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References
Abadulla E, Tzanov T, Costa S, Robra KH, Cavaco PA, Guebitz GM (2000) Decolorization and
detoxi
cation of textile dyes with a laccase from Trametes hirsuta. Appl Environ Microbiol
66:3357
3362
Akan JC, Abdulrahman FI, Ayodele JT, Ogugbuaja VO (2009) Impact of tannery and textile
ef
uent on the chemical characteristics of Challawa River, Kano State, Nigeria. Aust J Basic
Appl Sci 3:1933
-
1947
Albuquerque MGE, Lopes AT, Serralheiro ML, Novais JM, Pinheiro HM (2005) Biological
sulphate reduction and redox mediator effects on azo dye decolorization in anaerobic
-
aerobic
sequencing batch reactors. Enzyme Microbiol Technol 36:790
-
799
Aleboyeh A, Aleboyeh H, Moussa Y (2003) Critical effect of hydrogen peroxide in photochemical
oxidative decolorization of dyes: acid orange 8, acid blue 74 and methyl orange. Dyes Pigm
57:67
Ali N, Hameed A, Siddiqui MF, Ghumro PB, Ahmed S (2009) Application of Aspergillus niger
SA1 for the enhanced bioremoval of azo dyes in simulated textile efuent. Afr J Biotechnol
8:3839
-
3845
An TC, Zhu XH, Xiong Y (2002) Feasibility study of photoelectrochemical degradation of with
three-dimensional electrode-photocatalytic reactor. Chemosphere 46:897
Anastasi A, Parato B, Spina F, Tigini V, Prigione V, Varese GC (2011) Decolorization and
detoxi
cation in the fungal treatment of textile wastewaters from dyeing processes. New
Biotechnol 29:38
-
45
Ang EL, Zhao H, Obbard JP (2005) Recent advances in the bioremediation of persistent organic
pollutants via biomolecular engineering. Enzyme Microbiol Technol 37:487
-
496
Anjaneya O, Souche SY, Santoshkumar M, Karegoudar TB (2011) Decolorization of sulfonated
azo dye metanil yellow by newly isolated bacterial strains: Bacillus sp. strain AK1 and
Lysinibacillus sp. strain AK2. J Hazard Mater 190:351
-
358
APHA (1998) Standard methods for the examination of water and wastewater, 20th edn. American
Public Health Association, Washington, DC
Arslan I, Balcioglu IA, Bahnemann DW (2000) Advanced chemical oxidation of reactive dyes in
simulated dyehouse efuents by ferrioxalate-Fenton/UV-A and TiO2/UV-A processes. Dyes
Pigm 47:207
Asgher M, Azim N, Bhatti HN (2009) Decolorization of practical textile industry efuents by
white rot fungus Coriolus versicolor IBL-04. Biochem Eng J 47:61
-
65
Ayed L, Mahdhi A, Cheref A, Bakhrouf A (2011) Decolorization and degradation of azo dye
methyl red by an isolated Sphingomonas paucimobilis: biotoxicity and metabolites charac-
terization. Desalination 274:272
-
277
Babel S, Kurniwan TA (2003) Low-cost adsorbents for heavy metals uptake from contaminated
water: a review. J Hazard Mater B 97:219
Babu BR, Parande AK, Raghu S, Kumar TP (2007) Cotton textile processing: waste generation
and ef
uent treatment. J Cotton Sci 11:141
-
153
Bandara J, Morrison C, Kiwi J, Pulgarin C, Peringer P (1996) Degradation/decoloration of
concentrated solutions of orange II. Kinetics and quantum yield for sunlight induced reactions
via Fenton type reagents. J Photochem Photobio A: Chem 99:57
Baughman GL, Weber EJ (1994) Transformation of dyes and related compounds in anoxic
sediment: kinetic and products. Environ Sci Technol 28:267
-
276
Beydilli MI, Pavlostathis SG, Tincher WC (1998) Decolorization and toxicity screening of
selected reactive azo dyes under methanogenic conditions. Water Sci Technol 38:225
-
232
Blumel S, Stolz A (2003) Cloning and characterization of the gene coding for the aerobic
azoreductase from Pigmentiphaga kullae K24. Appl Microbiol Biotechnol 62:186
-
190
Bohmer U, Kirsten C, Bley T, Noack M (2010) White-rot fungi combined with lignite granules
and lignitic xylite to decolorize textile industry wastewater. Eng Life Sci 10:26
-
34
-
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