Treatment of textile effluent in a developed phytoreactor with immobilized bacterial augmentation and subsequent toxicity studies on Etheostoma olmstedi fish

•A phytoreactor was developed and augmented with immobilized bacteria.•This consortium showed enhanced treatment than the individual species.•Oxido-reductases from P. crinitum and B. pumilus could decolorize the effluent.•Characterization of effluent samples endorsed the efficacy of consortial strat...

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Bibliographic Details
Published in:Journal of hazardous materials 2015-01, Vol.283, p.698-704
Main Authors: Watharkar, Anuprita D., Khandare, Rahul V., Waghmare, Pankajkumar R., Jagadale, Ashwini D., Govindwar, Sanjay P., Jadhav, Jyoti P.
Format: Article
Language:English
Subjects:
Animals
Bacillus - metabolism
Bacillus pumilus
Bacteria
Biodegradation, Environmental
Bioreactors - microbiology
Catalase - metabolism
Cells, Immobilized - microbiology
Coloring Agents - chemistry
Coloring Agents - toxicity
Decolorization
E. olmstedi
Effluents
Etheostoma olmstedi
Fish
Gills - drug effects
Gills - pathology
Industrial Waste
Lipid Peroxidation
Oxidative Stress
P. crinitum
Perciformes
Phaseolus - drug effects
Phytoreactor
Phytoremediation
Plants (organisms)
Poaceae - metabolism
Reactors
Sorghum - drug effects
Sorghum vulgare
Superoxide Dismutase - metabolism
Textile Industry
Textiles
Toxicity
Waste Disposal, Fluid - methods
Waste water
Waste Water - chemistry
Waste Water - toxicity
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Summary:•A phytoreactor was developed and augmented with immobilized bacteria.•This consortium showed enhanced treatment than the individual species.•Oxido-reductases from P. crinitum and B. pumilus could decolorize the effluent.•Characterization of effluent samples endorsed the efficacy of consortial strategy.•Toxicity studies revealed the less toxic nature of the consortium treated effluent. A static hydroponic bioreactor using nursery grown plants of Pogonatherum crinitum along with immobilized Bacillus pumilus cells was developed for the treatment of textile wastewater. Independent reactors with plants and immobilized cells were also kept for performance and efficacy evaluation. The effluent samples characterized before and after their treatment showed that the plant–bacterial consortium reactor was more efficient than those of individual plant and bacterium reactors. COD, BOD, ADMI, conductivity, turbidity, TDS and TSS of the textile effluent was found to be reduced by 78, 70, 93, 4, 90, 13 and 70% respectively within 12 d by the consortial set. HPTLC analysis revealed the transformation of the textile effluent to new products. The phytotoxicity study on Phaeseolus mungo and Sorghum vulgare seeds showed reduced toxicity of treated effluents. The animal toxicity study performed on Etheostoma olmstedi fishes showed the toxic nature of untreated effluent giving extreme stress to fishes leading to death. Histology of fish gills exposed to treated effluent was found to be less affected. The oxidative stress related enzymes like superoxide dismutase and catalase were found to show decreased activities and less lipid peroxidation in fishes exposed to treated effluent.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2014.10.019