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Shearing, Paul
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Publications (4/4 displayed)
- 2022Metabolically diverse primordial microbial communities in Earth’s oldest seafloor-hydrothermal jaspercitations
- 2022X-ray dark-field tomography using edge-illuminationcitations
- 2021The prismatic surface cell cooling coefficientcitations
- 2021The prismatic surface cell cooling coefficient:A novel cell design optimisation tool & thermal parameterization method for a 3D discretised electro-thermal equivalent-circuit modelcitations
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article
Metabolically diverse primordial microbial communities in Earth’s oldest seafloor-hydrothermal jasper
Abstract
The oldest putative fossils occur as hematite filaments and tubes in jasper-carbonate banded iron formations from the 4280- to 3750-Ma Nuvvuagittuq Supracrustal Belt, Québec. If biological in origin, these filaments might have affinities with modern descendants; however, if abiotic, they could indicate complex prebiotic forms on early Earth. Here, we report images of centimeter-size, autochthonous hematite filaments that are pectinate-branching, parallel-aligned, undulated, and containing Fe2+-oxides. These microstructures are considered microfossils because of their mineral associations and resemblance to younger microfossils, modern Fe-bacteria from hydrothermal environments, and the experimental products of heated Fe-oxidizing bacteria. Additional clusters of irregular hematite ellipsoids could reflect abiotic processes of silicification, producing similar structures and thus yielding an uncertain origin. Millimeter-sized chalcopyrite grains within the jasper-carbonate rocks have 34S- and 33S-enrichments consistent with microbial S-disproportionation and an O2-poor atmosphere. Collectively, the observations suggest a diverse microbial ecosystem on the primordial Earth that may be common on other planetary bodies, including Mars.