Multivariate comparison of taxonomic, chemical and operational data from 80 different full-scale anaerobic digester-related systems

IF 6.1 1区 工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biotechnology for Biofuels Pub Date : 2024-06-20 DOI:10.1186/s13068-024-02525-1
Pascal Otto, Roser Puchol-Royo, Asier Ortega-Legarreta, Kristie Tanner, Jeroen Tideman, Sjoerd-Jan de Vries, Javier Pascual, Manuel Porcar, Adriel Latorre-Pérez, Christian Abendroth
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Abstract

Background

The holistic characterization of different microbiomes in anaerobic digestion (AD) systems can contribute to a better understanding of these systems and provide starting points for bioengineering. The present study investigates the microbiome of 80 European full-scale AD systems. Operational, chemical and taxonomic data were thoroughly collected, analysed and correlated to identify the main drivers of AD processes.

Results

The present study describes chemical and operational parameters for a broad spectrum of different AD systems. With this data, Spearman correlation and differential abundance analyses were applied to narrow down the role of the individual microorganisms detected. The authors succeeded in further limiting the number of microorganisms in the core microbiome for a broad range of AD systems. Based on 16S rRNA gene amplicon sequencing, MBA03, Proteiniphilum, a member of the family Dethiobacteraceae, the genus Caldicoprobacter and the methanogen Methanosarcina were the most prevalent and abundant organisms identified in all digesters analysed. High ratios for Methanoculleus are often described for agricultural co-digesters. Therefore, it is remarkable that Methanosarcina was surprisingly high in several digesters reaching ratios up to 47.2%. The various statistical analyses revealed that the microorganisms grouped according to different patterns. A purely taxonomic correlation enabled a distinction between an acetoclastic cluster and a hydrogenotrophic one. However, in the multivariate analysis with chemical parameters, the main clusters corresponded to hydrolytic and acidogenic microorganisms, with SAOB bacteria being particularly important in the second group. Including operational parameters resulted in digester-type specific grouping of microbes. Those with separate acidification stood out among the many reactor types due to their unexpected behaviour. Despite maximizing the organic loading rate in the hydrolytic pretreatments, these stages turned into extremely robust methane production units.

Conclusions

From 80 different AD systems, one of the most holistic data sets is provided. A very distinct formation of microbial clusters was discovered, depending on whether taxonomic, chemical or operational parameters were combined. The microorganisms in the individual clusters were strongly dependent on the respective reference parameters.

Graphical Abstract

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对来自 80 个不同的全规模厌氧消化器相关系统的分类、化学和运行数据进行多元比较。
背景:厌氧消化(AD)系统中不同微生物群的整体特征有助于更好地了解这些系统,并为生物工程提供起点。本研究调查了 80 个欧洲全规模厌氧消化系统的微生物群。对运行、化学和分类数据进行了全面收集、分析和关联,以确定厌氧消化(AD)过程的主要驱动因素:本研究描述了各种不同厌氧消化(AD)系统的化学和操作参数。根据这些数据,运用斯皮尔曼相关性分析和丰度差异分析缩小了检测到的单个微生物的作用范围。作者成功地进一步限制了各种厌氧消化系统核心微生物群中微生物的数量。根据 16S rRNA 基因扩增片段测序,MBA03、Dethiobacteraceae 家族成员 Proteiniphilum、Caldicoprobacter 属和甲烷菌 Methanosarcina 是所有分析的消化器中最普遍和最丰富的微生物。在农业共消化器中,甲烷菌的比例通常很高。因此,值得注意的是,在几个消化池中,甲烷菌的比例出奇地高,达到 47.2%。各种统计分析显示,微生物按照不同的模式分组。纯粹的分类学相关性可以区分嗜乙酰群和嗜氢群。然而,在化学参数的多元分析中,主要的群组与水解微生物和产酸微生物相对应,SAOB 细菌在第二群组中尤为重要。将操作参数包括在内,可对沼气池类型的微生物进行特定分组。在众多反应器类型中,单独酸化的微生物因其出乎意料的行为而脱颖而出。尽管在水解预处理中最大限度地提高了有机物的负荷率,但这些阶段仍变成了极其强大的甲烷生产单元:结论:从 80 种不同的厌氧消化(AD)系统中,我们获得了一组最全面的数据。结论:从 80 个不同的厌氧消化(AD)系统中,我们提供了一个最全面的数据集。根据分类学、化学或操作参数的组合,我们发现了一个非常独特的微生物群组。各个群组中的微生物在很大程度上取决于各自的参考参数。
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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来源期刊
Biotechnology for Biofuels
Biotechnology for Biofuels 工程技术-生物工程与应用微生物
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审稿时长
2.7 months
期刊介绍: Biotechnology for Biofuels is an open access peer-reviewed journal featuring high-quality studies describing technological and operational advances in the production of biofuels, chemicals and other bioproducts. The journal emphasizes understanding and advancing the application of biotechnology and synergistic operations to improve plants and biological conversion systems for the biological production of these products from biomass, intermediates derived from biomass, or CO2, as well as upstream or downstream operations that are integral to biological conversion of biomass. Biotechnology for Biofuels focuses on the following areas: • Development of terrestrial plant feedstocks • Development of algal feedstocks • Biomass pretreatment, fractionation and extraction for biological conversion • Enzyme engineering, production and analysis • Bacterial genetics, physiology and metabolic engineering • Fungal/yeast genetics, physiology and metabolic engineering • Fermentation, biocatalytic conversion and reaction dynamics • Biological production of chemicals and bioproducts from biomass • Anaerobic digestion, biohydrogen and bioelectricity • Bioprocess integration, techno-economic analysis, modelling and policy • Life cycle assessment and environmental impact analysis
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