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- Preena, P. G.; Kumar, V. J. R.; Achuthan, C.; George, R.; Boobal, R.; Nair, R. R.; Singh, I. S. B.
- International journal of environmental science and technology 2018 v.15 no.11 pp. 2399-2410
- Actinobacteria; Bacteroidetes; Proteobacteria; acclimation; ammonia; animal health; bioreactors; brackish water; clones; computer software; denitrifying microorganisms; enzymes; flora; genes; marine environment; nitrification; nitrites; oxidants; phylogeny; quantitative polymerase chain reaction; recirculating aquaculture systems; ribosomal DNA; ribosomal RNA; salinity
- ... Nitrite is a well-known toxicant in aquaculture, produced as intermediate in nitrification. Two nitrite-oxidizing bacterial consortia, one from marine environment and the other from brackish water, were developed by enrichment technique at National Centre for Aquatic Animal Health, for removal of nitrite from recirculating aquaculture systems. In the present study, bacterial diversity of the conso ...
- Rodriguez Castillo, A.S.; Guihéneuf, S.; Biard, P.-F.; Paquin, L.; Amrane, A.; Couvert, A.
- International journal of environmental science and technology 2018 v.15 no.3 pp. 621-630
- acclimation; activated sludge; biodegradation; bioreactors; hydrophobicity; ionic liquids; toluene; volatile organic compounds
- ... Classical hydrophobic ionic liquids such as 3-butyl-1-methylimidazolium bis(trifluoroethylsulfonyl)imide or 3-butyl-1-methylimidazolium hexafluorophosphate application, as a non-aqueous liquid phase in a two-partitioning bioreactor to biodegrade hydrophobic volatile organic compounds by activated sludge, have been already reported in the literature, especially when the activated sludge was beforeh ...