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Degradation of Synthetic Dyes by Laccases – A Mini-Review

. Inorg. Chem., 11, 2006, 514-526. FABBRINI, M., GALLI, C., GENTILI, P.: Comparing the catalytic efficiency of some mediators of laccase. J. Mol. Cat. B Enz., 16, 2002, 231-240. FISCHER, A.R., WERNER, P., GOSS, K.U.: Photodegradation of malachite green and malachite green carbinol under irradiation with different wavelength ranges. Chemosphere, 2011, 82, 210-214. FORGACS, E., CSERHÁTI, T., OROS, G.: Removal of synthetic dyes from wastewaters: a review. Environ. Int., 30, 2004, 953-971. FOROOTANFAR, H

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Removal of indigo carmine from an aqueous solution by fungus Pleurotus ostreatus

.03.002. [6] Crini G.: Non-conventional low-cost adsorbents for dye removal: a Review , Bioresource Technol., 97 , 1061-1085 (2006). [7] Fu Y., Viraraghavan T.: Fungal decolorization of dye wastewaters: a Review , Bioresource Technol., 79 , 251-262 (2001). [8] Fu Y., Viraraghavan T.: Dye biosorption sites in Aspergillus niger , Bioresource Technol., 82 , 139-145 (2002). [9] Garg V.K., Kumar R., Gupta R.: Removal of malachite green dye from aqueous solution by adsorption using agro-industry waste: a case study of

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Environmentally Friendly Techniques for Wool Dyeing Process

.N. Decolourisation of azo dyes containing wastewater by Phanerochaete chrysosporium in a rotating biological contactor. J. Environ. Prot. Ecol., 2010, 1, 7-19. 5. Daneshvar, N.; Ayazloo, M.; Khataeeal, A.R.; Pourhassan, M. Biological decolourazation of dye solution containing malachite green by microalgae Cosmarium sp. Bioresource. Technol., 2007, 98, 1176-1182. 6. Preiss, A.; Sanger, U.; Karfich, N.; Levsen, K.; Mugge, C; Characterization of dyes and other pollutants in the effluent of a textile company by LC/NMR and LC/MS. Anal. Chem., 2000, 72

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Effect Of Metal Ions On Triphenylmethane Dye Decolorization By Laccase From Trametes Versicolor

decolorization of malachite green at high temperatures and ionic concentrations. Int. Biodeterior. Biodegradation, 87, 2014, 109-115. ZHANG, C., ZHANG, S., DIAO, H., ZHAO, H., ZHU, H., LU, 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

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Photocatalytic, Sonolytic and Sonophotocatalytic Degradation of 4-Chloro-2-Nitro Phenol

C 5-14. [4] Berberidou, C., Poulios, I. Xekoukoulotakis, N.P., & Mantzavinos, D. (2007). Sonolytic, photocatalytic and Sonophotocatalytic degradation of malachite green in aqueous solutions, Applied catalysis B: Environmental , 74, 63-72. [5] Dubey, S.K., Srivastava, P., Verma, A., & Rajor, A. (2009). Solar photocatalytic treatment of textile wastewater for biodegradability enhancement, International Journal of Environmental Engineering , 1 (2), 152-164. [6] Evgenidou, E., Fytianos, K., & Poulios, I. (2005

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Adsorptive removal of pentachlorophenol from aqueous solutions using powdered eggshell

organic pollutants from wastewater, Journal of Environmental Management, 113, pp. 170–183. Bras, I., Lemos, L., Alves, A. & Pereira, M.F.R. (2005). Sorption of pentachlorophenol on pine bark, Chemosphere , 60, pp. 1095–1102. Carvalho, J., Araujo, J. & Castro, F. (2011). Alternative low-cost adsorbent for water and wastewater decontamination derived from eggshell waste: An overview, Waste and Biomass Valorization, 2, pp. 157–167. Chowdhury, S. & Saha, P.D. (2012). Utilization of a domestic waste – eggshells for removal of hazardous Malachite Green

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Direct yellow degradation by combined Fenton-enzymatic process

Malachite green by Kocuria rosea MTCC 1532. Acta Chem. Eng. 53: 492-498. Robinson T, McMullan G, Marchant R, Nigam P (2001) Remediation of dyes in textile effluent: a critical review on current treatment technologies with a proposed alternative. Bioresour. Technol. 77: 247-255. Schmitt S, De Souza R, Bettin F, Pinheiro Dillon AJ, Borges Valle JA, Andreaus J (2012) Decolourization of aqueous solutions of disperse textile dyes by oxidoreductases. Biocatal. Biotransfor. 30: 48-56. Silverstein RM, Bassler GC, Morrill TC (1991

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Using of wooden sawdust for copper removal from waters

, Greece, September 5-7, p. 1-6. Imamoglu M, Tekir O (2008) Removal of copper (II) and lead (II) ions from aqueous solutions by adsorption on activated carbon from a new precursor hazelnut husks. Desalination 228: 108-113. Kidalova, L, Stevulova, N, Terpakova, E (2015) Influence of water absorption on the selected properties of hemp hurds composites. Pollack Periodica 10: 123-132. Leng L, Yuan X, Zeng G, Shao J, Chen X, Wu Z, Peng X (2015) Surface characterization of rice husk bio-char produced by liquefaction and application for cationic dye (Malachite

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Review of Spectrophotometric Methods for Determination of Formaldehyde

trace amount of formaldehyde base on a bromate-Malachite Green system. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy , 135 , 506-510. ISSN 1386-1425 [50] AFKHAMI, A., REZAEI, M. 1999. Sensitive spectrophotometric determination of formaldehyde by inhibition of the malachite green–sulfite reaction. Microchemical journal , 63 (2), 243-249. ISSN 0026-265X [51] QUESENBERRY, M. S., LEE, Y. C. 1996. A rapid formaldehyde assay using purpald reagent: application under periodation conditions. Analytical biochemistry , 234 (1), 50-55. ISSN

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The Nightmare: Genetically Modified Organisms as Alien Species

meeting of the Conference of the Parties UN conference adopts international liability rules for ecological damage resulting from genetically modified organisms, available at: http://dev.gmo-safety.eu/news/1233.conferenceadopts-international-liability-rules-ecological-damage-resulting-genetically-modified-organisms.html (10.12.2013). 28. Vijayalakshmidevi S. R. and Muthukumar K., 2013 ‒ Biodegradation of malachite green by Ochrobactrum sp., World Journal of Microbiology and Biotechnology. (in printing) 29. Waminal N. E., Ryu K. H., Choi S

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