Original Research Article I Volume 5 I Issue 1 I 2017

Physico-chemical analysis of textile dye effluent using microbial consortia mediated degradation process

M. N. Abubacker; T. Mehala

Biolife; 2017, 5(1), pp 60-67

DOI:https://doi.org/10.5281/zenodo.7359415

Abstract:

Physico-chemical analysis of textile dye effluent have shown higher concentrations of total solids, total suspended solids, total dissolved solids, biological oxygen demand, chemical oxygen demand, dissolved oxygen, total hardness, carbonate, bicarbonate alkalinities, chloride, calcium, magnesium, sodium, sulphate, zinc, chromium, copper and lead was found to be above permissible levels of WHO standards which ensure the presence of pollutant overloaded in the textile effluent.

Keywords:

Bacterial consortium, Degradation, Effluent, Fungal consortium, Textile dye, Textile effluent

References:

[1].   Balan D S L, Monteiro R T R. Decolorization of textile indigo dye by ligninolytic fungi Doralice. J Biotechnol. 2001; 89: 141-145.

[2].   Campos R, Kandelbauer A, Robra K H, Paulo A C, Gubitz G M. Indigo degradation with purified laccases from Trametes hirsuta and sclerotim rolfsii.             J Biotechnol. 2001; 8: 131-139.

[3].   Nosheen S, Nawaz H, Khalil-ur-Rehman. Physico-chemical characterization of effluents of local textile industries of Faisalabad, Pakistan. Inter J Agr Biol. 2000; 2: 232-233.

[4].   Ghoreishi S M, Haghighi R. Chemical catalytic reaction and biological oxidation for treatment of non-biodegradable textile effluent. Chem Eng J. 2003; 95: 163-169.

[5].   Minussi R C, Moraes S G, Pastore G M, Duran N. Biodecolorization screening of synthetic dyes by four White-rot fungi in a solid medium: Possible role of siderophores. Lett Appl Microbiol. 2001; 33: 21-25.

[6].   Wagner S, Raleigh N C. Improvement in products and processing to diminish environmental impact. COTTECH Conference, pp. 11-12, November 1993.

[7].   McMullan G, Meehan C, Conneely A, Nirby N, Robinson T, Nigam P, Banat I M, Marchant S W F. A mini review: Microbial decolorization and degradation of textile dyes. Appl Microbiol Biotechnol. 2001; 56: 81-87.

[8].   Willetts J R M, Ashbolt N J, Moosbrugger R E, Aslam M R. The use of a thermophilic anaerobic system for pretreatment of textile dye wastewater. Water Sci and Technol. 2000; 42: 309-316.

[9].   Chapman P M, Romberg G P, Vigers G A. Design of monitoring studies for priority pollutants. J Water Pollut Cont Fed. 1982; 54: 292-297.

[10]. Tamburlini G, Ehrenstein O V, Bertollini R. WHO Geneva: WHO/European Environment Agency; Children’s health and environment: a review of evidence. Environmental Issue Report No 129. 2003; p 223.

[11]. Ademoroti C M A, Ukponmwan D O, Omode A A. Studies of textile effluent discharges in Nigeria. Environ Stud. 1992; 39: 291-296.

[12]. Brown M A, DeVito S C. Predicting azo dye toxicity. Crit Rev Environ Sci Technol. 1993; 23: 249-324....

Article Dates:

Received: 5 January 2017; Accepted: 26 February 2017; Published: 4 March 2017

How To Cite:

M. N. Abubacker, & T. Mehala. (2022). Physico-chemical analysis of textile dye effluent using microbial consortia mediated degradation process. Biolife, 5(1), 60–67. https://doi.org/10.5281/zenodo.7359415