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Bacillus subtilis PE-11 in various matrices by entrapment technique, AAPS PharmSciTech , 6, pp. 391–397. Ayed, L., Khelifi, E., Jannetc, H.B., Miladi, H., Cheref, A., Achour, S. & Bakhrouf, A. (2010). Response surface methodology for decolorization of azo dye Methyl Orange by bacterial consortium: Produced enzymes and metabolites characterization, Chemical Engineering Journal, 165, pp. 200–208 Banat, I.M, Nigam, P., Singh, D. & Marchant, R. (1996). Microbial decolourization of textile dyes containing effluents, Bioresource Technology , 58, pp. 217–227. Behera, S

References Alcántara TAP, Oliveira JM, Evangelista-Barreto NS, Marbac PAS, Cazetta ML (2017) Aerobic decolorization o azo dye Orange G by a new yeast isolate Candida cylindracea SJL6. Biosci. J. 33: 1340-1350. Axon A, May FE, Gaughan LE, Williams FM, Blain PG, Wright MC (2012) Tartrazine and sunset yellow are xenoestrogens in a new screening assay to identify modulators of human oestrogen receptor transcriptional activity. Toxicology. 298: 40-51. Baiocco P, Barreca AM, Fabbrini M, Galli C, Gentili P (2003) Promoting laccase activity towards non

, F., LU, Z.: Purification and characterization of a temperature and pH stable laccase from the spores of Bacillus vallismortis fmb-103 and its application in the degradation of malachite green, J. Agric. Food Chem., 61, 2013, 5468-5473. ZHAO, D., ZHANG, X., CUI, D., ZHAO, M.: Characterisation of a novel white laccase from the deuteromycete fungus Myrothecium verrucaria NF-05 and its decolourisation of dyes. PLoS ONE, 7, 2012, 38817. ZHU, M.J.Z., DU, F., ZHANG, G.Q., WANG, H.X., NG, T.B.: Purification a laccase exhibiting dye decolorizing ability from an edible

processes. Dyes and Pigments, 72, 367-371. [10] Neamtu M, Siminiceanu I, Yediler A, Kettrup A. (2002). Kinetics of decolorization and mineralization of reactive azo dyes in aqueous solution by the UV/H 2 O 2 oxidation. Dyes and Pigments, 53, 93-99. [11] Ince N.H, Stefan M.I, Bolton J.R. (1997). UV/H 2 O 2 degradation and toxicity reduction of textile azo dyes: remazol Black-B, a case study. Journal of Advanced Oxidation Technology, 2, 442-448. [12] Namboodri C.G, Walsh W.K. (1996). Ultraviolet light/hydrogen peroxide system for decolourizing spent reactive dyebath waste

, Marouani L, Hamdi M. Decolorization of fresh and stored-black olive mill wastewaters by Geotrichum candidum . Process Biochem 2002;38:361-5. Ayed L, Assas N, Sayadi S, Hamdi M. Involvement of lignin peroxidase in the decolourization of black olive mill wastewaters by Geotrichum candidum . Lett Appl Microbiol 2005;40:7-11. Gonçalves C, Lopes M, Ferreira JP, Belo I. Biological treatment of olive mill wastewater by non-conventional yeasts. Bioresour Technol 2009;100:3759-63. Clesceri LS, Greenberg AE, Rhodes Trussell R, editors. Standard Methods for the Examination of

References [1] Ammar S., Abdelhedi R., Flox C., Arias C., Brillas E.: Electrochemical degradation of the dye indigo carmine at boron-doped diamond anode for wastewaters remediation , Environ. Chem. Lett., 4 , 229-233 (2006). [2] Asma D., Kahraman S., Cing S., Yesilada O.: Adsorptive removal of textile dyes from aqueous solutions by dead fungal biomass, J. Basic Microb., 46 (1) , 3-9 (2006). [3] Banat I.M., Nigam P., Singh D., Marchant R.: Microbial decolourization of textile dyes containing effl uents: a Review , Bioresource Technol., 58 , 217-227 (1996

.ultsonch.2008.08.005. 16. Wang, J., Lv, Y., Zhang, L., Liu, B., Jiang, R., Han, G., Xu, R. & Zhang, X. (2010). Sonocatalytic degradation of organic dyes and comparison of catalytic activities of CeO 2 /TiO 2 , SnO 2 /TiO 2 and ZrO 2 /TiO 2 composites under ultrasonic irradiation. Ultr. Sonochem. 17, 642–648. DOI: 10.1016/j.ultsonch.2009.12.016. 17. Zeng, Y.F., Liu, Z.L. & Qin, Z.Z. (2009). Decolorization of molasses fermentation wastewater by SnO 2 -catalyzed ozonation. J. Hazard Mater . 162, 682–687. DOI: 10.1016/j.jhazmat.2008.05.094. 18. Pala, A. & Erden, G. (2005

References Ahmedi A, Abouseoud M, Couvert A, Amrane A (2012) Enzymatic degradation of Congo Red by turnip (Brassica rapa) peroxidase, Z. Naturforsch. C, 67: 429-436. Akhtar S, Khan AA, Husain Q (2005) Partially purified bitter gourd (Momordica charantia) peroxidase catalysed decolourization of textile and other industrially important dyes. Bioresour. Technol. 96: 1804-1811. Akhtar S, Husain Q (2006) Potential of immobilized bitter gourd (Momordica charantia) peroxidase in the removal of phenols from polluted water. Chemosphere 65: 1228-1235. Arslan I, Balcioglu

Wiley and Sons, New York, NY, USA, pp. 2.0.1-2.0.3. Chakraborty, R., Mukherjee, A.K. & Mukherjee, A. (2009). Evaluation of genotoxicity of coal fl y ash in Allium cepa root cells by combining comet assay with the Allium test, Environmental Monitoring and Assessment, 153, 1-4, pp. 351-357. Chen, B.Y. & Chang, J.S. (2007). Assessment upon species evolution of mixed consortia for azo dye decolorization, Journal of the Chinese Institute of Chemical Engineers, 38, 3-4, pp. 259-266. Chen, H., Hopper, S.L. & Cerniglia, C.E. (2005). Biochemical and molecular characterization

References Rauf, M. A. & Ashraf S. (2009). Fundamental principles and application of heterogeneous photocatalytic degradation of dyes in solution. Chem. Eng. J. 151, 10-18. DOI: 10.1016/j.cej.2009.02.026. Khataee, A. R., Vatanpour, V. & Amani, A. (2009). Decolorization of C. I. Acid Blue 9 solution by UV/Nano-TiO 2 , Fenton, Fenton-like, electro-Fenton and electrocoagulation processes: A comparative study. J. Hazard. Mater. 161, 1225-1233. DOI: 10.1016/j.jhazmat.2008.04.075. Konstantinou, I. K. & Albanis, T. A. (2004). TiO 2 -assisted photocatalytic