Anomalous δ15N values in the Neoarchean associated with an abundant supply of hydrothermal ammonium

Ashley Martin; E.E. Stüeken; M.M. Gehringer; Monika Markowska; Hubert B. Vonhof; Stefan Weyer; Axel Hofmann

doi:10.1038/s41467-025-57091-3

Anomalous δ15N values in the Neoarchean associated with an abundant supply of hydrothermal ammonium

Ashley Martin^*, E.E. Stüeken, M.M. Gehringer, Monika Markowska, Hubert B. Vonhof, Stefan Weyer, Axel Hofmann

^*Corresponding author for this work

Geography and Environmental Sciences Department

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Abstract

Unusually high δ 15N values in the Neoarchean sedimentary record in the time period from 2.8 to 2.6 Ga, termed the Nitrogen Isotope Event (NIE), might be explained by aerobic N cycling prior to the Great Oxidation Event (GOE). Here we report strongly positive δ 15N values up to +42.5 ‰ in ~2.75 - 2.73 Ga shallow-marine carbonates from Zimbabwe. As the corresponding deeper-marine shales exhibit negative δ 15N values that are explained by partial biological uptake from a large ammonium reservoir, we interpret our data to have resulted from hydrothermal upwelling of 15N-rich ammonium into shallow, partially oxic waters, consistent with uranium isotope variations. This work shows that anomalous N isotope signatures at the onset of the NIE temporally correlate with extensive volcanic and hydrothermal activity both locally and globally, which may have stimulated primary production and spurred biological innovation in the lead-up to the GOE.

Original language	English
Article number	1873
Number of pages	10
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-57091-3
Publication status	Published - 22 Feb 2025

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title = "Anomalous δ15N values in the Neoarchean associated with an abundant supply of hydrothermal ammonium",

abstract = "Unusually high δ 15N values in the Neoarchean sedimentary record in the time period from 2.8 to 2.6 Ga, termed the Nitrogen Isotope Event (NIE), might be explained by aerobic N cycling prior to the Great Oxidation Event (GOE). Here we report strongly positive δ 15N values up to +42.5 ‰ in ~2.75 - 2.73 Ga shallow-marine carbonates from Zimbabwe. As the corresponding deeper-marine shales exhibit negative δ 15N values that are explained by partial biological uptake from a large ammonium reservoir, we interpret our data to have resulted from hydrothermal upwelling of 15N-rich ammonium into shallow, partially oxic waters, consistent with uranium isotope variations. This work shows that anomalous N isotope signatures at the onset of the NIE temporally correlate with extensive volcanic and hydrothermal activity both locally and globally, which may have stimulated primary production and spurred biological innovation in the lead-up to the GOE. ",

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AU - Martin, Ashley

AU - Stüeken, E.E.

AU - Gehringer, M.M.

AU - Markowska, Monika

AU - Vonhof, Hubert B.

AU - Weyer, Stefan

AU - Hofmann, Axel

PY - 2025/2/22

Y1 - 2025/2/22

N2 - Unusually high δ 15N values in the Neoarchean sedimentary record in the time period from 2.8 to 2.6 Ga, termed the Nitrogen Isotope Event (NIE), might be explained by aerobic N cycling prior to the Great Oxidation Event (GOE). Here we report strongly positive δ 15N values up to +42.5 ‰ in ~2.75 - 2.73 Ga shallow-marine carbonates from Zimbabwe. As the corresponding deeper-marine shales exhibit negative δ 15N values that are explained by partial biological uptake from a large ammonium reservoir, we interpret our data to have resulted from hydrothermal upwelling of 15N-rich ammonium into shallow, partially oxic waters, consistent with uranium isotope variations. This work shows that anomalous N isotope signatures at the onset of the NIE temporally correlate with extensive volcanic and hydrothermal activity both locally and globally, which may have stimulated primary production and spurred biological innovation in the lead-up to the GOE.

AB - Unusually high δ 15N values in the Neoarchean sedimentary record in the time period from 2.8 to 2.6 Ga, termed the Nitrogen Isotope Event (NIE), might be explained by aerobic N cycling prior to the Great Oxidation Event (GOE). Here we report strongly positive δ 15N values up to +42.5 ‰ in ~2.75 - 2.73 Ga shallow-marine carbonates from Zimbabwe. As the corresponding deeper-marine shales exhibit negative δ 15N values that are explained by partial biological uptake from a large ammonium reservoir, we interpret our data to have resulted from hydrothermal upwelling of 15N-rich ammonium into shallow, partially oxic waters, consistent with uranium isotope variations. This work shows that anomalous N isotope signatures at the onset of the NIE temporally correlate with extensive volcanic and hydrothermal activity both locally and globally, which may have stimulated primary production and spurred biological innovation in the lead-up to the GOE.

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Anomalous δ15N values in the Neoarchean associated with an abundant supply of hydrothermal ammonium

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