厌氧盐水生物反应器的功能宏基因组学研究

D. Derilus, A. Forestil, J. Fortune, O. Polyanska, C. Louime, G. Gervais, S. Massey
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引用次数: 3

摘要

产甲烷菌仅限于古生菌的几个属,但它们在碳循环中具有重要意义,影响气候因素,并以沼气的形式在可再生能源中发挥作用。在这里,我们使用综合功能宏基因组学方法研究了微生物对马尾藻厌氧盐水生物反应器中甲烷生产的贡献,与淡水生物反应器相比,这种生物反应器的特征较差。尽管甲烷产量丰富,但我们通过16S rRNA群落分析发现,系统中古生菌的比例很低。我们通过对霰弹枪数据进行额外的16S rRNA分析并考虑CO2: ch4的产生来解决低代表性问题。使用新颖的网络对齐和树构建方法,我们测量了不同厌氧微生物群落的元代谢能力之间的相似性。盐水生物反应器样品聚集在一起,验证了该方法,并提供了一种确定微生物群落之间元代谢相似性的方法,具有一系列潜在的应用前景。我们还介绍了一些用于检查和解释元代谢网络拓扑的其他方法。低丰度的产甲烷菌似乎是这类厌氧系统的共同特性,可能反映了产甲烷菌相对较差的能量学,而对关键酶的检查证实产氢细菌是主要的发酵guild。我们的研究结果表明,利用现成的海水和海洋巨藻是一种有前途的方法来生产沼气作为可再生能源的来源。
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Functional Metagenomics Characterization of an Anaerobic Saltwater Bioreactor
Methanogens are restricted to a few genera of Archaea, however they have great importance in the carbon cycle, impacting climactic considerations, and also find a role in renewable energy in the form of biogas. Here, we examine the microbial contribution to the production of methane in a sargassum fed anaerobic saltwater bioreactor, which are poorly characterized compared to fresh water bioreactors, using a comprehensive functional metagenomics approach. Despite abundant production of methane, we detected a low proportion of Archaea in the system using 16S rRNA community profile analyses. We address the low representation using an additional 16S rRNA analysis of shotgun data and a consideration of CO2:CH4production. Using a novel network alignment and tree building approach, we measured similarity between the meta-metabolic capabilities of different anaerobic microbial communities. The saltwater bioreactor samples clustered together, validating the approach and providing a method of determining meta-metabolic similarity between microbial communities, with a range of potential applications. We also introduce a number of additional approaches for examining and interpreting meta-metabolic network topology. The low abundance of methanogens appears as a common property of such anaerobic systems and likely reflects the relatively poor energetics of methanogens, while examination of key enzymes confirms that hydrogen producing bacteria are the major fermentative guild. Our results indicate that the use of readily available seawater and marine macroalgae is a promising approach to the production of biogas as a source of renewable energy.
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21 weeks
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