Time of proto-Earth reservoir formation and volatile element depletion from <sup>53</sup> Mn- <sup>53</sup> Cr chronometry

Pascal M. Kruttasch; Klaus Mezger

doi:10.1126/sciadv.adw1280

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Time of proto-Earth reservoir formation and volatile element depletion from ⁵³ Mn- ⁵³ Cr chronometry

Pascal M. Kruttasch Klaus Mezger

Year: 2025 Journal: Science Advances Vol: 11 (31)Pages: eadw1280-eadw1280 Publisher: American Association for the Advancement of Science

DOI: 10.1126/sciadv.adw1280

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Abstract

The 53 Mn- 53 Cr chronometry of Solar System materials constrains the early chemical evolution of the protoplanetary disk, which is critical for planet formation. Mn/Cr ratios in carbonaceous chondrites and the bulk silicate Earth indicate that meteorite parent bodies and Earth have variable depletions in volatile elements compared to the bulk Solar composition. This depletion is a consequence of the local temperature decreasing as a function of heliocentric distance before planetesimal accretion. Back-tracking the present-day ε 53 Cr composition of the hypothetical proto-Earth fraction shows that the cessation of Mn-Cr fractionation from the bulk Solar composition occurred no later than ~3 Ma after CAI formation, similar to disk regions of carbonaceous chondrites at greater heliocentric distances. The timing of limited solid-gas interaction due to the dissipation of gas from the protoplanetary disk caused the cessation of Mn-Cr fractionation and provides a lower limit on its lifetime.

Keywords:

Chondrite Planetesimal Protoplanetary disk Meteorite Astrobiology Silicate Earth (classical element) Formation and evolution of the Solar System Solar System Chemical composition Accretion (finance) Planet Volatiles Parent body Geology Mineralogy Chemistry Astrophysics Physics Astronomy

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Astro and Planetary Science

Physical Sciences → Physics and Astronomy → Astronomy and Astrophysics

Geological and Geochemical Analysis

Physical Sciences → Earth and Planetary Sciences → Geophysics

High-pressure geophysics and materials

Physical Sciences → Earth and Planetary Sciences → Geophysics

Time of proto-Earth reservoir formation and volatile element depletion from ⁵³ Mn- ⁵³ Cr chronometry

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