Neoarchaean oxygen-based nitrogen cycle en route to the Great Oxidation Event
成果类型:
Article
署名作者:
Pellerin, Alice; Thomazo, Christophe; Ader, Magali; Rossignol, Camille; Rego, Eric Siciliano; Busigny, Vincent; Philippot, Pascal
署名单位:
Centre National de la Recherche Scientifique (CNRS); CNRS - Institute of Ecology & Environment (INEE); Universite Bourgogne Europe; Institut Universitaire de France; Universite Paris Cite; Centre National de la Recherche Scientifique (CNRS); University of Cagliari; University of California System; University of California San Diego; Scripps Institution of Oceanography; Universite de Montpellier; Centre National de la Recherche Scientifique (CNRS); Universidade de Sao Paulo
刊物名称:
Nature
ISSN/ISSBN:
0028-3916
DOI:
10.1038/s41586-024-07842-x
发表日期:
2024-09-12
关键词:
kinetic isotope fractionation
organic nitrogen
carajas province
fortescue group
surface ocean
EVOLUTION
deposits
pb
geochronology
constraints
摘要:
The nitrogen isotopic composition of sedimentary rocks (delta N-15) can trace redox-dependent biological pathways and early Earth oxygenation(1,2). However, there is no substantial change in the sedimentary delta N-15 record across the Great Oxidation Event about 2.45 billion years ago (Ga)(3), a prominent redox change. This argues for a temporal decoupling between the emergence of the first oxygen-based oxidative pathways of the nitrogen cycle and the accumulation of atmospheric oxygen after 2.45 Ga (ref. (3)). The transition between both states shows strongly positive delta N-15 values (10-50 parts per thousand) in rocks deposited between 2.8 Ga and 2.6 Ga, but their origin and spatial extent remain uncertain(4,5). Here we report strongly positive delta N-15 values (>30 parts per thousand) in the 2.68-Gyr-old shallow to deep marine sedimentary deposit of the Serra Sul Formation(6), Amazonian Craton, Brazil. Our findings are best explained by regionally variable extents of ammonium oxidation to N-2 or N2O tied to a cryptic oxygen cycle, implying that oxygenic photosynthesis was operating at 2.7 Ga. Molecular oxygen production probably shifted the redox potential so that an intermediate N cycle based on ammonium oxidation developed before nitrate accumulation in surface waters. We propose to name this period, when strongly positive nitrogen isotopic compositions are superimposed on the usual range of Precambrian delta N-15 values, the Nitrogen Isotope Event. We suggest that it marks the earliest steps of the biogeochemical reorganizations that led to the Great Oxidation Event.
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