生物
放大器
广域古菌界
古细菌
产甲烷菌
环境DNA
基因组
产甲烷
厌氧消化
扩增子测序
活性污泥
甲烷杆菌
底漆(化妆品)
微生物生态学
污水处理
生态学
细菌
聚合酶链反应
遗传学
基因
环境科学
生物多样性
16S核糖体RNA
化学
甲烷
环境工程
有机化学
作者
Christian Krohn,Kraiwut Jansriphibul,Daniel A. Dias,Catherine A. Rees,Ben van den Akker,Jennifer C. Boer,Magdalena Plebanski,Aravind Surapaneni,D. M. O’Carroll,Richard M. Stuetz,Damien J. Batstone,Andrew S. Ball
出处
期刊:Water Research
[Elsevier BV]
日期:2024-02-22
卷期号:253: 121354-121354
被引量:6
标识
DOI:10.1016/j.watres.2024.121354
摘要
DNA-based monitoring of microbial communities that are responsible for the performance of anaerobic digestion of sewage wastes has the potential to improve resource recoveries for wastewater treatment facilities. By treating sludge with propidium monoazide (PMA) prior to amplicon sequencing, this study explored how the presence of DNA from dead microbial biomass carried over with feed sludge may mislead process-relevant biomarkers, and whether primer choice impacts such assessments. Four common primers were selected for amplicon preparation, also to determine if universal primers have sufficient taxonomic or functional coverage for monitoring ecological performance; or whether two domain-specific primers for Bacteria and Archaea are necessary. Anaerobic sludges of three municipal continuously stirred-tank reactors in Victoria, Australia, were sampled at one time-point. A total of 240 amplicon libraries were sequenced on a Miseq using two universal and two domain-specific primer pairs. Untargeted metabolomics was chosen to complement biological interpretation of amplicon gene-based functional predictions. Diversity, taxonomy, phylogeny and functional potentials were systematically assessed using PICRUSt2, which can predict community wide pathway abundance. The two chosen universal primers provided similar diversity profiles of abundant Bacteria and Archaea, compared to the domain-specific primers. About 16 % of all detected prokaryotic genera covering 30 % of total abundances and 6 % of PICRUSt2-estimated pathway abundances were affected by PMA. This showed that dead biomass in the anaerobic digesters impacted DNA-based assessments, with implications for predicting active processes, such as methanogenesis, denitrification or the identification of organisms associated with biological foams. Hence, instead of running two sequencing runs with two different domain-specific primers, we propose conducting PMA-seq with universal primer pairs for routine performance monitoring. However, dead sludge biomass may have some predictive value. In principal component analysis the compositional variation of 239 sludge metabolites resembled that of 'dead-plus-alive' biomass, suggesting that dead organisms contributed to the potentially process-relevant sludge metabolome.
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