Bacillus subtilis : As an Efficient Bacterial Strain for the Reclamation of Water Loaded with Textile Azo Dye, Orange II.
Muhammad IkramMohammad NaeemMohammad ZahoorMarlia Mohd HanafiahAdeleke Abdulrahman OyekanmiNoor Ul IslamMidrar UllahMater H MahnashiAmer Al AliNaif A JalalFarkad BantunAiman M MomenahAbdul SadiqPublished in: International journal of molecular sciences (2022)
The azo dye orange II is used extensively in the textile sector for coloring fabrics. High concentrations of it are released into aqueous environments through textile effluents. Therefore, its removal from textile wastewater and effluents is necessary. Herein, initially, we tested 11 bacterial strains for their capabilities in the degradation of orange II dye. It was revealed in the preliminary data that B. subtilis can more potently degrade the selected dye, which was thus used in the subsequent experiments. To achieve maximum decolorization, the experimental conditions were optimized whereby maximum degradation was achieved at: a 25 ppm dye concentration, pH 7, a temperature of 35 °C, a 1000 mg/L concentration of glucose, a 1000 mg/L urea concentration, a 666.66 mg/L NaCl concentration, an incubation period of 3 days, and with hydroquinone as a redox mediator at a concentration of 66.66 mg/L. The effects of the interaction of the operational factors were further confirmed using response surface methodology, which revealed that at optimum conditions of pH 6.45, a dye concentration of 17.07 mg/L, and an incubation time of 9.96 h at 45.38 °C, the maximum degradation of orange II can be obtained at a desirability coefficient of 1, estimated using the central composite design (CCD). To understand the underlying principles of degradation of the metabolites in the aliquot mixture at the optimized condition, the study steps were extracted and analyzed using GC-MS(Gas Chromatography Mass Spectrometry), FTIR(Fourier Transform Infrared Spectroscopy), 1 H and carbon 13 NMR(Nuclear Magnetic Resonance Spectroscopy). The GC-MS pattern revealed that the original dye was degraded into o-xylene and naphthalene. Naphthalene was even obtained in a pure state through silica gel column isolation and confirmed using 1 H and 13 C NMR spectroscopic analysis. Phytotoxicity tests on Vigna radiata were also conducted and the results confirmed that the dye metabolites were less toxic than the parent dye. These results emphasize that B. subtilis should be used as a potential strain for the bioremediation of textile effluents containing orange II and other toxic azo dyes.
Keyphrases
- wastewater treatment
- highly efficient
- aqueous solution
- gas chromatography mass spectrometry
- magnetic resonance
- visible light
- type diabetes
- magnetic resonance imaging
- bacillus subtilis
- single cell
- drug delivery
- climate change
- skeletal muscle
- adipose tissue
- big data
- deep learning
- gas chromatography
- diffusion weighted imaging
- data analysis