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Carbon fixation and energy metabolisms of a subseafloor olivine biofilm. | LitMetric

AI Article Synopsis

  • Earth's largest aquifer ecosystem is found in the igneous oceanic crust, where chemosynthesis and water-rock reactions supply carbon and energy for a thriving deep biosphere.
  • The study focused on understanding the energy and carbon metabolisms in the thermal basaltic aquifer, finding that the predominant carbon fixation pathway was the Wood-Ljungdahl pathway, particularly in the bacteria identified.
  • Results indicate that anaerobic processes like sulfate reduction and nitrogen fixation are occurring, highlighting the potential for ancient forms of metabolism to persist in modern suboceanic aquifers.

Article Abstract

Earth's largest aquifer ecosystem resides in igneous oceanic crust, where chemosynthesis and water-rock reactions provide the carbon and energy that support an active deep biosphere. The Calvin Cycle is the predominant carbon fixation pathway in cool, oxic, crust; however, the energy and carbon metabolisms in the deep thermal basaltic aquifer are poorly understood. Anaerobic carbon fixation pathways such as the Wood-Ljungdahl pathway, which uses hydrogen (H) and CO, may be common in thermal aquifers since water-rock reactions can produce H in hydrothermal environments and bicarbonate is abundant in seawater. To test this, we reconstructed the metabolisms of eleven bacterial and archaeal metagenome-assembled genomes from an olivine biofilm obtained from a Juan de Fuca Ridge basaltic aquifer. We found that the dominant carbon fixation pathway was the Wood-Ljungdahl pathway, which was present in seven of the eight bacterial genomes. Anaerobic respiration appears to be driven by sulfate reduction, and one bacterial genome contained a complete nitrogen fixation pathway. This study reveals the potential pathways for carbon and energy flux in the deep anoxic thermal aquifer ecosystem, and suggests that ancient H-based chemolithoautotrophy, which once dominated Earth's early biosphere, may thus remain one of the dominant metabolisms in the suboceanic aquifer today.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6776028PMC
http://dx.doi.org/10.1038/s41396-019-0385-0DOI Listing

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