Silicon isotopes reveal recycled altered oceanic crust in the mantle sources of Ocean Island Basalts

TL;DR

This study uses high-precision silicon isotope analysis of ocean island basalts from various ocean basins to trace recycled crustal material in the Earth's mantle, revealing isotopic signatures of altered oceanic crust.

Contribution

First comprehensive high-precision silicon isotope data for diverse ocean island basalts, linking isotopic variations to recycled crustal components in mantle sources.

Findings

HIMU and Iceland OIB are enriched in lighter Si isotopes

Silicon isotopic compositions are generally consistent with bulk silicate Earth

Evidence of recycled altered oceanic crust in mantle sources

Abstract

The study of silicon (Si) isotopes in ocean island basalts (OIB) has the potential to discern between different models for the origins of geochemical heterogeneities in the mantle. Relatively large (several per mil per atomic mass unit) Si isotope fractionation occurs in low-temperature environments during biochemical and geochemical precipitation of dissolved Si, where the precipitate is preferentially enriched in the lighter isotopes relative to the dissolved Si. In contrast, only a limited range (tenths of a per mil) of Si isotope fractionation has been observed from high-temperature igneous processes. Therefore, Si isotopes may be useful as tracers for the presence of crustal material within OIB mantle source regions that experienced relatively low-temperature surface processes in a manner similar to other stable isotope systems, such as oxygen. Characterizing the isotopic composition of the mantle is also of central importance to the use of the Si isotope system as a basis for comparisons with other planetary bodies (e.g., Moon, Mars, asteroids). Here we present the first comprehensive suite of high-precision Si isotope data obtained by MC-ICP-MS for a diverse suite of OIB. Samples originate from ocean islands in the Pacific, Atlantic, and Indian Ocean basins and include representative end-members for the EM-1, EM-2, and HIMU mantle components. On average, Si isotope compositions of OIB are in general agreement with previous estimates for the Si isotope composition of bulk silicate Earth. Nonetheless, some small systematic variations are present; specifically, most HIMU-type (Mangaia; Cape Verde; La Palma, Canary Islands) and Iceland OIB are enriched in the lighter isotopes of Si, consistent with recycled altered oceanic crust and lithospheric mantle in their mantle sources.