Litcius/Paper detail

Combined Lithophile‐Siderophile Isotopic Constraints on Hadean Processes Preserved in Ocean Island Basalt Sources

Bradley J. Peters, Andrea Mundl‐Petermeier, Richard W. Carlson, R. J. Walker, James M.D. Day

2021Geochemistry Geophysics Geosystems31 citationsDOIOpen Access PDF

Abstract

Abstract Detection of Hadean isotopic signatures within modern ocean island basalts (OIB) has greatly influenced understanding of Earth's earliest history and long‐term dynamics. However, a relationship between two isotopic tools for studying early Earth processes, the short‐lived 146 Sm‐ 142 Nd and 182 Hf‐ 182 W systems, has not been established in this context. The differing chemical behavior of these two isotopic systems means that they are complementary tracers of a range of proposed early Earth events, including core formation, magma ocean processes, and late accretion. There is a negative trend between 142 Nd/ 144 Nd and 182 W/ 184 W ratios among Réunion OIB that is extended by Deccan continental flood basalts. This finding is contrary to expectations if both systems were affected by silicate differentiation during the lifetime of 182 Hf. The observed isotopic compositions are attributed to interaction between magma ocean remnants and Earth's core, coupled with later assimilation of recycled Hadean mafic crust. The effects of this scenario on the long‐lived 143 Nd‐ 176 Hf isotopic systematics mirror classical models invoking mixing of recycled trace‐element enriched (sedimentary) and depleted (igneous) domains in OIB mantle sources. If the core provides a detectible contribution to the tungsten element budget of the silicate Earth, this represents a critical component to planetary‐scale tungsten mass balance. A basic model is explored that reconciles the W abundance and isotopic composition of the bulk silicate Earth resulting from both late accretion and core‐mantle interaction. The veracity of core‐mantle interaction as proposed here would have many implications for long‐term thermochemical cycling.

Topics & Concepts

HadeanGeologyBasaltGeochemistryMantle (geology)Flood basaltSilicateEarly EarthIncompatible elementMantle plumeEarth scienceArcheanMaficCrustContinental crustPartial meltingPaleontologyPhysicsAstronomyLithosphereVolcanismTectonicsGeological and Geochemical AnalysisHigh-pressure geophysics and materialsearthquake and tectonic studies