Litcius/Paper detail

Cellular remains in a ~3.42-billion-year-old subseafloor hydrothermal environment

Barbara Cavalazzi, Laurence Lemelle, M. Steck, Sherry L. Cady, Michael J. Russell, Elena Bailo, R. Canteri, Emanuele Enrico, Alain Manceau, Assimo Maris, Murielle Salomé, Émilie Thomassot, Nordine Bouden, Rémi Tucoulou, Axel Hofmann

2021Science Advances73 citationsDOIOpen Access PDF

Abstract

Subsurface habitats on Earth host an extensive extant biosphere and likely provided one of Earth's earliest microbial habitats. Although the site of life's emergence continues to be debated, evidence of early life provides insights into its early evolution and metabolic affinity. Here, we present the discovery of exceptionally well-preserved, ~3.42-billion-year-old putative filamentous microfossils that inhabited a paleo-subseafloor hydrothermal vein system of the Barberton greenstone belt in South Africa. The filaments colonized the walls of conduits created by low-temperature hydrothermal fluid. Combined with their morphological and chemical characteristics as investigated over a range of scales, they can be considered the oldest methanogens and/or methanotrophs that thrived in an ultramafic volcanic substrate.

Topics & Concepts

Hydrothermal circulationUltramafic rockHydrothermal ventVolcanoExtant taxonBiosphereGreenstone beltHabitatGeologyMicrobial population biologyEarth scienceGeochemistryAstrobiologyEcologyBiologyPaleontologyArcheanEvolutionary biologyBacteriaMethane Hydrates and Related PhenomenaMicrobial Community Ecology and PhysiologyHydrocarbon exploration and reservoir analysis