Functional and structural responses of a halophilic consortium to oily sludge during biodegradation.

IF 3.9 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied Microbiology and Biotechnology Pub Date : 2024-12-01 Epub Date: 2024-01-12 DOI:10.1007/s00253-023-12896-4
Dorra Hentati, Ahmed R Ramadan, Raeid M M Abed, Nasser Abotalib, Ashraf M El Nayal, Wael Ismail
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Abstract

Biotreatment of oily sludge and the involved microbial communities, particularly in saline environments, have been rarely investigated. We enriched a halophilic bacterial consortium (OS-100) from petroleum refining oily sludge, which degraded almost 86% of the aliphatic hydrocarbon (C10-C30) fraction of the oily sludge within 7 days in the presence of 100 g/L NaCl. Two halophilic hydrocarbon-degrading bacteria related to the genera Chromohalobacter and Halomonas were isolated from the OS-100 consortium. Hydrocarbon degradation by the OS-100 consortium was relatively higher compared to the isolated bacteria, indicating potential synergistic interactions among the OS-100 community members. Exclusion of FeCl2, MgCl2, CaCl2, trace elements, and vitamins from the culture medium did not significantly affect the hydrocarbon degradation efficiency of the OS-100 consortium. To the contrary, hydrocarbon biodegradation dropped from 94.1 to 54.4% and 5% when the OS-100 consortium was deprived from phosphate and nitrogen sources in the culture medium, respectively. Quantitative PCR revealed that alkB gene expression increased up to the 3rd day of incubation with 11.277-fold, consistent with the observed increments in hydrocarbon degradation. Illumina-MiSeq sequencing of 16 S rRNA gene fragments revealed that the OS-100 consortium was mainly composed of the genera Halomonas, Idiomarina, Alcanivorax and Chromohalobacter. This community structure changed depending on the culturing conditions. However, remarkable changes in the community structure were not always associated with remarkable shifts in the hydrocarbonoclastic activity and vice versa. The results show that probably synergistic interactions between community members and different subpopulations of the OS-100 consortium contributed to salinity tolerance and hydrocarbon degradation.

嗜卤菌群在生物降解过程中对含油污泥的功能和结构反应。
对含油污泥的生物处理及其所涉及的微生物群落(尤其是在盐碱环境中)很少进行研究。我们从石油精炼含油污泥中富集了一个嗜卤细菌联合体(OS-100),在 100 克/升氯化钠的条件下,该联合体在 7 天内降解了含油污泥中近 86% 的脂肪烃(C10-C30)。从 OS-100 联合体中分离出两种嗜卤碳氢化合物降解细菌,分别与 Chromohalobacter 和 Halomonas 属有关。与分离出的细菌相比,OS-100 群落的碳氢化合物降解率相对较高,这表明 OS-100 群落成员之间可能存在协同作用。从培养基中排除 FeCl2、MgCl2、CaCl2、微量元素和维生素对 OS-100 菌群的碳氢化合物降解效率没有显著影响。相反,当培养基中的磷酸盐和氮源被剥夺时,OS-100 菌群的碳氢化合物生物降解率分别从 94.1% 和 54.4% 下降到 5%。定量聚合酶链式反应(PCR)显示,alkB 基因的表达量在培养的第三天增加了 11.277 倍,与观察到的碳氢化合物降解量的增加相一致。16 S rRNA 基因片段的 Illumina-MiSeq 测序显示,OS-100 菌群主要由 Halomonas、Idiomarina、Alcanivorax 和 Chromohalobacter 属组成。这种群落结构随培养条件的变化而变化。不过,群落结构的显著变化并不总是与碳氢化合物活性的显著变化相关联,反之亦然。结果表明,OS-100 群落中群落成员和不同亚群之间的协同作用可能有助于耐盐性和碳氢化合物降解。
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来源期刊
Applied Microbiology and Biotechnology
Applied Microbiology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
10.00
自引率
4.00%
发文量
535
审稿时长
2 months
期刊介绍: Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more. The journal welcomes full-length papers and mini-reviews of new and emerging products, processes and technologies.
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