由山东假单胞菌和二甲基硫代丙酸盐(DMSP)组成的新型制剂可提高深海条件下受石油污染沉积物的生物修复能力

IF 6.7 2区 环境科学与生态学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Yanlu Qiao , Wenhui Xu , Jinxiao Wei , Lingbing Kong , Jianliang Xue , Qing Jiang , Dongle Cheng , Yuyang Liu
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引用次数: 0

摘要

深海环境具有低温和高静压的特点,抑制了微生物对石油碳氢化合物的代谢。在此,我们开发了由赵氏假单胞菌(Pseudomonas zhaodongensis)和二甲基硫代丙酸酯(DMSP)不同组合组成的新型生物修复剂,以促进深海微宇宙环境中的石油降解。首先,通过转录组测序,我们发现DMSP可能通过在细胞内分泌潜在的压溶质提供静水压保护,使细菌健康生长,从而促进石油的生物降解。然后,通过油量测量和高通量测序,我们评估了使用所研究的药剂和本地微生物(即自然修复)修复受石油污染的泥质和沙质沉积物的效果,并证明了以下几点:1) 使用药剂的不同处理方法的石油降解效率比自然修复高 23.47 % - 41.02 %;2) 每种修复方案都定义了专门的细菌群落。3)总体而言,经生物修复剂处理的沉积物样品中的微生物群落在营养互作、结构稳定性和抗干扰性方面具有更好的多样性;4)与自然修复相比,在经生物修复剂处理的群落中,涉及石油成分降解和生物地球化学循环的途径表现出不同程度的上调。总之,这些结果表明,在典型的深海条件下,肇东金线鲃和 DMSP 在提高石油污染沉积物的生物修复能力方面起着至关重要的作用,为未来深海石油污染的原位修复提供了新的思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel agents consisting of Pseudomonas zhaodongensis and dimethylsulfoniopropionate (DMSP) enhancing bioremediation of oil-contaminated sediments at deep-sea condition

Deep-sea environments are featured by low temperature and high hydrostatic pressure, which inhibits petroleum hydrocarbon metabolism by microorganisms. Herein, we developed novel bioremediating agents composed of different combinations of Pseudomonas zhaodongensis and dimethylsulfoniopropionate (DMSP) to promote oil degradation at deep-sea microcosm environment. First, through transcriptome sequencing, we revealed DMSP might provide hydrostatic pressure protection via secretion of potential piezolytes within the cell, which let bacteria healthy growth and thereby promoted oil biodegradation. Then, via oil measurement and high-throughput sequencing, we assessed effectiveness on using the studied agents and indigenous microorganism (i.e., natural remediation) to restore oil-contaminated muddy and sandy sediments at the microcosm, and demonstrated: 1) Oil degradation efficiency among different treatments using agents was 23.47 % – 41.02 % higher than that in natural remediation; 2) Each remediation plan defined specialized bacterial community. Marinobacter, Idiomarina, Sulfitobacter, Ferrimonas, Halodesulfovibrio, Paramaledivibacter and Pseudomonas were keystone oil-degrading taxa; 3) Overall, microbial community in sediment samples treated by bioremediation agents obtained better diversification of trophic interactions, structure stability and interference resistance; 4) Compared to natural remediation, pathways involving in oil component degradation and biogeochemical cycling exhibited varying degrees of up-regulation in agent-treated groups. Altogether, these results emphasize the crucial role of P. zhaodongensis and DMSP in enhancing bioremediation of oil-polluted sediments at typical deep-sea condition, and provide a novel idea for in-situ restoration of oil pollution at deep sea in future.

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来源期刊
Environmental Technology & Innovation
Environmental Technology & Innovation Environmental Science-General Environmental Science
CiteScore
14.00
自引率
4.20%
发文量
435
审稿时长
74 days
期刊介绍: Environmental Technology & Innovation adopts a challenge-oriented approach to solutions by integrating natural sciences to promote a sustainable future. The journal aims to foster the creation and development of innovative products, technologies, and ideas that enhance the environment, with impacts across soil, air, water, and food in rural and urban areas. As a platform for disseminating scientific evidence for environmental protection and sustainable development, the journal emphasizes fundamental science, methodologies, tools, techniques, and policy considerations. It emphasizes the importance of science and technology in environmental benefits, including smarter, cleaner technologies for environmental protection, more efficient resource processing methods, and the evidence supporting their effectiveness.
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