Redox processes in early Earth accretion and in terrestrial bodies

Redox processes in early Earth accretion and in terrestrial bodies

The Earth is a unique rocky planet with liquid water at the surface and an oxygen-rich atmosphere, consequences of its particular accretion history. The earliest accreting bodies were small and could be either differentiated and undifferentiated; later larger bodies had formed cores and mantles with...

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Veröffentlicht in:Elements (Quebec) 2020-06, Vol.16 (3), p.161-166
Hauptverfasser: Righter, Kevin, Herd, Christopher D. K, Boujibar, Asmaa
Format: Artikel
Sprache:eng
Schlagworte:
accretion
achondrites
atmosphere
buffers
carbon
chemical reactions
chondrites
core
cosmic dust
differentiation
early solar system
Earth
Extraterrestrial geology
fugacity
Geochemistry
HED meteorites
inner solar system
iron
mantle
Mars
Mercury Planet
metals
meteorites
numerical models
oxidation
oxygen
phase equilibria
planetary interiors
planetesimals
planets
reduction
silicates
silicon
stony meteorites
sulfur
terrestrial planets
Venus
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Zusammenfassung:The Earth is a unique rocky planet with liquid water at the surface and an oxygen-rich atmosphere, consequences of its particular accretion history. The earliest accreting bodies were small and could be either differentiated and undifferentiated; later larger bodies had formed cores and mantles with distinct properties. In addition, there may have been an overall trend of early reduced and later oxidized material accreting to form the Earth. This paper provides an overview-based on natural materials in our Earthbound sample collections, experimental studies on those samples, and calculations and numerical simulations of differentiation processes-of planetary accretion, core-mantle equilibration, mantle redox processes, and redox variations in Earth, Mars, and other terrestrial bodies.
ISSN:1811-5209
1811-5217
DOI:10.2138/gselements.16.3.161