Enhanced Degradation of Acid Orange 52 Using a Polyextremophilic Ascomycete in Stirred Tank Bioreactor

A polyextremophilic fungal strain, A. flavus QMS-8, previously isolated from the hypersaline soil taken from the rhizospheric region of the neem tree, Azadirachta indica (Meliaceae), was recognized as the proficient strain for decolorization of Acid Orange 52, a toxic dye employed in textile operati...

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Published in:Water, air, and soil pollution air, and soil pollution, 2023-08, Vol.234 (8), p.509, Article 509
Main Authors: Laraib, Qandeel, Shafique, Maryam, Versiani, Muhammad Ali, Gul, Khitab, Ejaz, Uroosa, Muhammad, Haji, Naz, Sehar Afshan, Rangel, Drauzio E. N., Alder-Rangel, Alene, Yasmeen, Kousar, Jabeen, Nusrat, Liu, Jing, Wang, Li, Fu, Pengcheng, Sohail, Muhammad
Format: Article
Language:English
Subjects:
Acids
Amines
Aromatic amines
Aromatic compounds
Atmospheric Protection/Air Quality Control/Air Pollution
Biochemical oxygen demand
Bioreactors
Bioremediation
Chemical oxygen demand
Climate Change/Climate Change Impacts
Cytotoxicity
Decoloring
Decolorization
Degradation
Dissolved solids
Dyes
Earth and Environmental Science
Effluent treatment
Effluents
Environment
Environmental monitoring
Fruits
Fungi
HPLC
Hydraulic retention time
Hydrogeology
Hyphae
Lignin
Lignin peroxidase
Liquid chromatography
Manganese
Manganese peroxidase
Metabolites
Microorganisms
Neem
Oxidases
Oxygen
Oxygen requirement
Peroxidase
Photomicrographs
Phytotoxicity
Retention time
Soil Science & Conservation
Solid suspensions
Spectrophotometers
Suspended particulate matter
Textile industry wastes
Textile industry wastewaters
Total dissolved solids
Total oxygen demand
Total suspended solids
Toxicity
Wastewater treatment
Water Quality/Water Pollution
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Summary:A polyextremophilic fungal strain, A. flavus QMS-8, previously isolated from the hypersaline soil taken from the rhizospheric region of the neem tree, Azadirachta indica (Meliaceae), was recognized as the proficient strain for decolorization of Acid Orange 52, a toxic dye employed in textile operations. A. flavus QMS-8 immobilized on Luffa cylindrica (Cucurbitaceae) attained 80.6% and consecutively complete dye degradation within a hydraulic retention time of 12–24 h in a stirred tank reactor even at salinities of 1–5% and environmental temperatures ranging in between 34 and 39 °C under optimized settings. The SEM micrographs revealed the attachment of fungal hyphae on L. cylindrica , while enzyme profiling demonstrated the participation of laccase (0.17 IU mL −1) , manganese peroxidase (0.16 IU mL −1 ), and lignin peroxidase (0.06 IU mL −1 ) in the degradation of Acid Orange 52. The decolorized samples were assessed through a UV-Vis spectrophotometer and HPLC which did not provide any information about the formation of aromatic amines or any other metabolite. The values of biological oxygen demand, chemical oxygen demand, total dissolved solids, and total suspended solids were reduced from 2836, 3000, 3415, and 360 mg L −1 to 615, 1179, 916, and 145 mg L −1 , respectively, and aligned closely with the established criteria set forth by the NEQ. Phytotoxicity and cytotoxicity assays of effluent treated in STR demonstrated a significant reduction in the toxic impact of dye on plants and microbial cells, suggesting that the luffa immobilized A. flavus QMS-8 employed in this study holds promise for mitigating the potentially harmful effects associated with Acid Orange 52. These results offer valuable insights into the efficacy and potential environmental benefits of the bioremediation approach for textile effluent investigated in this research.
ISSN:0049-6979
1573-2932
DOI:10.1007/s11270-023-06508-0