Abstract
In this study, a newly screened mixed bacterial flora DDMY2 had high decolorization capacity for anthraquinone dye reactive blue 19 (RB19) and the decolorization efficiency of 300 mg L−1 RB19 could reach up to 98% within 48 h in the presence of tea residue. Results indicated that RB19 could be efficiently decolorized by flora DDMY2 in wide ranges of pH values (5.0–9.0), temperatures (30–40 °C) and initial dye concentrations (50–500 mg L−1) under the activation of tea residue. Concentration of tea residue had been proved to significantly impact the decolorization performance. UV-vis spectrophotometry, Fourier transform infrared spectrometry and liquid chromatography/time-of-flight/mass spectrometry analysis showed three identified degradation products and the possible degradation pathway of RB19 was speculated. High-throughput sequencing analysis revealed the community structures of bacterial flora before and after domestication by tea residue. Based on the result, it was inferred that unclassified_o_Pseudomonadales, Brevibacillus, Stenotrophomonas and Bordetella activated by tea residue were responsible for the excellent decolorization performance. Results of this research deepen our understanding of the biodegradation process of anthraquinone dyes by bacterial flora and broaden the knowledge of utilizing tea residue as a bioactivator in biological treatment.
Highlights
Synthetic dyes are widely used in various industries, such as textiles, paper printing, cosmetics, plastics, food and leather.[1]
Tea residue was made from West Lake Longjing tea (Hangzhou, China) which was repeatedly brewed at 80 C until tea soup became colorless
The culture medium and tea residue were sterilized under the condition of 121 C, 0.12 MPa for 20 min
Summary
Synthetic dyes are widely used in various industries, such as textiles, paper printing, cosmetics, plastics, food and leather.[1] Among them, textile industries mainly have desizing, washing, bleaching, drying and other processes,[2] which produce a large amount of effluent containing complex and refractory dyes. These dyes are discharged into water bodies, which can reduce the light penetration and oxygen transfer, resulting in changes to photosynthesis and aquatic ecosystems.[3] Dyes are usually physically and chemically stable in the natural environment and they are highly recalcitrant and harmful to living things.[4]. F NCIM 5545, which just decolorized 50 mg LÀ1 reactive blue 19
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