Microbiology & Virology

A Global Atlas Of Subsurface Microbiomes Reveals Phylogenetic Novelty, Large Scale Biodiversity Gradients, And A Marine-terrestrial Divide

By Keith Cowing

Status Report

biorxiv.org

May 3, 2024

Filed under Archaea, Bacteria, benthic, biodiversity, biorxiv.org, biosphere, extremophile, metagenome, microbiology, microbiome, Oceanography, Subsurface Ecosystem

A Global Atlas Of Subsurface Microbiomes Reveals Phylogenetic Novelty, Large Scale Biodiversity Gradients, And A Marine-terrestrial Divide — Geographic location and origin of samples. Maps of samples used for metabarcoding of 16S rRNA gene amplicon taxonomic marker genes (A) and shotgun metagenomic analyses of unassembled and de novo assembled taxonomic marker genes (B). Each symbol represents one project, which comprises multiple individual samples. Both terrestrial as well as marine samples may contain rock, sediment, or water samples. Further maps showing sample material, pH and temperature are included in the Supplementary Material (Fig. S1). (C) Overview of sample origins derived from marine and terrestrial biomes, depth realms, and environments. — biorxiv.org

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. However, community composition greatly differs between marine and terrestrial microbiomes, suggesting a horizontal phylogenetic divide between sea and land that mirrors patterns in plant and animal diversity.

In contrast, community composition overlapped from surface to subsurface environments indicating vertical diversity continua rather than a discrete subsurface biosphere. Diversity of terrestrial microbiomes decreases from surface to subsurface environments.

Marine subsurface diversity and phylogenetic novelty rivaled (bacteria) or even exceeded (archaea) that of surface environments, suggesting that the marine subsurface holds a considerable and underestimated fraction of Earth’s archaeal and bacterial diversity.

Relative sequence abundance and richness of most important lineages across environments. Relative sequence abundance of top 10 most abundant archaeal classes (A) and bacterial phyla (C) in the 13 studied environments. Contribution of most abundant lineages to average number of archaeal (B) and bacterial (D) ASVs per sample (richness). — biorxiv.org

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

Astrobiology

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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