Microbial community assembly and evolution in subseafloor sediment
Author(s)
Starnawski, Piotr; Bataillon, Thomas; Ettema, Thijs J. G.; Jochum, Lara M.; Schreiber, Lars; Chen, Xihan; Lever, Mark A.; Jørgensen, Bo B.; Kjeldsen, Kasper U.; Polz, Martin F; Schramm, Andreas; ... Show more Show less
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Bacterial and archaeal communities inhabiting the subsurface seabed live under strong energy limitation and have growth rates that are orders of magnitude slower than laboratory-grown cultures. It is not understood how subsurface microbial communities are assembled and whether populations undergo adaptive evolution or accumulate mutations as a result of impaired DNA repair under such energy-limited conditions. Here we use amplicon sequencing to explore changes of microbial communities during burial and isolation from the surface to the > 5,000-y-old subsurface of marine sediment and identify a small core set of mostly uncultured bacteria and archaea that is present throughout the sediment column. These persisting populations constitute a small fraction of the entire community at the surface but become predominant in the subsurface. We followed patterns of genome diversity with depth in four dominant lineages of the persisting populations by mapping metagenomic sequence reads onto single-cell genomes. Nucleotide sequence diversity was uniformly low and did not change with age and depth of the sediment. Likewise, therewas no detectable change inmutation rates and efficacy of selection. Our results indicate that subsurface microbial communities predominantly assemble by selective survival of taxa able to persist under extreme energy limitation.
Date issued
2017-02Department
Massachusetts Institute of Technology. Department of Civil and Environmental Engineering; Parsons Laboratory for Environmental Science and Engineering (Massachusetts Institute of Technology)Journal
Proceedings of the National Academy of Sciences
Publisher
National Academy of Sciences (U.S.)
Citation
Starnawski, Piotr et al. “Microbial Community Assembly and Evolution in Subseafloor Sediment.” Proceedings of the National Academy of Sciences 114, 11 (February 2017): 2940–2945 © 2017 National Academy of Sciences
Version: Final published version
ISSN
0027-8424
1091-6490