Replication Data for: Solar System evolution and terrestrial planet accretion determined by Zr isotopic signatures of meteorites

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Replication Data for: Solar System evolution and terrestrial planet accretion determined by Zr isotopic signatures of meteorites

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dc.​creator
Render, Jan
dc.​creator
Brennecka, Gregory A.
dc.​creator
Burkhardt, Christoph
dc.​creator
Kleine, Thorsten
dc.​date.​accessioned
2024-09-30T08:19:06Z
dc.​date.​available
2024-09-30T08:19:06Z
dc.​identifier
https://doi.org/10.35003/L5Z2MX
dc.​identifier.​uri
https://refubium.fu-berlin.de/handle/fub188/45084
dc.​identifier.​uri
http://dx.doi.org/10.17169/refubium-44796
dc.​description
Highlights</br> • We present new Zr isotope data for a comprehensive suite of meteorites.</br> • The NC-CC dichotomy among Solar System materials exists in Zr isotopes.</br> • Isotope variation was likely caused by time-varied infall from the molecular cloud.</br> • Earth & Mars accreted little CC material, precluding a pebble accretion scenario.</br>
dc.​publisher
TRR170-DB
dc.​subject
Chemistry
dc.​subject
zirconium
dc.​subject
nucleosynthetic anomalies
dc.​subject
early Solar System
dc.​subject
accretion
dc.​title
Replication Data for: Solar System evolution and terrestrial planet accretion determined by Zr isotopic signatures of meteorites
dc.​type
dataset
dcterms.​accessRights.​openaire
metadata only access
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