Oxygen and silicon isotopic compositions of Archean silicified lava and cherts of the Onverwacht Group: Implication for seafloor hydrothermalism and the nature of recycled components in the source of granitoids - CNRS - Centre national de la recherche scientifique
Article Dans Une Revue Chemical Geology Année : 2024

Oxygen and silicon isotopic compositions of Archean silicified lava and cherts of the Onverwacht Group: Implication for seafloor hydrothermalism and the nature of recycled components in the source of granitoids

Résumé

Cherts are commonly used as proxies for Archean environmental conditions such as oceanic temperature. However, because cherts encompass a wide variety of silica-rich rocks, including post-depositional silicified of clastic sediments or chemical precipitates from seawater, reconstructions of the Archean environment based on their O and Si isotopic compositions remain controversial. In this study, we present triple O isotope analyses associated with SIMS O and Si isotope measurements of Palaeoarchean pervasively silicified lavas and clastic sediments, which have been less studied than the associated cherts within the Onverwacht Group (Barberton Greenstone Belt, South Africa). We also provide triple O isotopic compositions of seawater-precipitated cherts. The O and Si isotope composition of silicified clastic sediments and lavas is not considerably variable through the Onverwacht succession. These lithologies display relatively low δ 18 O (11.3-14.9‰) and high Δ' 17 O values (-0.05 to -0.07‰) attributed to precipitation of silica from hydrothermal fluids at lower temperatures than 200°C. Using these results, we reconstruct the approximate O isotope composition of the hydrothermal fluids. Water-rock interaction models suggest that this fluid composition is consistent with the existence of low δ 18 O oceans, but the exact δ 18 O value of the Palaeoarchean J o u r n a l P r e -p r o o f Journal Pre-proof ocean remains elusive. Seawater-precipitated cherts show a mixture of hydrothermal and seawater-like triple O isotope signatures, confirming that cherts are not a straightforward proxy for constraining Archean seawater composition or temperature. The average δ 30 Si value of the pervasively silicified lavas and clastic sediments is positive (> +0.19‰) and compositionally similar to published values of the seawater-precipitated cherts. This suggests comparable δ 30 Si values between Archean hydrothermal fluids and seawater. A gradual increase of δ 18 O values of silicified lavas and cherts from 10-13‰ to 15-20‰ observed along the Onverwacht succession is ascribed to local lithospheric cooling occurring between 3.47 Ga and 3.3 Ga, while Si isotope compositions remained mostly unchanged in the silica-rich rocks. As silicified lavas are likely part of materials that melted to generate Palaeoarchean granitoids, the evolutional difference between O and Si isotopes may have characterised the silicified rocks that were recycled in different generations of granitoid sources. This may explain the variation in O isotopic compositions measured in different granitoid generations in the Barberton area.

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Dates et versions

hal-04705738 , version 1 (23-09-2024)

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L.S. Kitoga, D. Zakharov, Johanna Marin Carbonne, Maud Boyet, Jean-François Moyen, et al.. Oxygen and silicon isotopic compositions of Archean silicified lava and cherts of the Onverwacht Group: Implication for seafloor hydrothermalism and the nature of recycled components in the source of granitoids. Chemical Geology, 2024, pp.122407. ⟨10.1016/j.chemgeo.2024.122407⟩. ⟨hal-04705738⟩
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