Physics
Scientific paper
May 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010e%26psl.293..259j&link_type=abstract
Earth and Planetary Science Letters, Volume 293, Issue 3-4, p. 259-268.
Physics
23
Scientific paper
We propose a new model of Earth's bulk composition based on enstatite chondrites (E-chondrites), the only chondrite group isotopically identical to the Earth. This model allows a quantitative study of accretion and differentiation processes in the early Earth. Conditions for core formation are evaluated using data on silica-iron equilibrium at high pressure and temperature and the exchange budget equation SiO2 + 2Fe = Si + 2FeO, which is the result of IW and Si-SiO2 oxygen buffers' interaction and controls the evolution of mantle fO2. Based on that equation, ranges for the compositions of the Bulk Silicate Earth, the lower mantle and the core are deduced from the compositions of E-chondrites and their constituents. For these ranges of compositions, we show that during core differentiation, the mantle fO2 evolves naturally from ≈ IW-3.2 to IW-1.4 ± 0.1. The model compositions are tightened using geophysical constraints on (1) the amount of light elements in the core, (2) the petrology of the upper and lower mantle and (3) the thermal and convective structure of the lower mantle. Our results indicate that the lower mantle is enriched in Si and Fe, which is consistent with recent geophysical studies, and depleted in highly refractory elements, notably in Uranium and Thorium.
Agrinier Pierre
Andrault Denis
Davaille Anne
Guyot Francois
Jambon Albert
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