Login / Signup

Genetic diversity in terrestrial subsurface ecosystems impacted by geological degassing.

Till L V BornemannPanagiotis S AdamVictoria TurzynskiUlrich SchreiberPerla Abigail Figueroa-GonzalezJanina RahlffDaniel KösterTorsten C SchmidtRalf SchunkBernhard KrauthausenAlexander J Probst
Published in: Nature communications (2022)
Earth's mantle releases 38.7 ± 2.9 Tg/yr CO 2 along with other reduced and oxidized gases to the atmosphere shaping microbial metabolism at volcanic sites across the globe, yet little is known about its impact on microbial life under non-thermal conditions. Here, we perform comparative metagenomics coupled to geochemical measurements of deep subsurface fluids from a cold-water geyser driven by mantle degassing. Key organisms belonging to uncultivated Candidatus Altiarchaeum show a global biogeographic pattern and site-specific adaptations shaped by gene loss and inter-kingdom horizontal gene transfer. Comparison of the geyser community to 16 other publicly available deep subsurface sites demonstrate a conservation of chemolithoautotrophic metabolism across sites. In silico replication measures suggest a linear relationship of bacterial replication with ecosystems depth with the exception of impacted sites, which show near surface characteristics. Our results suggest that subsurface ecosystems affected by geological degassing are hotspots for microbial life in the deep biosphere.
Keyphrases
  • climate change
  • genetic diversity
  • microbial community
  • copy number
  • genome wide
  • healthcare
  • genome wide identification
  • molecular docking
  • risk assessment