Bacterial Degradation of Synthetic Dye by Pseudomonas sp. Obtained from Dyeing Mill Effluent

American Journal of Pure and Applied Biosciences Pub Date : 2020-12-06 DOI:10.34104/ajpab.020.01920199

Md. Zobaidul Hossen, S. Akhter, Taslima Rahman, Tahmina, M. Khatun

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Abstract

Environmental pollution is one of the major concerns of today’s world. Due to rapid industrialization and urbanization, a large number of wastes are generated and discharged into the environment and causing major pollution problems. For obtaining reactive dye decolorizing bacterial isolates, effluent samples were collected from a dyeing mill. From bacterial pure culture, 10 isolates were selected for screening. Screening of these isolates for the capability to decolorize and degrade reactive dye was performed in a nutrient broth medium containing reactive dye. 6 isolates among these bacterial isolates showed dye decolorizing ability within 120 hours of incubation. These isolates were further identified based on cultural, morphological, and biochemical characteristics. These characteristics indicated that these six bacterial isolates were distributed to the bacterial genus of Bacillus (2 isolates), Pseudomonas (2 isolates), Aeromonas (1 isolate), and Alcaligenes (1 isolate). For the study of dye decolorization and degradation, Reactive Dark Blue dye used in jute and textile industries was chosen. Pseudomonas, a prominent dye decolorizing isolate during screening, was taken for the optimization of different physicochemical parameters. This bacterium decolorized and grew well up to 500 mgL-1 of Reactive Blue dye. Pseudomonas sp. showed noteworthy decolorization of approximately 84% at 200 mgL-1 of dye concentration after 96 h of incubation. The optimum temperature for dye degradation was at 37 °C. The maximum level of decolorization for Pseudomonas sp. was observed at pH 8.0. This isolate showed better decolorization extent under static conditions rather than shaking conditions. This result indicated that the dye had been utilized by this bacterial isolate. It can be concluded that Pseudomonas is a prospective candidate in the biodegradation of Reactive Blue dye and might be useful in bioprocess technology used for the bioremediation of dyeing mill effluents.

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印染厂废水中合成染料的细菌降解研究

环境污染是当今世界关注的主要问题之一。由于工业化和城市化的快速发展，产生了大量的废物并排放到环境中，造成了严重的污染问题。为获得活性染料脱色细菌分离株，对某印染厂的废水进行了采集。从细菌纯培养中筛选出10株进行筛选。在含有活性染料的营养肉汤培养基中对这些菌株进行了脱色和降解活性染料的能力筛选。其中6株菌株在培养120小时内表现出染料脱色能力。根据培养、形态和生化特征对这些分离株进行进一步鉴定。这些特征表明，这6株分离菌分别属于芽孢杆菌属(2株)、假单胞菌属(2株)、气单胞菌属(1株)和Alcaligenes属(1株)。以黄麻和纺织用活性深蓝染料为研究对象，对染料的脱色和降解进行了研究。选取筛选过程中对染料脱色效果较好的假单胞菌进行了不同理化参数的优化。这种细菌在500毫克-1活性蓝染料中脱色并生长良好。假单胞菌在200 mg -1的染料浓度下培养96 h后，脱色率约为84%。染料降解的最佳温度为37℃。pH为8.0时，假单胞菌的脱色效果最大。该分离物在静态条件下脱色效果好于振荡条件。结果表明，该分离菌已对染料进行了利用。由此可见，假单胞菌在活性蓝染料的生物降解中具有良好的应用前景，在印染厂废水生物修复的生物工艺技术中具有重要的应用价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American Journal of Pure and Applied Biosciences

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