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Methane-fed microbial microcosms show differential community dynamics and pinpoint taxa involved in communal response
Authors:Igor Y Oshkin  David AC Beck  Andrew E Lamb  Veronika Tchesnokova  Gabrielle Benuska  Tami L McTaggart  Marina G Kalyuzhnaya  Svetlana N Dedysh  Mary E Lidstrom  Ludmila Chistoserdova
Affiliation:1.Department of Chemical Engineering, University of Washington, Seattle, WA, USA;2.Winogradsky Institute of Microbiology, Russian Academy of Sciences, Moscow, Russia;3.eScience Institute, University of Washington, Seattle, WA, USA;4.Department of Microbiology, University of Washington, Seattle, WA, USA
Abstract:We report observations on the dynamics of bacterial communities in response to methane stimulus in laboratory microcosm incubations prepared with lake sediment samples. We first measured taxonomic compositions of long-term enrichment cultures and determined that, although dominated by Methylococcaceae types, these cultures also contained accompanying types belonging to a limited number of bacterial taxa, methylotrophs and non-methylotrophs. We then followed the short-term community dynamics, in two oxygen tension regimens (150 μM and 15 μM), observing rapid loss of species diversity. In all microcosms, a single type of Methylobacter represented the major methane-oxidizing partner. The accompanying members of the communities revealed different trajectories in response to different oxygen tensions, with Methylotenera species being the early responders to methane stimulus under both conditions. The communities in both conditions were convergent in terms of their assemblage, suggesting selection for specific taxa. Our results support prior observations from metagenomics on distribution of carbon from methane among diverse bacterial populations and further suggest that communities are likely responsible for methane cycling, rather than a single type of microbe.
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