Decolorization and detoxification of direct blue 5B by a Marinobacter-dominated halo-thermoalkalophilic consortium.

Chemosphere Pub Date : 2024-09-01 Epub Date: 2024-07-31 DOI:10.1016/j.chemosphere.2024.142957
Shuxian Dang, Weihua Fan, Fanyun Meng, Xiangjin Li, Jiuxiao Hao, Chongyang Wang
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Abstract

Azo dye-containing sewage is commonly detected at high salinity, temperature and pH. In this study, a halo-thermoalkalophilic azo dye decolorization consortium was enriched and named "consortium HL". Consortium HL which was dominated by Marinobacter (84.30%), Desulfocurvibacter (1.89%), and Pseudomonas (1.85%), was able to completely decolorize Direct Blue 5B (DB5) during incubation with the material at 5% salinity, 50 °C, and pH 9 for 30 h. The decolorization mechanism was proposed based on combined metagenomic analysis, GC‒MS, and enzymatic activity detection. The action of the consortium HL showed great tolerance to variations in salinity, temperature and pH. A phytotoxicity study indicated that the metabolic intermediates showed no significant toxicity to the generation of Cucumis sativus and Oryza sativa seeds. This study, in which azo dye decolorization and degradation under high-salt, high-temperature and high-alkalinity conditions were investigated and deeply analyzed by metagenomic information, is the first report regarding the ability of Marinobacter to decolorize azo dyes at high temperatures.

以马林杆菌为主的嗜卤嗜碱菌群对直接蓝 5B 的脱色和解毒作用。
含偶氮染料的污水通常在高盐度、高温度和高 pH 值条件下被检测到。本研究富集了一个嗜卤素嗜碱性偶氮染料脱色联合体,并将其命名为 "联合体 HL"。菌群 HL 以马林杆菌(84.30%)、脱硫杆菌(1.89%)和假单胞菌(1.85%)为主,在 5%盐度、50 °C、pH 值为 9 的条件下培养 30 小时,能够完全脱色直接蓝 5B(DB5)。根据元基因组分析、气相色谱-质谱(GC-MS)和酶活性检测,提出了脱色机制。HL 菌群的作用对盐度、温度和 pH 值的变化表现出极大的耐受性。植物毒性研究表明,代谢中间产物对 Cucumis sativus 和 Oryza sativa 种子的生成没有明显毒性。这项研究调查了偶氮染料在高盐、高温和高碱度条件下的脱色和降解情况,并通过元基因组信息进行了深入分析,这是首次报道马林杆菌在高温条件下对偶氮染料的脱色能力。
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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