/A:1008915231175
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DOI: https://doi.org/10.1023/A:1008915231175