Carbonates and cherts as archives of seawater chemistry and habitability on a carbonate platform 3.35 Ga ago

Insights from Sm/Nd dating and trace element analysis from the Strelley Pool Formation, Western Australia

verfasst von

Sebastian Viehmann, Joachim Reitner, Nathalie Tepe, Simon V. Hohl, Martin Van Kranendonk, Thilo Hofmann, Christian Koeberl, Patrick Meister

Abstract

Carbonates and cherts in the 3.35 billion-year-old Strelley Pool Formation (Fm.; Australia) host stromatolites that are among the oldest remnants of life on Earth. However, it is still not entirely clear whether these mineral phases are authigenic precipitates, and whether they represent reliable geochemical archives of early Earth environments. Here we present major/trace-element and Nd-isotope data of stromatolitic carbonates, associated crystal-fan carbonates, and cherts in the Strelley Pool Fm. (i) to assess the reliability of these chemical sediments as geochemical archives of the fluids from which they precipitated, (ii) to date the time of formation of carbonate and silica phases, and (iii) to trace the sources of elements prevailing in microbial habitats 3.35 Ga ago. Stromatolitic carbonates plot together with the stratigraphically underlying Marble Bar cherts on a Sm-Nd regression line yielding 3253 ± 320 Ma. In contrast, associated crystal-fan carbonates together with altered Marble Bar cherts yield 2718 ± 220 Ma, suggesting that their Sm-Nd isotope system was reset after deposition. Both types of carbonates, as well as white cherts, show shale-normalized rare earth element and yttrium patterns (REY_SN; with the exception of redox-sensitive Ce and Eu and heavy REY_SN to middle REY_SN depletion) that are parallel to those of modern seawater, indicating a predominantly seawater-derived origin. Positive Eu_SN anomalies (2.1–2.4), combined with heterogeneous ɛNd_3.35Ga values between −3.2 and +5.8 within individual alternating stromatolite laminae, further support that the dissolved fraction of seawater on the ancient carbonate platform was variably affected by both continental weathering and high-temperature hydrothermal fluids contributing elements of both young mafic or older felsic rocks. In conclusion, trace element and Nd isotope data presented here match well with the depositional environment, as characterized based on lithological, geochemical, and stratigraphic relationships, on an early continent, showing at least episodic emergence above the sea level, supporting microbial life on a shallow marine platform.

Externe Organisation(en)

Universität Wien
Georg-August-Universität Göttingen
State Key Laboratory of Marine Geology
University of New South Wales (UNSW)

Typ

Artikel

Journal

Precambrian research

Band

344

ISSN

0301-9268

Publikationsdatum

15.07.2020

Publikationsstatus

Veröffentlicht

Peer-reviewed

Ja

ASJC Scopus Sachgebiete

Geologie, Geochemie und Petrologie

Ziele für nachhaltige Entwicklung

SDG 14 – Lebensraum Wasser

Elektronische Version(en)

https://doi.org/10.1016/j.precamres.2020.105742 (Zugang: Geschlossen)