A global atlas of subsurface microbiomes reveals phylogenetic novelty, large scale biodiversity gradients, and a marine-terrestrial divide

Ruff, S. Emil; Hrabe de Angelis, Isabella C; Mullis, Megan; Payet, Jérôme P; Magnabosco, Cara; Lloyd, Karen G; Sheik, Cody; Steen, Andrew D; Shipunova, Anna; Morozov, Aleksey; Kiel Reese, Brandi; Bradley, James A; Lemonnier, Clarisse; Schrenk, Matthew O; Joye, Samantha B; Huber, Julie A; Probst, Alexander J; Morrison, Hilary G; Sogin, Mitchell L; Ladau, Joshua; Colwell, Frederick

doi:10.1101/2024.04.29.591682

2024

DOI: 10.1101/2024.04.29.591682

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A global atlas of subsurface microbiomes reveals phylogenetic novelty, large scale biodiversity gradients, and a marine-terrestrial divide

S. Emil Ruff,

Isabella C Hrabe de Angelis,

Megan Mullis

et al.

Abstract: Subsurface environments constitute one of Earth's largest habitats for microbial life, yet differences between surface and subsurface microbiomes and between marine and terrestrial microbiomes remain unclear. We analyzed 478 archaeal and 1054 bacterial amplicon sequence datasets and 147 metagenomes from diverse and globally distributed surface and subsurface environments. Taxonomic analyses show that archaeal and bacterial diversity is similar in marine and terrestrial microbiomes at local to global scales. Ho… Show more

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Cited by 2 publications

References 118 publications

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Comparative genomic analyses of aerobic planctomycetes isolated from the deep sea and the ocean surface

Øvreås,

Kallscheuer,

Calisto

et al. 2024

Antonie van Leeuwenhoek

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On the deep and dark seafloor, a cryptic and yet untapped microbial diversity flourishes around hydrothermal vent systems. This remote environment of difficult accessibility exhibits extreme conditions, including high pressure, steep temperature- and redox gradients, limited availability of oxygen and complete darkness. In this study, we analysed the genomes of three aerobic strains belonging to the phylum Planctomycetota that were isolated from two deep-sea iron- rich hydroxide deposits with low temperature diffusive vents. The vents are located in the Arctic and Pacific Ocean at a depth of 600 and 1,734 m below sea level, respectively. The isolated strains Pr1dT, K2D and TBK1r were analyzed with a focus on genome-encoded features that allow phenotypical adaptations to the low temperature iron-rich deep-sea environment. The comparison with genomes of closely related surface-inhabiting counterparts indicates that the deep-sea isolates do not differ significantly from members of the phylum Planctomycetota inhabiting other habitats, such as macroalgae biofilms and the ocean surface waters. Despite inhabiting extreme environments, our “deep and dark”-strains revealed a mostly non-extreme genome biology.

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Comparative genomic analyses of aerobic planctomycetes isolated from the deep sea and the ocean surface

Øvreås,

Kallscheuer,

Calisto

et al. 2024

Antonie van Leeuwenhoek

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Widespread occurrence of dissolved oxygen anomalies, aerobic microbes, and oxygen-producing metabolic pathways in apparently anoxic environments

Ruff,

Schwab,

Vidal

et al. 2024

FEMS Microbiology Ecology

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Nearly all molecular oxygen (O2) on Earth is produced via oxygenic photosynthesis by plants or photosynthetically active microorganisms. Light-independent O2 production, which occurs both abiotically, e.g., through water radiolysis, or biotically, e.g., through the dismutation of nitric oxide or chlorite, has been thought to be negligible to the Earth system. However, recent work indicates that O2 is produced and consumed in dark and apparently anoxic environments at a much larger scale than assumed. Studies have shown that isotopically light O2 can accumulate in old groundwaters; that strictly aerobic microorganisms are present in many apparently anoxic habitats; and that microbes and metabolisms that can produce O2 without light are widespread and abundant in diverse ecosystems. Analysis of published metagenomic data reveals that the enzyme putatively capable of nitric oxide dismutation (NOD) forms four major phylogenetic clusters and occurs in at least 16 bacterial phyla most notably the Bacteroidota. Similarly, a re-analysis of published isotopic signatures of dissolved O2 in groundwater suggests in-situ production in up to half of the studied ecosystems. Geochemical and microbiological data supports the conclusion that “dark oxygen” production is an important and widespread yet overlooked process in apparently anoxic environments with far-reaching implications for subsurface biogeochemistry and ecology.

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A global atlas of subsurface microbiomes reveals phylogenetic novelty, large scale biodiversity gradients, and a marine-terrestrial divide

Cited by 2 publications

References 118 publications

Comparative genomic analyses of aerobic planctomycetes isolated from the deep sea and the ocean surface

Comparative genomic analyses of aerobic planctomycetes isolated from the deep sea and the ocean surface

Widespread occurrence of dissolved oxygen anomalies, aerobic microbes, and oxygen-producing metabolic pathways in apparently anoxic environments

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