Organic‐rich bimineralic ooids record biological processes in Shark Bay, Western Australia

Author:

Ramey‐Lariviere Juliet Y. F.1,Gong Jian2ORCID,Baldes Matthew J.2,Chatterjee Nilanjan2ORCID,Bosak Tanja2ORCID,Pruss Sara B.1ORCID

Affiliation:

1. Department of Geosciences Smith College Northampton Massachusetts USA

2. Department of Earth, Atmospheric, and Planetary Sciences Massachusetts Institute of Technology Cambridge Massachusetts USA

Abstract

AbstractMarine ooids have formed in microbially colonized environments for billions of years, but the microbial contributions to mineral formation in ooids continue to be debated. Here we provide evidence of these contributions in ooids from Carbla Beach, Shark Bay, Western Australia. Dark 100–240 μm diameter ooids from Carbla Beach contain two different carbonate minerals. These ooids have 50–100 μm‐diameter dark nuclei that contain aragonite, amorphous iron sulfide, detrital aluminosilicate grains and organic matter, and 10–20 μm‐thick layers of high‐Mg calcite that separate nuclei from aragonitic outer cortices. Raman spectroscopy indicates organic enrichments in the nuclei and high‐Mg calcite layers. Synchrotron‐based microfocused X‐ray fluorescence mapping reveals high‐Mg calcite layers and the presence of iron sulfides and detrital grains in the peloidal nuclei. Iron sulfide grains within the nuclei indicate past sulfate reduction in the presence of iron. The preservation of organic signals in and around high‐Mg calcite layers and the absence of iron sulfide suggest that organics stabilized high‐Mg calcite under less sulfidic conditions. Aragonitic cortices that surround the nuclei and Mg‐calcite layers do not preserve microporosity, iron sulfide minerals nor organic enrichments, indicating growth under more oxidizing conditions. These morphological, compositional, and mineralogical signals of microbial processes in dark ooids from Shark Bay, Western Australia, record the formation of ooid nuclei and the accretion of magnesium‐rich cortical layers in benthic, reducing, microbially colonized areas.

Funder

Simons Foundation

Publisher

Wiley

Subject

General Earth and Planetary Sciences,General Environmental Science,Ecology, Evolution, Behavior and Systematics

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