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Time-series sewage metagenomics distinguishes seasonal, human-derived and environmental microbial communities potentially allowing source-attributed surveillance.

Ágnes BecseiAlessandro FuschiSaria OtaniRavi KantIlya PlyusninPatricia AlbaJózsef StégerDávid VisontaiChristian BrinchMiranda de GraafClaudia M E SchapendonkAntonio BattistiAlessandra De CesareChiara OliveriFulvia TrojaTarja A SironenOlli VapalahtiFrédérique PasqualiKrisztián BányaiMagdolna MakóPéter PollnerAlessandra MerlottiMarion P G KoopmansIstvan CsabaiDaniel RemondiniFrank Møller AarestrupPatrick Munk
Published in: Nature communications (2024)
Sewage metagenomics has risen to prominence in urban population surveillance of pathogens and antimicrobial resistance (AMR). Unknown species with similarity to known genomes cause database bias in reference-based metagenomics. To improve surveillance, we seek to recover sewage genomes and develop a quantification and correlation workflow for these genomes and AMR over time. We use longitudinal sewage sampling in seven treatment plants from five major European cities to explore the utility of catch-all sequencing of these population-level samples. Using metagenomic assembly methods, we recover 2332 metagenome-assembled genomes (MAGs) from prokaryotic species, 1334 of which were previously undescribed. These genomes account for ~69% of sequenced DNA and provide insight into sewage microbial dynamics. Rotterdam (Netherlands) and Copenhagen (Denmark) show strong seasonal microbial community shifts, while Bologna, Rome, (Italy) and Budapest (Hungary) have occasional blooms of Pseudomonas-dominated communities, accounting for up to ~95% of sample DNA. Seasonal shifts and blooms present challenges for effective sewage surveillance. We find that bacteria of known shared origin, like human gut microbiota, form communities, suggesting the potential for source-attributing novel species and their ARGs through network community analysis. This could significantly improve AMR tracking in urban environments.
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