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1.
Environ Sci Pollut Res Int ; 23(2): 1742-54, 2016 Jan.
Article in English | MEDLINE | ID: mdl-26396008

ABSTRACT

Aeromonas veronii GRI (KF964486), isolated from acclimated textile effluent after selective enrichment on azo dye, was assessed for methyl orange biodegradation potency. Results suggested the potential of this bacterium for use in effective treatment of azo-dye-contaminated wastewaters under static conditions at neutral and alkaline pH value, characteristic of typical textile effluents. The strain could tolerate higher doses of dyes as it was able to decolorize up to 1000 mg/l. When used as microbial surfactant to enhance methyl orange biodecolorization, Bacillus subtilis SPB1-derived lipopeptide accelerated the decolorization rate and maximized slightly the decolorization efficiency at an optimal concentration of about 0.025%. In order to enhance the process efficiency, a Taguchi design was conducted. Phytotoxicity bioassay using sesame and radish seeds were carried out to assess the biotreatment effectiveness. The bacterium was able to effectively decolorize the azo dye when inoculated with an initial optical density of about 0.5 with 0.25% sucrose, 0.125% yeast extract, 0.01% SPB1 biosurfactant, and when conducting an agitation phase of about 24 h after static incubation. Germination potency showed an increase toward the nonoptimized conditions indicating an improvement of the biotreatment. When comparing with synthetic surfactants, a drastic decrease and an inhibition of orange methyl decolorization were observed in the presence of CTAB and SDS. The nonionic surfactant Tween 80 had a positive effect on methyl orange biodecolorization. Also, studies ensured that methyl orange removal by this strain could be due to endocellular enzymatic activities. To conclude, the addition of SPB1 bioemulsifier reduced energy costs by reducing effective decolorization period, biosurfactant stimulated bacterial decolorization method may provide highly efficient, inexpensive, and time-saving procedure in treatment of textile effluents.


Subject(s)
Aeromonas/metabolism , Azo Compounds/metabolism , Coloring Agents/metabolism , Environmental Restoration and Remediation/methods , Water Pollutants, Chemical/metabolism , Aeromonas/classification , Aeromonas/genetics , Aeromonas/isolation & purification , Biodegradation, Environmental , Polysorbates/analysis , Surface-Active Agents/analysis , Textiles , Wastewater/analysis
2.
Water Sci Technol ; 72(8): 1283-93, 2015.
Article in English | MEDLINE | ID: mdl-26465297

ABSTRACT

Citrobacter sedlackii RI11, isolated from acclimated textile effluent after selective enrichment on synthetic dyes, was assessed for malachite green (MG) biotreatment potency. Results indicate that this bacterium has potential for use in effective treatment of MG contaminated wastewaters under shaking conditions at neutral and alkaline pH value, characteristic of typical textile effluents. Also, the newly isolated strain can tolerate higher doses of dye and decolorize up to 1,000 mg/l of dye. When used as microbial surfactant to enhance MG biodecolorization, Bacillus subtilis SPB1-derived lipopeptide accelerated the decolorization rate and maximized the decolorization efficiency at an optimal concentration of biosurfactant of about 0.075%. Studies ensured that MG removal by this strain could be due to biodegradation and/or adsorption. Results on germination potencies of different seeds using the treated dyes under different conditions favor the use of SPB1 biosurfactant for the treatment of MG.


Subject(s)
Citrobacter/metabolism , Lipopeptides/chemistry , Rosaniline Dyes/metabolism , Surface-Active Agents/chemistry , Waste Disposal, Fluid/methods , Adsorption , Bacillus subtilis/chemistry , Biodegradation, Environmental , Citrobacter/isolation & purification , Coloring Agents/metabolism , Germination/drug effects , Raphanus , Rosaniline Dyes/toxicity , Sorghum , Textiles
3.
Water Sci Technol ; 72(6): 865-74, 2015.
Article in English | MEDLINE | ID: mdl-26360745

ABSTRACT

Bacillus weihenstephanensis RI12, isolated from hydrocarbon contaminated soil, was assessed for Congo Red bio-treatment potency. Results suggested the potential of this bacterium for use in effective treatment of Congo Red contaminated wastewaters under shaking conditions at acidic and neutral pH value. The strain could tolerate higher doses of dyes as it could decolorize up to 1,000 mg/l of Congo Red. When used as microbial surfactant to enhance Congo Red biodecolorization, Bacillus subtilis SPB1-derived lipopeptide accelerated the decolorization rate and maximized the decolorization efficiency at an optimal concentration of biosurfactant of about 0.075%. Studies ensured that Congo Red removal by this strain could be due to an adsorption phenomena. Germination potencies of tomato seeds using the treated dyes under different conditions showed the efficient biotreatment of the azo dye Congo Red especially with the addition of SPB1 biosurfactant. To conclude, the addition of SPB1 bioemulsifier reduced energy costs by reducing the effective decolorization period; the biosurfactant stimulated bacterial decolorization method may provide a highly efficient, inexpensive and time-saving procedure in the treatment of textile effluents.


Subject(s)
Bacillus/metabolism , Biodegradation, Environmental , Congo Red/metabolism , Surface-Active Agents/chemistry , Adsorption , Bacillus/classification , Coloring Agents , Congo Red/chemistry , Hydrogen-Ion Concentration , Waste Disposal, Fluid/methods , Wastewater , Water Pollutants, Chemical/chemistry , Water Pollutants, Chemical/metabolism
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