Strong Dispersal Limitation of Microbial Communities at Shackleton Glacier, Antarctica

Microbial communities can be structured by both deterministic and stochastic processes, but the relative importance of these processes remains unknown. The ambiguity partly arises from an inability to disentangle soil microbial processes from confounding factors, such as aboveground plant communitie...

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Bibliographic Details
Published in:mSystems
Main Authors: Lemoine, Nathan P., Adams, Byron J., Diaz, Melisa, Dragone, Nicholas B., Franco, André L. C., Fierer, Noah, Lyons, W. Berry, Hogg, Ian D., Wall, Diana H.
Format: Article in Journal/Newspaper
Language:English
Published: 2023
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Online Access:https://hdl.handle.net/10289/15664
https://doi.org/10.1128/msystems.01254-22
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Summary:Microbial communities can be structured by both deterministic and stochastic processes, but the relative importance of these processes remains unknown. The ambiguity partly arises from an inability to disentangle soil microbial processes from confounding factors, such as aboveground plant communities or anthropogenic disturbance. In this study, we characterized the relative contributions of determinism and stochasticity to assembly processes of soil bacterial communities across a large environmental gradient of undisturbed Antarctic soils. We hypothesized that harsh soils would impose a strong environmental selection on microbial communities, whereas communities in benign soils would be structured largely by dispersal. Contrary to our expectations, dispersal was the dominant assembly mechanism across the entire soil environmental gradient, including benign environments. The microbial community composition reflects slowly changing soil conditions and dispersal limitation of isolated sites. Thus, stochastic processes, as opposed to deterministic, are primary drivers of soil ecosystem assembly across space at our study site. This is especially surprising given the strong environmental constraints on soil microorganisms in one of the harshest environments on the planet, suggesting that dispersal could be a driving force in microbial community assembly in soils worldwide.