Nitrate is the second largest contaminant of agriculture soil after pesticides. It also is a major pollutant from nuclear and metallurgical operations. Conventional methods for nitrate removal suffers from high cost and complexity leaving bioremediation as a viable alternative strategy. A pilot plant of 2.5 m(3)/day capacity has been functioning since 2005 based on microbial consortia treating actual effluent from nuclear power plant having pH of 7-8.5 (optimum) with N:C ratio of 1:1.7. The maximum biodegradable nitrate concentration of 3000 ppm could be reduced to below permissible limit (44.2 ppm) within 24 h in presence of sodium acetate as carbon source. Culture independent analysis (16S rDNA based) revealed clones having closest identity with uncultured bacterium, Pseudomonas stutzeri and Azoarcus sp. The existence of dissimilatory pathway of nitrate reduction in the community DNA is indicated by presence of nirS and nirK gene. Though the microbial mass was developed using municipal sewage, absence of Mycobacterium sp was confirmed using PCR. The understanding of the molecular identification of the consortium would help in developing the preservation strategy of the microbial mass for replication and perpetuation of the system.

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http://dx.doi.org/10.1002/jobm.201200676DOI Listing

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