Environmental Engineering Reference
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Bragger JL, Lloyd AW, Soozandehfar SH, Bloom
eld SF, Marriott C, Martin GP (1997)
Investigations into the azo reducing activity of a common colonic microorganism. Int J Pharm
157:61
-
71
Bromley-Challenor KCA, Knapp JS, Zhang Z, Gray NCC, Hetheridge MJ, Evans MR (2000)
Decolorization of an azo dye by unacclimated activated sludge under anaerobic conditions.
Water Res 34:4410
4418
Brown JP (1981) Reduction of polymeric azo and nitro dyes by intestinal bacteria. Appl Environ
Microbiol 41:1283
-
1286
Carita R, Marin-Morales MA (2008) Induction of chromosome aberrations in the Allium cepa test
system caused by the exposure of seeds to industrial efuents contaminated with azo dyes.
Chemosphere 72:722
-
725
Casieri L, Varese GC, Anastasi A, Prigione V, Svobodova K, Filippelo MV (2008) Decoloration
and detoxi
cation of reactive industrial dyes by immobilized fung Trametes pubescens and
Pleurotus ostreatus. Folia Microbiol 53:44
-
52
Cervantes FJ, Van der Zee FP, Lettinga G, Field JA (2001) Enhanced decolorization of acid
orange 7 in continuous UASB reactor with quinines as redox mediators. Water Sci Technol
44:123
-
128
Cervantes FJ (2002) Quinones as electron acceptors and redox mediators for the anaerobic
biotransformation of priority pollutants. Agrotechnology and Food Sciences, Sub-department
of Environmental Technology, Wageningen University, Wageningen, The Netherlands, p 166
Charumathi D, Nilanjana D (2010) Bioaccumulation of synthetic dyes by Candida tropicalis
growing in sugarcane bagasse extract medium. Adv Biol Res 4:233
-
240
Chen BY, Hsueh CH, Chen WM, Li WD (2011) Exploring decolorization and halotolerance
characteristics by indigenousacclimatized bacteria: chemical structure of azo dyes and dose-
response assessment. J Taiwan Inst Chem Eng 42:816
-
825
Chen G (2004) Electrochemical technologies in wastewater treatment. Sep Purif Technol 38(1):11
Chen H, Jin X, Zhu K, Yang R (2002) Photocatalytic oxidative degradation of acridine orange in
queous solution with polymeric metalloporphyrins. Water Res 36:4106
Chen H, Wang RF, Cerniglia CE (2004) Molecular cloning, overexpression, puri
cation, and
characterization of an aerobic FMN-dependent azoreductase from Enterococcus faecalis.
Protein Express Purif 34:302
-
310
Chivukula M, Renganathan V (1995) Phenolic azo dye oxidation by laccase from Pyricularia
oryzae. Appl Environ Microbiol 61:4374
-
4377
Chung KT, Stevens SEJ (1993) Degradation of azo dyes by environmental microorganisms and
helminths. Environ Toxicol Chem 12:2121
-
2132
Chung KT, Stevens SEJ, Cerniglia CE (1992) The reduction of azo dyes by the intestinal
micro
ora. Crit Rev Microbiol 18:175
-
197
Claus H, Faber G, Koenig H (2002) Redox-mediated decolorization of synthetic dyes by fungal
laccases. Appl Microbiol Biotechnol 59:672
-
678
Das D, Charumathi D, Das N (2010) Combined effects of sugarcane bagasse extract and synthetic
dyes on the growth and bioaccumulation properties of Pichia fermentans MTCC 189. J Hazard
Mater 183:497
-
505
Dawkar VV, Jadhav UU, Govindwar SP (2009) Effect of inducers on the decolorization and
biodegradation of textile azo dye navy blue 2GL by Bacillus sp. VUS. Biodegradation
20:777
-
787
Dos Santos AB (2005) Reductive decolorization of dyes by thermophilic anaerobic granular
sludge. Sub-department of Environmental Technology, Wageningen University, Wageningen,
p 176
Dos Santos AB, Bisschops IAE, Cervantes FJ, Van Lier JB (2004a) Effect of different redox
mediators during thermophilic azo dye reduction by anaerobic granular sludge and comparative
study between mesophilic (30
°
C) and thermophilic (55
°
C) treatments for decolorization of
textile wastewaters. Chemosphere 55:1149
-
1157
-
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