Abstract
Recent advances in sequencing technology and bioinformatic pipelines have allowed unprecedented access to the genomes of yet-uncultivated microorganisms from diverse environments. However, the catalogue of freshwater genomes remains limited, and most genome recovery attempts in freshwater ecosystems have only targeted specific taxa. Here, we present a genome recovery pipeline incorporating iterative subtractive binning, and apply it to a time series of 100 metagenomic datasets from seven connected lakes and estuaries along the Chattahoochee River (Southeastern USA). Our set of metagenome-assembled genomes (MAGs) represents >400 yet-unnamed genomospecies, substantially increasing the number of high-quality MAGs from freshwater lakes. We propose names for two novel species: 'Candidatus Elulimicrobium humile' ('Ca. Elulimicrobiota', 'Patescibacteria') and 'Candidatus Aquidulcis frankliniae' ('Chloroflexi'). Collectively, our MAGs represented about half of the total microbial community at any sampling point. To evaluate the prevalence of these genomospecies in the chronoseries, we introduce methodologies to estimate relative abundance and habitat preference that control for uneven genome quality and sample representation. We demonstrate high degrees of habitat-specialization and endemicity for most genomospecies in the Chattahoochee lakes. Wider ecological ranges characterized smaller genomes with higher coding densities, indicating an overall advantage of smaller, more compact genomes for cosmopolitan distributions.
Highlights
Freshwater environments represent a major microbial habitat on Earth, hosting an estimated 1.3×1026 prokaryotic cells worldwide (Austin, 1988; Whitman et al, 1998)
A quarter of freshwater community members detected by 16S rRNA gene or metagenomic surveys belong to yet-uncultured phyla, with an additional two thirds belonging to uncultured genera, families, or classes (Lloyd et al, 2018)
We introduce here a pipeline for the recovery of metagenomeassembled genomes (MAGs) from sets of metagenomes through iterative subtractive binning (ISB) and apply it to a metagenomic chronoseries from freshwater lakes and estuaries along the Chattahoochee River (Southeast USA)
Summary
Freshwater environments represent a major microbial habitat on Earth, hosting an estimated 1.3×1026 prokaryotic cells worldwide (Austin, 1988; Whitman et al, 1998). A quarter of freshwater community members detected by 16S rRNA gene or metagenomic surveys belong to yet-uncultured phyla, with an additional two thirds belonging to uncultured genera, families, or classes (Lloyd et al, 2018). Only a tenth of freshwater microbial cells belong to cultivated species or genera, one of the smallest cultivated fractions among all major environments on Earth [i.e., environments with over 1025 microbial cells estimated worldwide (Lloyd et al, 2018); but see (Martiny, 2019)]. Recent efforts to recover metagenomeassembled genomes (MAGs) from freshwater environments have largely targeted specific taxa (Cabello-Yeves et al, 2017; He et al, 2017; Mehrshad et al, 2018; Neuenschwander et al, 2018; Tsementzi et al, 2019)
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