Decolorization and Biodegradation of basic violet dye by fungal- bacterial consortia
DOI:
https://doi.org/10.24297/jac.v13i0.4073Keywords:
Basic violet dye, microbial remediation, fungal bacterial consortia, phyto-toxicity, FTIR.Abstract
The present study was aimed to test the ability of Penicillium citrinum MTCC 8009, Aspergillusterreus MTCC 3006, Bacillus cohnii and their consortia to decolorize basic violet dye. Different parameters such as initial dye concentration, dye to inoculum ratio and period of incubation were studied for the decolourization of the dye. The developed fungal-bacterial consortia exhibited maximum percent decolorization (92%) ability when compared to the treatment of dyes by individual microbes. Percent decolorization of basic violet dye (92%) was more efficient using fungal-bacterial (Penicillium citrinum and Bacillus cohnii) consortia than with individual cultures. Phyto-toxicity results indicated that bacterial-fungal consortia (Penicillium citrinum and Bacillus cohnii) treatment was believed to degrade the dyes to non-toxic intermediates. The FTIR analysis also revealed that decolorization of basic violet dyes was due to its degradation.
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References
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2. Childs R & Bardsley W, The steady-state kinetics of per-oxidase with 2,2’-azino-di-(3-ethylbenzthiazoline-6-sulphonic acid) as chromogen, Biochem. J,145 (1975) 93-103.
3. Ge J &Qu J, Degradation of azo dye acid red B on manganese dioxide in the absence and presence of ultrasonic irradiation, J. Hazard. Mater, 100 (2003) 197-207.
4. Gould J P & Groff K A, Kinetics of ozonolysis of synthetic dyes, Ozone Sci. Eng, 9(1987) 153.
5. Harshad S L, Enhanced biodegradation and detoxification of disperse azo dye Rubine GFL and textile industry effluent by defined fungal-bacterial consortium, International Biodeterioration & Biodegradation, 72(2012) 94-107.
6. Kasuga K T, Hirose S, Aiba T, Takahashi S &HirataniK,Transport of monosaccharide through a liquid membrane mediated by lipophilic alkalic earth metal complex, Tetrahedron Lett, 39 (1998) 699-702.
7. Khelifi E, Bouallagui H, Touhami Y, Godon J, Hamdi M, Enhancement of textile wastewater decolourization and biodegradation by isolated bacterial and fungal strains, Desalination and Water Treatment,2 (2009) 310-316.
8. Koyuncu I, Direct filtration of procion dye bath wastewaters by nanofiltration membranes: Flux and removal characteristics, J. Chem. Technol. Biotechnol, 78 (2003) 1219.
9. Kuwahara M, Glenn J K, Morgan M A & Gold M H, Separation and characterisation of two extracellular H2O2 dependent oxidases ligninolytic cultures of Phanerochaete chrysosporium, FEBS letters,169 (1984) 247-250.
10. Lee D W, Won R & Yup H K, Removal of an organic dye from water using a predispersed solvent extraction, Separation Sci. Technol, 35 (2000) 1951-1962.
11. Mehrali S H, Alavi Moghaddam M R, Hashemi S H, Removal of reactive blue 19 by adding polyaluminium chloride to sequencing batch reactor system, Iran. J. Environ. Health. Sci. Eng, 7 (2010) 63-70.
12. Murphy J, Joseph G, Long L, Mitchell K &Poje G V, Hazard Investigation of Reactive Chemicals, Process Safety Progress, 20 (2001) 253-256
13. Nagda G K &Ghole V S, Biosorption of Congo red by hydrogen peroxide treated Tendu waste, Iran. J. Environ. Health. Sci. Eng, 6 (2009) 195-200.
14. Naimabadi A, Attar M H, Shahsavani A, Decolorization and biological degradation of azo dye reactive red 2 by anaerobic/aerobic sequential process, Iran. J. Environ. Health. Sci. Eng, 6 (2009) 67-72.
15. Pavko A, Fungal Decolourization and Degradation of Synthetic Dyes Some Chemical Engineering Aspects, Waste Water - Treatment and Reutilization, (2011) 65-88.
16. Qiu Y, Zheng Z, Zhou Z, Sheng G D, Effectiveness and mechanisms of dye adsorption on a straw-based biochar, J Bioresource Tech,100 (2009) 5348-5351
17. Qu Y, Shi S, Ma F, Yan B, Decolorization of reactive dark blue K-R by the synergism of fungus and bacterium using response surface methodology, Bio-resource Technology, 101 (2010) 8016-8023.
18. Rafi F, Fraeankalin W, Cerniglia C E, Optimization of cultural condition for decolorization of textile effluent, Appl Environ Microbiol, 56 (1990) 2146-2148
19. Reddy S & Kotaiah B, Comparative evaluation of commercial and sewage sludge based activated carbons for the removal of textile dyes from aqueous solutions. Iran. J. Environ. Health. Sci. Eng, 3 (2006) 239-246.
20. Rezaee A, Ghaneian M. T, Khavanin A, Hashemian S J, Moussavi G H, Photochemical oxidation of reactive blue 19 dye (RB19) in textile wastewater by UV/K2S2O8 process, Iran J Environ. Health. Sci. Eng, 5 (2008) 95-100
21. Roy D, Valsaraj K T &Kottai S A, Separation of organic dyes from wastewater by using colloidal gas aphrons, Separation Sci. Technol, 27 (1992) 573-88.
22. Snider E H & Porter J J, Ozone treatment of textile wastes, Journal of the Water Pollution Control Federation, 46 (1994) 886.
23. Su Y, Zhang Y, Wang J, Zhou J, Lu X, Lu H,. Enhanced biodecolorization of azo dyes by co-immobilized quinone-reducing consortium and anthraquinone,Bioresource Technology, 100 (2009) 2982-2987.
24. Szygu1a A, Guibal E, Palacı´n M A, Ruiz M, Sastre A M, Removal of an anionic dye (Acid Blue 92) by coagulation–flocculation using chitosan, J. Environ. Manage, 90 (2009) 2979-2986.
25. Tien M, Kirk T K, Lignin Peroxidase of Phanerochaete chrysosporium, Methods in Enzymology, 161 (1988) 238-249
26. Van der Bruggen B, De Vreese I &Vandecasteele C, Water reclamation in the textile industry: Nanofiltration of dye baths for wool dyeing, Indust. Eng. Chem. Res, 40 (2001) 3973-3978.
27. Vandevivere P C, Bianchi R, VerstraeteW,Treatment and reuse of wastewater from the textile wet-processing industry: review of emerging technologies, J. Chem. Technol. Biotechnol., 72 (1998) 289-302
28. Yu S, Liu M, Ma M, Qi M, Lü Z, Gao C, Impacts of membrane properties on reactive dye removal from dye/salt mixtures by asymmetric cellulose acetate and composite polyamide nanofiltration membranes, J. Membr. Sci, 350 (2010) 83-91.
29. Zamora P, Pereira C M, Tiburtius E R L, Moraes S G, Rosa M A, Minussi R C, Duran N, Decolorization of reactive dyes by immobilized laccase, Appl. Catal. B: Environ, 42 (2003) 131-144
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Published
2017-02-20
How to Cite
Deivasigamni, M. R., & Ramalingam, P. (2017). Decolorization and Biodegradation of basic violet dye by fungal- bacterial consortia. JOURNAL OF ADVANCES IN CHEMISTRY, 13(3), 6438–6444. https://doi.org/10.24297/jac.v13i0.4073
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