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Stable Sn isotope signatures of Mid-ocean ridge basalts

Jia-Xin She, Edith Kubik, Weiqiang Li, Frédéric Moynier

2023Chemical Geology16 citationsDOIOpen Access PDF

Abstract

The constraint of Sn isotope composition of the Earth's mantle is the prerequisite for understanding planet formation with Sn isotopes and Sn isotope fractionation in terrestrial reservoirs. However, previous estimates of the Sn isotope composition of the Earth's mantle are hampered by the small number of mantle-related samples. In this study, we analyzed Sn stable isotope compositions of 27 basalts from geochemically and geologically diverse mid-ocean ridge segments, to constrain the Sn isotope composition of the depleted mantle source . The spread of Sn isotope compositions for the 27 different mid-ocean ridge basalts (MORBs) is limited, with δ 122/118 Sn BHVO-2 (delta notation of 122 Sn/ 118 Sn ratios relative to USGS BHVO-2 basalt standard) values ranging from −0.051 ± 0.015‰ to 0.209 ± 0.016‰ (δ 122/118 Sn 3161a from 0.280 ± 0.015 to 0.540 ± 0.016‰), despite great geochemical and geographical diversities of the samples. The slightly higher δ 122/118 Sn BHVO-2 value (up to 0.209 ± 0.016‰ (δ 122/118 Sn 3161a up to 0.540 ± 0.016‰)) of one MORB sample appears to be caused by post-eruptive alteration of the basalts. Other than that, the δ 122/118 Sn BHVO-2 values of the MORB samples do not show correlations with sample latitude, spreading rate of mid-ocean ridge, MgO content of the bulk rock samples, and partial melting index Na 8.0 (defined as [Na 2 O] + 0.373 × [MgO] − 2.98), implying that Sn isotopes do not fractionate significantly during MORB melt generation and evolution processes. This study confirms the limited Sn isotopic variability between fresh MORBs globally, pointing to the Sn isotopic homogeneity of the depleted mantle source. Using these new MORB data, we proposed an estimate of the δ 122/118 Sn BHVO-2 value for the Earth's depleted mantle to be 0.036 ± 0.087‰ (δ 122/118 Sn 3161a of 0.367 ± 0.087‰) (2SD, N = 12). This value provides a reference point for understanding the planetary and magmatic processes of Earth from a Sn isotope perspective.

Topics & Concepts

GeologyBasaltMantle (geology)GeochemistryIsotopePartial meltingIsotope fractionationQuantum mechanicsPhysicsGeological and Geochemical Analysisearthquake and tectonic studiesHigh-pressure geophysics and materials
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