1 Doronina, N.V., Trotsenko, Y.A., Tourova, T.P., Kuznetzov, B.B., Leisinger, T., “Methylophila helvetica sp. nov. and Methylobacterium dichloromethanicum sp. nov.—Novel aerobic facultatively methylotrophic bacteria utilizing dichloromethane”, Syst. Appl. Microbiol., 23 (2), 210-218 (2000). 2 Bilge, A.K., Ferhan, C., “Biodegradation of 1,2-dichloroethane (1,2-DCA) by cometabolism in a nitrifying biofilm reactor”, Int. Biodeter. Biodegr., 63 (6), 717-726 (2009). 3 Trotsenko, Y.A., Doronina, N.V., “The biology of methylobacteria capable of degrading halomethanes”, Microbiol., 72 (2), 121-131 (2003). 4 Liu, Q., Wang, J.D., Liu, C.L., Chen, J.M., “Electrochemical oxidation behavior of 1,4-dichlorobenzene on platinum electrodes in acetonitrile-aqueous solution”, Chin. J. Chem. Eng., 60 (2), 471-475 (2009). 5 Zhou, H.Y., Xu, X.H., Wang, D.H., “Catalytic dechlorination and kinetics of ο-dichlorobenzene by Pd/Fe”, Chin. J. Chem. Eng., 12 (4), 505-509 (2004). 6 Liu, Q., Song, X.X., Wang, J.D., Chen, Y., Chen, J.M., “Degradation pathways of 1,4-dichlorobenzene by electrochemical oxidation on platinum electrodes in acetonitrile-aqueous two-phase system”, Chin. J. Chem. Eng., 61 (2), 450-454 (2010). 7 Xie, S.M., Wan, P.Y., Andrew, J.F., Guan, J., Yang, X.B., Liu, X.G., “Dechlorination of chlorinated aliphatic compounds by micro-scale Al-Zn-Mg/Fe powders as advanced zero-valent iron”, Chin. J. Chem. Eng., 12 (5), 716-718 (2004). 8 Ames, R., Brown, J., Wand, Y., “Public health goals form dichloromethane in drinking water”, Office of Environmental Health Hazard Assessment, Environmental Protection Agency-Pesticide and Environmental Toxicology Section, California, USA (2000). 9 Howard, P.H., “Handbook of environmental fate of exposure data for organic chemicals”, Lewis Publishers Inc, 2, 176-183 (1990). 10 Christian, O.O., Badrudeen, A.M., Al-Saleh, E., Mulder, J.L., “Growth and hydrocarbon degradation by three desert fungi under conditions of simultaneous temperature and salt stress”, Int. Biodeter. Biodegr., 56 (4), 197-205 (2005). 11 Scholtz, R., Wackett, L.P., Egli, C., Cook, A.M., Leisinger, T., “Dichloromethane dehalogenase with improved catalytic activity isolated from a fast-growing dichloromethane-utilizing bacterium”, J. Bacteriol., 170 (12), 5698-5704 (1988). 12 Dhillon, S., Vonburg, R., “Methylene-chloride”, J. Appl. Toxicol., 15 (4), 329-335 (1995). 13 Doronina, N.V., Trotsenko, Y.A., Krausova, V.I., Suzina, N.E., “Paracoccus methylutens sp. nov.—A new aerobic facultatively methylotrophic bacterium utilizing dichloromethane”, Syst. Appl. Microbiol., 21 (2), 230-236 (1998). 14 Trotsenko, Y.A., Doronina, N.V., “The biology of methylobacteria capable of degrading halomethanes”, Microbiology, 72 (2), 121-131 (2003). 15 Brunner, W., Staub, D., Leisinger, T., “Bacterial degradation of dichloromethane”, Appl. Environ. Microb., 40 (5), 950-958 (1980). 16 Van Pee, K.H., Unversucht, S., “Biological dehalogenation and the halogenation reactions”, Chemosphere, 52 (2), 299-312 (2003). 17 Carliell, C.M., Barclay, S.J., Naidoo, N., Buckley, C.A., Mulholl, D.A., Senior, E., “Anaerobic decolorisation of reactive dyes in conventional sewage treatment processes”, Water SA, 20 (4), 341-344 (1994). 18 Manu, B., Chauhari, S., “Decolorization of indigo and azo dyes in semicontinuous reactors with long hydraulic retention time”, Process Biochem., 38 (8), 1213-1221 (2003). 19 Hartmans, S., Tramper, J., “Dichloromethane removal from waste gases with a trickle-bed bioreactor”, Bioproc. Eng., 6 (3), 83-92 (1991). 20 De Baere, L.A., Devocht, M., Assche, P.V., Verstraete, W., “Influence of high NaCl and NH4Cl salt levels on methanogenic associations”, Water Res., 18 (5), 543-648 (1984). 21 Peyton, B.M., Wilson, T., Yonge, D.R., “Kinetics of phenol biodegradation in high salt solutions”, Water Res., 36 (19), 4811-4820 (2002). 22 Doris, K.S., Thomas L., “Dichloromethane dehalogenase of Hyphomicromethane sp. strain DM2”, J. Bacteriol., 162 (2), 676-681 (1985). 23 Wu, S.J., Zhang, L.L., Wang, J.D., Chen, J.M., “Bacillus circulans WZ-12-a newly discovered aerobic dichloromethane-degrading methylotrophic bacterium”, Appl. Microbiol. Biot., 76 (6), 1289-1296 (2007). 24 Li, W., Wang, M.D., Chen, H., Chen, J.M, Shi, Y., “Biodesulfurization of dibenzothiophene by growing cells of Gordonia sp. in bath cultures”, Biotechnol. Lett., 28 (15), 1175-1179 (2006). 25 Holtman, G., Bremer, E., “Thermoprotection of Bacillus subtilis by exogenously provided glycine betaine and structurally related compatible solutes: involvement of Opu transporters”, J. Bacteriol., 186 (6), 1683-1693 (2004). 26 Wang, J.D., Chen, J.M., Yu, J.M., “Study on dichloromethane degradation of bacterium”, China Environ. Sci., 21 (6), 503-506 (2001). 27 Cleland, D., Krader, P., McCree, C., Tang, J., Emerson, D., “Glycine betaine as a cryoprotectant for prokaryotes”, J. Microbiol. Meth., 58 (1), 31-38 (2004). 28 Welsh, D.T., “Ecological significance of compatible solute accumulation by micro-organisms: from single cells to global climate”, FEMS Microbiol. Rev., 24 (3), 263-290 (2000). 29 Khoo, L.P., Chen, C.H., “Integration of response surface methodology with genetic algorithms”, Int. J. Adv. Manuf. Tech., 18 (7), 483-489 (2001). 30 Chi, Y.L., Wen, D.L., “The effect of salinity conditions on kinetics of trichloroethylene biodegradation by toluene-oxidizing cultures”, J. Hazard. Mater., 137 (1), 541-549 (2006). 31 Ruey, S.J., Hsiang, C.K., Kuo, J.T., “Kinetics of phenol removal from saline solutions by solvent extraction coupled with degradation in a two-phase partitioning bioreactor”, Sep. Purif. Technol., 71 (3), 285-292 (2010). 32 Gisi, D., Willi, L., Traber, H., Leisinger, T., Vuilleumier, S., “Effects of bacterial host and dichloromethane dehalogenase on the competitiveness of methylotrophic bacteria growing with dichloromethane”, Appl. Environ. Microb., 64 (4), 1194-1202 (1998). |