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Altering environmental conditions induce shifts in simulated deep terrestrial subsurface bacterial communities-Secretion of primary and secondary metabolites
Faculty of Nuclear Sciences and Physical Engineering, Department of Nuclear Chemistry, Czech Technical University in Prague, Prague, Czech Republic; Radiochemistry Unit, Faculty of Science, Department of Chemistry, University of Helsinki, Helsinki, Finland.
Örebro University, School of Science and Technology. ´. (EnForce, Environment and Health and Systems Medicine)ORCID iD: 0000-0002-4382-4355
Radiochemistry Unit, Faculty of Science, Department of Chemistry, University of Helsinki, Helsinki, Finland.
Radiochemistry Unit, Faculty of Science, Department of Chemistry, University of Helsinki, Helsinki, Finland.
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2024 (English)In: Environmental Microbiology, ISSN 1462-2912, E-ISSN 1462-2920, Vol. 26, no 1, article id e16552Article in journal (Refereed) Published
Abstract [en]

The deep terrestrial subsurface (DTS) harbours a striking diversity of microorganisms. However, systematic research on microbial metabolism, and how varying groundwater composition affects the bacterial communities and metabolites in these environments is lacking. In this study, DTS groundwater bacterial consortia from two Fennoscandian Shield sites were enriched and studied. We found that the enriched communities from the two sites consisted of distinct bacterial taxa, and alterations in the growth medium composition induced changes in cell counts. The lack of an exogenous organic carbon source (ECS) caused a notable increase in lipid metabolism in one community, while in the other, carbon starvation resulted in low overall metabolism, suggesting a dormant state. ECS supplementation increased CO2 production and SO4 2- utilisation, suggesting activation of a dissimilatory sulphate reduction pathway and sulphate-reducer-dominated total metabolism. However, both communities shared common universal metabolic features, most probably involving pathways needed for the maintenance of cell homeostasis (e.g., mevalonic acid pathway). Collectively, our findings indicate that the most important metabolites related to microbial reactions under varying growth conditions in enriched DTS communities include, but are not limited to, those linked to cell homeostasis, osmoregulation, lipid biosynthesis and degradation, dissimilatory sulphate reduction and isoprenoid production.

Place, publisher, year, edition, pages
John Wiley & Sons, 2024. Vol. 26, no 1, article id e16552
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Microbiology
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URN: urn:nbn:se:oru:diva-110378DOI: 10.1111/1462-2920.16552ISI: 001124565200001PubMedID: 38098179Scopus ID: 2-s2.0-85180175195OAI: oai:DiVA.org:oru-110378DiVA, id: diva2:1821063
Note

Funding Agency:

Finnish Research Programme on Nuclear Waste Management KYT2022

Available from: 2023-12-19 Created: 2023-12-19 Last updated: 2024-06-18Bibliographically approved

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Hyötyläinen, Tuulia

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