Abstract
Text ile dyes have been used since the Bronze Age. They also constitute a prototype 21 st -century speciality chemicals market. Effluent and soil samp les were collected fro m textile industry at Surat. The pH, temperature, BOD, COD, Nitrate and Nitrite values were co mpared with the values given by the Bureau of Indian Standards. The culture med iu m was designed and standardized in the laboratory for the isolation and degradation of the dyes. Pure cultures were screened on the basis of colony morphology. Three different types of unique cultures were selected and named as isolates S1, S2 & S3. Out of 12 dyes used, isolate S1 showed degradation on the maximu m nu mber of dyes (five) in co mparison to other isolates (isolates S2 and S3). Thus, isolate S1 was used for the further studies. The isolate S1 was used for the study of the amount of dye to be degraded. For this study Red BB dye was chosen. Because, isolate S1 showed maximu m degradation on Red BB dye within less time of incubation in comparison with other dyes. Almost all isolates showed the positive results in some of the biochemical tests. Thus most of the isolates can have the capacity to produce the enzyme tryptophanase, indole production, citrate permease (citrate as carbon and energy source), catalase enzy me, degradation of glucose oxidatively as well as fermentatively, urease, gelatinase, production of acid and gas (allo w to ferment lactose and/or sucrose) and fermentation of sugar, lactose, sucrose, mannitol and glucose. Total cellu lar fatty acids profiling has been considered to be one of the important and ideal tool for identification of microorganis ms. On the basis of fatty acid pro filing of isolate S1 the similarity index indicated as Bacillus cereus GC subgroup A (similarity index 0.825), B. thuringiensis sub sp. israelensis (similarity index 0.552) and for B. thuringiensis sub sp. Kurstakii (similarity index 0.511). The isolate S1 was assumed to be B. cereus GC subgroup A. Thus this isolates can be used to degrade harmful azo dyes utilized by the dye, text ile, paper, in k industries etc.
Highlights
The colored effluents discharged fro m text ile processing and dye-manufacturing industries contain a significant amount of unreacted dyes
The Biological o xygen demand (BOD) value could not be found for the effluent samp les
Wastes containing high biochemical o xygen demand (BOD) and Chemical o xygen demand (COD) are responsible for a heavy depletion of o xygen levels in the particular sector of the stream or soil[28]
Summary
The colored effluents discharged fro m text ile processing and dye-manufacturing industries contain a significant amount of unreacted dyes. Upto 15% o f the dyestuff does not bind to the fibers and is released into the environment[1]. The world annual production of the dyestuffs amounts to more than 7×105 tonnes[2]. Azo dyes, being the largest group of synthetic dyes, constitute up to 70% of all the known co mmercial dyes produced[3]. Text ile processing wastewaters with dye contents in the range of 10–200 mg l-1 are h ighly colored. The chemical structure of coloured dyes are characterized
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
