Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites

Abstract The petrologic and oxygen isotopic characteristics of calcium‐aluminum‐rich inclusions (CAIs) in CO chondrites were further constrained by studying CAIs from six primitive CO3.0‐3.1 chondrites, including two Antarctic meteorites (DOM 08006 and MIL 090010), three hot desert meteorites (NWA 1...

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Published in:Meteoritics & Planetary Science
Main Authors: Zhang, Mingming, Bonato, Enrica, King, Ashley J., Russell, Sara S., Tang, Guoqiang, Lin, Yangting
Other Authors: Science and Technology Facilities Council
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2020
Subjects:
Antarctic
Antarc*
Online Access:http://dx.doi.org/10.1111/maps.13473
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spelling crwiley:10.1111/maps.13473 2024-10-20T14:03:52+00:00 Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites Zhang, Mingming Bonato, Enrica King, Ashley J. Russell, Sara S. Tang, Guoqiang Lin, Yangting Science and Technology Facilities Council 2020 http://dx.doi.org/10.1111/maps.13473 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fmaps.13473 https://onlinelibrary.wiley.com/doi/pdf/10.1111/maps.13473 https://onlinelibrary.wiley.com/doi/full-xml/10.1111/maps.13473 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor Meteoritics & Planetary Science volume 55, issue 4, page 911-935 ISSN 1086-9379 1945-5100 journal-article 2020 crwiley https://doi.org/10.1111/maps.13473 2024-09-27T04:17:38Z Abstract The petrologic and oxygen isotopic characteristics of calcium‐aluminum‐rich inclusions (CAIs) in CO chondrites were further constrained by studying CAIs from six primitive CO3.0‐3.1 chondrites, including two Antarctic meteorites (DOM 08006 and MIL 090010), three hot desert meteorites (NWA 10493, NWA 10498, and NWA 7892), and the Colony meteorite. The CAIs can be divided into hibonite‐bearing inclusions (spinel‐hibonite spherules, monomineralic grains, hibonite‐pyroxene microspherules, and irregular/nodular objects), grossite‐bearing inclusions (monomineralic grains, grossite‐melilite microspherules, and irregular/nodular objects), melilite‐rich inclusions (fluffy Type A, compact type A, monomineralic grains, and igneous fragments), spinel‐pyroxene inclusions (fluffy objects resembling fine‐grained spinel‐rich inclusions in CV chondrites and nodular/banded objects resembling those in CM chondrites), and pyroxene‐anorthite inclusions. They are typically small (98.4 ± 54.4 µm, 1SD) and comprise 1.54 ± 0.43 (1SD) area% of the host chondrites. Melilite in the hot desert and Colony meteorites was extensively replaced by a hydrated Ca‐Al‐silicate during terrestrial weathering and converted melilite‐rich inclusions into spinel‐pyroxene inclusions. The CAI populations of the weathered COs are very similar to those in CM chondrites, suggesting that complete replacement of melilite by terrestrial weathering, and possibly parent body aqueous alteration, would make the CO CAIs CM‐like, supporting the hypothesis that CO and CM chondrites derive from similar nebular materials. Within the CO3.0‐3.1 chondrites, asteroidal alteration significantly resets oxygen isotopic compositions of CAIs in CO3.1 chondrites (∆ 17 O: −25 to −2‰) but left those in CO3.0‐3.05 chondrites mostly unchanged (∆ 17 O: −25 to −20‰), further supporting the model whereby thermal metamorphism became evident in CO chondrites of petrologic type ≥3.1. The resistance of CAI minerals to oxygen isotope exchange during thermal metamorphism follows in the ... Article in Journal/Newspaper Antarc* Antarctic Wiley Online Library Antarctic Meteoritics & Planetary Science 55 4 911 935
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Abstract The petrologic and oxygen isotopic characteristics of calcium‐aluminum‐rich inclusions (CAIs) in CO chondrites were further constrained by studying CAIs from six primitive CO3.0‐3.1 chondrites, including two Antarctic meteorites (DOM 08006 and MIL 090010), three hot desert meteorites (NWA 10493, NWA 10498, and NWA 7892), and the Colony meteorite. The CAIs can be divided into hibonite‐bearing inclusions (spinel‐hibonite spherules, monomineralic grains, hibonite‐pyroxene microspherules, and irregular/nodular objects), grossite‐bearing inclusions (monomineralic grains, grossite‐melilite microspherules, and irregular/nodular objects), melilite‐rich inclusions (fluffy Type A, compact type A, monomineralic grains, and igneous fragments), spinel‐pyroxene inclusions (fluffy objects resembling fine‐grained spinel‐rich inclusions in CV chondrites and nodular/banded objects resembling those in CM chondrites), and pyroxene‐anorthite inclusions. They are typically small (98.4 ± 54.4 µm, 1SD) and comprise 1.54 ± 0.43 (1SD) area% of the host chondrites. Melilite in the hot desert and Colony meteorites was extensively replaced by a hydrated Ca‐Al‐silicate during terrestrial weathering and converted melilite‐rich inclusions into spinel‐pyroxene inclusions. The CAI populations of the weathered COs are very similar to those in CM chondrites, suggesting that complete replacement of melilite by terrestrial weathering, and possibly parent body aqueous alteration, would make the CO CAIs CM‐like, supporting the hypothesis that CO and CM chondrites derive from similar nebular materials. Within the CO3.0‐3.1 chondrites, asteroidal alteration significantly resets oxygen isotopic compositions of CAIs in CO3.1 chondrites (∆ 17 O: −25 to −2‰) but left those in CO3.0‐3.05 chondrites mostly unchanged (∆ 17 O: −25 to −20‰), further supporting the model whereby thermal metamorphism became evident in CO chondrites of petrologic type ≥3.1. The resistance of CAI minerals to oxygen isotope exchange during thermal metamorphism follows in the ...
author2 Science and Technology Facilities Council
format Article in Journal/Newspaper
author Zhang, Mingming
Bonato, Enrica
King, Ashley J.
Russell, Sara S.
Tang, Guoqiang
Lin, Yangting
spellingShingle Zhang, Mingming
Bonato, Enrica
King, Ashley J.
Russell, Sara S.
Tang, Guoqiang
Lin, Yangting
Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
author_facet Zhang, Mingming
Bonato, Enrica
King, Ashley J.
Russell, Sara S.
Tang, Guoqiang
Lin, Yangting
author_sort Zhang, Mingming
title Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
title_short Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
title_full Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
title_fullStr Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
title_full_unstemmed Petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive CO3.0‐3.1 chondrites
title_sort petrology and oxygen isotopic compositions of calcium‐aluminum‐rich inclusions in primitive co3.0‐3.1 chondrites
publisher Wiley
publishDate 2020
url http://dx.doi.org/10.1111/maps.13473
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fmaps.13473
https://onlinelibrary.wiley.com/doi/pdf/10.1111/maps.13473
https://onlinelibrary.wiley.com/doi/full-xml/10.1111/maps.13473
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Antarctic
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volume 55, issue 4, page 911-935
ISSN 1086-9379 1945-5100
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1111/maps.13473
container_title Meteoritics & Planetary Science
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container_issue 4
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