Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/5058
Title: Differential approach of bioremediation by sclerotium rolfsii towards textile dye
Authors: Samuel, Anthony 
Lakshmaiah, , Vasantha Veerappa 
Dias, Priyanjali 
Praveen, N. 
Fernandes, Cannon Antony 
Nizam, Aatika 
Krishna, Suresh Babu Naidu 
Keywords: 11 Medical and Health Sciences;Biodegradation;Bioadsorption;Sclerotium rolfsii;Malachite green;Rose Bengal
Issue Date: 5-Oct-2023
Source: Samuel, A. et al. 2023. Differential approach of bioremediation by sclerotium rolfsii towards textile dye. Current Trends in Biotechnology and Pharmacy. 17(3s): 1159-1169. doi:10.5530/ctbp.2023.3s.53
Journal: Current Trends in Biotechnology and Pharmacy; Vol. 17, Issue 3s 
Abstract: 
Synthetic dyes are extensively used in various industries and are one of the major contaminants of industrial effluents. Dyes being xenobiotic, carcinogenic, and toxic there is need for their effective removal and detoxification to conserve water resources. Tremendous research has been carried out to identify potent microorganisms that facilitate bioremediation of these harmful dyes. A static batch culture has proved white rot fungi Sclerotium.rolfsii as an efficient catalyst in bioremediation of textile dyes and to compare their efficiency in decolourisation of two different azo dyes. Studies revealed the organism employ different remedial approach to cationic dye (Malachite green) and anionic dyes (Rose Bengal). Decolourisation of malachite green was a gradual with degradation and bio-transformation to colourless, non-toxic by products while Decolourisation of rose Bengal was quick process of biosorption. S.rolfsii exhibited 89% of decolourisation of malachite green dyes at higher concentration of 900mg/L while 96% for rose Bengal at 900mg/L. The mechanism of dye decolourisation was proposed using the UV Vis spectrophotometry, FTIR, XRD, HPLC and SEM. Microbial toxicity studies confirmed the dye metabolites of degraded malachite green was less toxic compared to original dye. Com- prehensively studies illustrate the sustained application of S. rolfsii as model organism for bioremediation of complex industrial effluents due to its differential bio remedial approach can potentially decolourise or remove various dyes.
URI: https://hdl.handle.net/10321/5058
ISSN: 0973-8916
2230-7303 (Online)
DOI: 10.5530/ctbp.2023.3s.53
Appears in Collections:Research Publications (Applied Sciences)

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