Mass-immigration determines the assembly of activated sludge microbial communities

Dottorini, Giulia; Michaelsen, Thomas Yssing; Kucheryavskiy, Sergey; Andersen, Kasper Skytte; Kristensen, Jannie Munk; Peces, Miriam; Wágner, Dorottya Sarolta; Nierychlo, Marta; Nielsen, Per Halkjær

doi:10.1073/pnas.2021589118

Cited by 56 publications

(53 citation statements)

References 62 publications

(85 reference statements)

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“…Although Firmicutes was the most prevalent phylum in the soybean processing wastewaters, Proteobacteria became dominant in the enriched microbial biomass in the reactors. Therefore, the massive immigration of bacteria present in the influent did not determine the structure of the microbial community in the reactors, contrary to what has been reported for full-scale activated sludge plants (Dottorini et al, 2021). A similar observation was made in a full-scale membrane bioreactor plant where the influent bacterial populations contributed little to relative abundances of the core activated sludge community (Zhang & Meng, 2021).…”

Section: Resultscontrasting

confidence: 69%

Microbial community-based production of single cell protein from soybean-processing wastewater of variable chemical composition

Vethathirri

Santillan

Thi

et al. 2022

Preprint

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The use of food-processing wastewaters to produce microbial biomass-derived single cell protein (SCP) is a sustainable way to meet the global food demand. Yet, despite the potential benefits of lower costs and greater resource recovery compared to pure cultures, bioconversion processes relying on microbial community-based approaches to SCP production have received scarce attention. Here, we evaluated SCP production from soybean-processing wastewaters under controlled reactor conditions using the existent microbial communities in these wastewaters. Six sequencing batch reactors of 4.5-L working volume were operated at 30 ℃ for 34 d in cycles consisting of 3-h anaerobic and 9-h aerobic phases. Four reactors received no microbial inoculum and the remaining two were amended with a 1.5 L of mixed culture from a prior microbial community-based SCP production. Microbial characterization was done via 16S rRNA gene metabarcoding. Influent wastewater batches had variable chemical characteristics but a similar microbial composition. Reactors produced more SCP when fed with wastewaters of higher soluble total Kjeldahl nitrogen (sTKN) content and a lower carbon-to-nitrogen ratio (sCOD:sTKN). The biomass protein yield ranged from 0.24 to 3.13 g protein/g sTKN, with a maximum protein content of 50%. An average of 92% of sCOD and 73% of sTN removal was achieved. Distinct microbial communities were enriched in all six bioreactors after 34 d, where the prevailing genera included Azospirillum, Rhodobacter, Lactococcus, Novosphingobium, and Acidipropionibacterium. In contrast, the microbial community of influent wastewaters was dominated by Lactococcus and Weissella. We showed that constituents in soybean wastewater can be converted to SCP through microbial community-based growth processes and demonstrated the effect of variable influent wastewater composition on SCP production.

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Section: Resultscontrasting

confidence: 69%

Microbial community-based production of single cell protein from soybean-processing wastewater of variable chemical composition

Vethathirri

Santillan

Thi

et al. 2022

Preprint

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“…However, as only a few genera were present and abundant in most WWTPs globally, we have mainly focused on these, although many other genera and species could be abundant in a few plants across the world. The huge variation from plant to plant may be due to the high impact of immigration from different source communities to the WWTPs (Dottorini et al, 2021) (van Veen et al, 1973;Xia et al, 2008). Our study showed that all analyzed genera have the potential to degrade different polysaccharides such as starch and many amino acids and may grow under both oxic and anoxic conditions.…”

Section: Ecological Role Of Saprospiraceae In Wwtpsmentioning

confidence: 99%

Diversity and Ecophysiology of the Genus OLB8 and Other Abundant Uncultured Saprospiraceae Genera in Global Wastewater Treatment Systems

et al. 2022

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The Saprospiraceae family within the phylum Bacteroidota is commonly present and highly abundant in wastewater treatment plants (WWTPs) worldwide, but little is known about its role. In this study, we used MiDAS 4 global survey with samples from 30 countries to analyze the abundance and distribution of members of Saprospiraceae. Phylogenomics were used to delineate five new genera from a set of 31 high-quality metagenome-assembled genomes from Danish WWTPs. Newly designed probes for fluorescence in situ hybridization (FISH) revealed rod-shaped morphologies for all genera analyzed, including OLB8, present mostly inside the activated sludge flocs. The genomes revealed potential metabolic capabilities for the degradation of polysaccharides, proteins, and other complex molecules; partial denitrification; and storage of intracellular polymers (glycogen, polyphosphate, and polyhydroxyalkanoates). FISH in combination with Raman microspectroscopy confirmed the presence of intracellular glycogen in Candidatus Brachybacter, Candidatus Parvibacillus calidus (both from the former genus OLB8), and Candidatus Opimibacter, and the presence of polyhydroxyalkanoates in Candidatus Defluviibacterium haderslevense and Candidatus Vicinibacter. These results provide the first overview of the most abundant novel Saprospiraceae genera present in WWTPs across the world and their potential involvement in nutrient removal and the degradation of macromolecules.

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“…solids residence time [SRT] < 3 days) 5,6 or at low temperatures with microbial activities maintained near or below washout SRTs such as nitrification activity during winter. 7 The effects of influent microbiome input to the activated sludge processes have drawn interests on general heterotrophic organisms [8][9][10] and specific functional microbes such as nitrifiers and polyphosphate accumulating organisms (PAO). 7,[11][12][13] Until now, detailed influent microbiome input has largely been neglected in conventional process modeling frameworks, e.g., activated sludge models (ASMs).…”

Section: Introductionmentioning

confidence: 99%

“…The effects of influent microbiome input to the activated sludge processes have drawn interests on general heterotrophic organisms 8-10 and specific functional microbes such as nitrifiers and polyphosphate accumulating organisms (PAO). 7, 11-13 Until now, detailed influent microbiome input has largely been neglected in conventional process modeling frameworks, e.g., activated sludge models (ASMs).…”

Section: Introductionmentioning

confidence: 99%

Wastewater Influent Microbial Immigration and Contribution to Resource Consumption in Activated Sludge Using Taxon-Specific Mass-Flow Immigration Model

Guo

Liu

Gibson

et al. 2022

Preprint

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Wastewater influent microorganisms are part of the total chemical oxygen demand (COD) and affect the activated sludge (AS) microbial community. Precise modeling of AS processes requires accurate quantification of influent microorganisms, which is missing in many AS models (ASMs). In this study, influent microorganisms in COD unit were determined using a fast quantification method based on DNA yield and was compared with conventional respirometry method. The actively growing influent microorganisms were identified. A mass-flow immigration model was developed to quantify the influent-to-AS immigration efficiency (m_i) of specific taxon i using mass balance and 16S rRNA gene high-throughput sequencing data. The modelled average m was 0.121-0.257 in site 1 (LaPrairie), and 0.050-0.126 in site 2 (Pincourt), which were corrected to 0.111-0.186 and 0.048-0.109 respectively using a constrain of m_i≤1. The model was further developed to calculate contributions to organic substrate consumption by specific taxa. Those genera with zero or negative net growth rates were not completely immigration dependent (m_i<1) and contributed to 2.4% - 5.4% of the substrate consumption. These results suggest that influent microbiome may be important contributors to AS microbiome assembly and system performance (substrate consumption), which may help to improve future AS process modelling and design.

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Mass-immigration determines the assembly of activated sludge microbial communities

Cited by 56 publications

References 62 publications

Microbial community-based production of single cell protein from soybean-processing wastewater of variable chemical composition

Microbial community-based production of single cell protein from soybean-processing wastewater of variable chemical composition

Diversity and Ecophysiology of the Genus OLB8 and Other Abundant Uncultured Saprospiraceae Genera in Global Wastewater Treatment Systems

Wastewater Influent Microbial Immigration and Contribution to Resource Consumption in Activated Sludge Using Taxon-Specific Mass-Flow Immigration Model

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