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Episodic formation of refractory inclusions in the Solar System and their presolar heritage

Refractory inclusions [Ca-Al-rich Inclusions (CAIs) and Amoeboid Olivine Aggregates (AOAs)] in primitive meteorites are the oldest Solar System solids. They formed in the hot inner protoplanetary disk and, as such, provide insights into the earliest disk dynamics and physicochemical processing of th...

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Autores principales: Larsen, K.K., Wielandta, D., Schillera, M., Krot, A.N., Bizzarro, M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7611424/
https://www.ncbi.nlm.nih.gov/pubmed/34334802
http://dx.doi.org/10.1016/j.epsl.2020.116088
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author Larsen, K.K.
Wielandta, D.
Schillera, M.
Krot, A.N.
Bizzarro, M.
author_facet Larsen, K.K.
Wielandta, D.
Schillera, M.
Krot, A.N.
Bizzarro, M.
author_sort Larsen, K.K.
collection PubMed
description Refractory inclusions [Ca-Al-rich Inclusions (CAIs) and Amoeboid Olivine Aggregates (AOAs)] in primitive meteorites are the oldest Solar System solids. They formed in the hot inner protoplanetary disk and, as such, provide insights into the earliest disk dynamics and physicochemical processing of the dust and gas that accreted to form the Sun and its planetary system. Using the short-lived (26)Al to (26)Mg decay system, we show that bulk refractory inclusions in CV (Vigarano-type) and CR (Renazzo-type) carbonaceous chondrites captured at least two distinct (26)Al-rich ((26)Al/(27)Al ratios of ~5 × 10(−5)) populations of refractory inclusions characterized by different initial (26)Mg/(24)Mg isotope compositions (μ(26)Mg*(0)). Another (26)Al-poor CAI records an even larger μ(26)Mg*(0) deficit. This suggests that formation of refractory inclusions was punctuated and recurrent, possibly associated with episodic outbursts from the accreting proto-Sun lasting as short as <8000 yr. Our results support a model in which refractory inclusions formed close to the hot proto-Sun and were subsequently redistributed to the outer disk, beyond the orbit of Jupiter, plausibly via stellar outflows with progressively decreasing transport efficiency. We show that the magnesium isotope signatures in refractory inclusions mirrors the presolar grain record, demonstrating a mutual exclusivity between (26)Al enrichments and large nucleosynthetic Mg isotope effects. This suggests that refractory inclusions formed by incomplete thermal processing of presolar dust, thereby inheriting a diluted signature of their isotope systematics. As such, they record snapshots in the progressive sublimation of isotopically anomalous presolar carriers through selective thermal processing of young dust components from the proto-Solar molecular cloud. We infer that (26)Al-rich refractory inclusions incorporated (26)Al-rich dust which formed <5 Myr prior to our Sun, whereas (26)Al-poor inclusions (such as FUN- and PLAC-type CAIs) incorporated >10 Myr old dust.
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spelling pubmed-76114242021-07-29 Episodic formation of refractory inclusions in the Solar System and their presolar heritage Larsen, K.K. Wielandta, D. Schillera, M. Krot, A.N. Bizzarro, M. Earth Planet Sci Lett Article Refractory inclusions [Ca-Al-rich Inclusions (CAIs) and Amoeboid Olivine Aggregates (AOAs)] in primitive meteorites are the oldest Solar System solids. They formed in the hot inner protoplanetary disk and, as such, provide insights into the earliest disk dynamics and physicochemical processing of the dust and gas that accreted to form the Sun and its planetary system. Using the short-lived (26)Al to (26)Mg decay system, we show that bulk refractory inclusions in CV (Vigarano-type) and CR (Renazzo-type) carbonaceous chondrites captured at least two distinct (26)Al-rich ((26)Al/(27)Al ratios of ~5 × 10(−5)) populations of refractory inclusions characterized by different initial (26)Mg/(24)Mg isotope compositions (μ(26)Mg*(0)). Another (26)Al-poor CAI records an even larger μ(26)Mg*(0) deficit. This suggests that formation of refractory inclusions was punctuated and recurrent, possibly associated with episodic outbursts from the accreting proto-Sun lasting as short as <8000 yr. Our results support a model in which refractory inclusions formed close to the hot proto-Sun and were subsequently redistributed to the outer disk, beyond the orbit of Jupiter, plausibly via stellar outflows with progressively decreasing transport efficiency. We show that the magnesium isotope signatures in refractory inclusions mirrors the presolar grain record, demonstrating a mutual exclusivity between (26)Al enrichments and large nucleosynthetic Mg isotope effects. This suggests that refractory inclusions formed by incomplete thermal processing of presolar dust, thereby inheriting a diluted signature of their isotope systematics. As such, they record snapshots in the progressive sublimation of isotopically anomalous presolar carriers through selective thermal processing of young dust components from the proto-Solar molecular cloud. We infer that (26)Al-rich refractory inclusions incorporated (26)Al-rich dust which formed <5 Myr prior to our Sun, whereas (26)Al-poor inclusions (such as FUN- and PLAC-type CAIs) incorporated >10 Myr old dust. 2020-01-28 /pmc/articles/PMC7611424/ /pubmed/34334802 http://dx.doi.org/10.1016/j.epsl.2020.116088 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/
spellingShingle Article
Larsen, K.K.
Wielandta, D.
Schillera, M.
Krot, A.N.
Bizzarro, M.
Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title_full Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title_fullStr Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title_full_unstemmed Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title_short Episodic formation of refractory inclusions in the Solar System and their presolar heritage
title_sort episodic formation of refractory inclusions in the solar system and their presolar heritage
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7611424/
https://www.ncbi.nlm.nih.gov/pubmed/34334802
http://dx.doi.org/10.1016/j.epsl.2020.116088
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