Litcius/Paper detail

Geological activity shapes the microbiome in deep-subsurface aquifers by advection

Yuran Zhang, Roland N. Horne, Adam J. Hawkins, John Carlo Primo, Oxana Gorbatenko, Anne Dekas

2022Proceedings of the National Academy of Sciences32 citationsDOIOpen Access PDF

Abstract

Subsurface environments host diverse microorganisms in fluid-filled fractures; however, little is known about how geological and hydrological processes shape the subterranean biosphere. Here, we sampled three flowing boreholes weekly for 10 mo in a 1478-m-deep fractured rock aquifer to study the role of fracture activity (defined as seismically or aseismically induced fracture aperture change) and advection on fluid-associated microbial community composition. We found that despite a largely stable deep-subsurface fluid microbiome, drastic community-level shifts occurred after events signifying physical changes in the permeable fracture network. The community-level shifts include the emergence of microbial families from undetected to over 50% relative abundance, as well as the replacement of the community in one borehole by the earlier community from a different borehole. Null-model analysis indicates that the observed spatial and temporal community turnover was primarily driven by stochastic processes (as opposed to deterministic processes). We, therefore, conclude that the observed community-level shifts resulted from the physical transport of distinct microbial communities from other fracture(s) that outpaced environmental selection. Given that geological activity is a major cause of fracture activity and that geological activity is ubiquitous across space and time on Earth, our findings suggest that advection induced by geological activity is a general mechanism shaping the microbial biogeography and diversity in deep-subsurface habitats across the globe.

Topics & Concepts

BoreholeAdvectionBiosphereAquiferGeologyFracture (geology)Microbial population biologyEarth scienceGeologic recordEcologyGroundwaterEnvironmental scienceGeochemistryPaleontologyBiologyGeotechnical engineeringThermodynamicsPhysicsBacteriaMicrobial Community Ecology and PhysiologyMethane Hydrates and Related PhenomenaLegionella and Acanthamoeba research