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Thermal evolution of hydrated asteroids inferred from oxygen isotopes

Abstract : Chondrites are fragments of unmelted asteroids that formed due to gravitational instabilities in turbulent regions of the Solar protoplanetary disk. Hydrated chondrites are common among meteorites, indicating that a substantial fraction of the rocky bodies that formed early in the Solar System accreted water ice grains that subsequently melted due to heat released by the radioactive decay of 26Al. However, the thermal histories of asteroids are still largely unknown whereas it would bring fundamental information on their timing of accretion and their physical characteristics. Here we show that hydrated meteorites (CM chondrites) contain previously uncharacterized calcium carbonates with peculiar oxygen isotopic compositions (Δ17O ≈ -2.5 ‰), which artificially produce the mass-independent trend previously reported for carbonates. Based on these isotopic data, we propose a new model to quantitatively estimate the precipitation temperatures of secondary phases (carbonates and serpentine). It reveals that chondritic secondary phases recorded a gradual increase of the temperature during the extent of aqueous alteration, from –10 °C to maximum 250 °C. We also show that the thermal path of C-type asteroids is independent of the initial oxygen isotopic composition of the primordial water ice grains that they accreted. Our estimated temperatures for hydrated asteroids remain lower than those experienced by other carbonaceous chondrites, providing strong constraints for modelling the formation conditions and size-distribution of water-rich asteroids, especially in anticipation of the return of samples of water-rich asteroids to Earth by the OSIRIS-REx and Hayabusa2 missions.
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Contributor : Yves Marrocchi Connect in order to contact the contributor
Submitted on : Thursday, October 24, 2019 - 2:52:39 PM
Last modification on : Friday, August 5, 2022 - 12:31:13 PM
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Lionel Vacher, Maxime Piralla, Matthieu Gounelle, Martin Bizzarro, Yves Marrocchi. Thermal evolution of hydrated asteroids inferred from oxygen isotopes. The Astrophysical journal letters, 2019, 882, pp.L20. ⟨10.3847/2041-8213/ab3bd0⟩. ⟨hal-02331795⟩



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