病毒与原核生物之间的相互作用有助于清除人工湿地中的污染物。

IF 9.7 1区 环境科学与生态学 Q1 AGRICULTURAL ENGINEERING Bioresource Technology Pub Date : 2024-11-09 DOI:10.1016/j.biortech.2024.131791
Nan Zhang , Dong Zhu , Zhiyuan Yao , David Z. Zhu
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引用次数: 0

摘要

作为微生物群落的重要组成部分,对建构湿地(CWs)中病毒的研究仍然很少,但它们可能对污染物的去除产生重大影响。在此,我们建造了两个中试规模的人工湿地,利用深入的元基因组分析研究不同水力负荷率(HLR)下的病毒群落。基因共享网络表明,化武池是未开发的病毒库。与较低的 HLR 条件相比,在较高的 HLR 条件下,与硫循环和反硝化相关的原核功能基因的丰度更高,这与总氮和硝态氮的去除率更高有关。病毒还可能感染反硝化细菌和氨氧化细菌等功能性原核生物,并提供参与硫氮循环的辅助代谢基因,从而影响氮污染物的清除。这些发现揭示了病毒在化武污染物去除中的重要作用,并从微生物角度加深了对工程设计参数与性能之间关系的理解。
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Virus-prokaryote interactions assist pollutant removal in constructed wetlands
As a vital part of microbial communities, viruses in constructed wetlands (CWs) remain poorly explored, yet they could significantly affect pollutant removal. Here, two pilot-scale CWs were built to investigate the viral community under different hydraulic loading rates (HLRs) using in-depth metagenomic analysis. Gene-sharing networks suggested that the CWs were pools of unexplored viruses. A higher abundance of prokaryotic functional genes related to sulfur cycling and denitrification was observed in the higher HLR condition, which was associated with greater removal of total nitrogen and nitrate nitrogen compared to the lower HLR condition. Viruses also affect nitrogen pollutant removal by potentially infecting functional prokaryotes, such as denitrification bacteria and ammonia-oxidizing bacteria, and by providing auxiliary metabolic genes involved in sulfur and nitrogen cycling. These findings reveal the significance of viruses in pollutant removal in CWs and enhance the understanding of the relationship between engineering design parameters and performance from microbial perspectives.
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来源期刊
Bioresource Technology
Bioresource Technology 工程技术-能源与燃料
CiteScore
20.80
自引率
19.30%
发文量
2013
审稿时长
12 days
期刊介绍: Bioresource Technology publishes original articles, review articles, case studies, and short communications covering the fundamentals, applications, and management of bioresource technology. The journal seeks to advance and disseminate knowledge across various areas related to biomass, biological waste treatment, bioenergy, biotransformations, bioresource systems analysis, and associated conversion or production technologies. Topics include: • Biofuels: liquid and gaseous biofuels production, modeling and economics • Bioprocesses and bioproducts: biocatalysis and fermentations • Biomass and feedstocks utilization: bioconversion of agro-industrial residues • Environmental protection: biological waste treatment • Thermochemical conversion of biomass: combustion, pyrolysis, gasification, catalysis.
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