TY - JOUR
T1 - Lithium- and oxygen-isotope compositions of chondrule constituents in the Allende meteorite
AU - Kunihiro, Tak
AU - Ota, Tsutomu
AU - Nakamura, Eizo
N1 - Funding Information:
We thank Y. Shimaki for technical support of the SIMS. We thank G.E. Bebout, C. Potiszil, A.E. Rubin, K. Kobayashi, R. Tanaka, and H. Kitagawa for useful discussions. We thank A. Krot, K. Nagashima, H.-M. Seitz, and the two anonymous reviewers for their constructive comments. We also thank M. Yamanaka, Y. Yachi and C. Sakaguchi, for technical support. We are greatly indebted to K. Tanaka, K. Anji, and Y. Shimizu and for their assistance maintaining the laboratory. This work was supported in part by Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan.
Publisher Copyright:
© 2019 Elsevier Ltd
PY - 2019/5/1
Y1 - 2019/5/1
N2 - We report in situ ion-microprobe analyses of Li- and O-isotope compositions for olivine, low-Ca pyroxene, high-Ca pyroxene, and chondrule mesostasis/plagioclase in nine chondrules from the Allende CV3 chondrite. Based on their mineralogy and O-isotope compositions, we infer that the chondrule mesostasis/plagioclase and ferroan olivine rims were extensively modified or formed during metasomatic alteration and metamorphism on the Allende parent asteroid. We excluded these minerals in order to determine the correlations between Li and both O and the chemical compositions of olivines and low-Ca pyroxenes in the chondrules and their igneous rims. Based on the O-isotope composition of the olivines, nine chondrules were divided into three groups. Average Δ 17 O of olivines (Fo >65 ) in group 1 and 2 chondrules are −5.3 ± 0.4 and −6.2 ± 0.4‰, respectively. Group 3 chondrules are characterized by the presence of 16 O-rich relict grains and the Δ 17 O of their olivines range from −23.7 to −6.2‰. In group 1 olivines, as Fa content increases, variation of δ 7 Li becomes smaller and δ 7 Li approaches the whole-rock value (2.4‰; Seitz et al., 2012), suggesting nearly complete Li-isotope equilibration. In group 2 and 3 olivines, variation of δ 7 Li is limited even with a significant range of Fa content. We conclude that Li-isotope compositions of olivine in group 1 chondrules were modified not by an asteroidal process but by an igneous-rim formation process, thus chondrule olivines retained Li-isotope compositions acquired in the protosolar nebula. In olivines of the group 3 chondrule PO-8, we observed a correlation between O and Li isotopes: In relict 16 O-rich olivine grains with Δ 17 O of ∼−25 to −20‰, δ 7 Li ranges from −23 to −3‰; in olivine grains with Δ 17 O > −20‰, δ 7 Li is nearly constant (−8 ± 4‰). Based on the Li-isotope composition of low-Ca pyroxenes, which formed from melt during the crystallization of host chondrules and igneous rims, the existence of a gaseous reservoir with a δ 7 Li ∼ −11‰ is inferred.
AB - We report in situ ion-microprobe analyses of Li- and O-isotope compositions for olivine, low-Ca pyroxene, high-Ca pyroxene, and chondrule mesostasis/plagioclase in nine chondrules from the Allende CV3 chondrite. Based on their mineralogy and O-isotope compositions, we infer that the chondrule mesostasis/plagioclase and ferroan olivine rims were extensively modified or formed during metasomatic alteration and metamorphism on the Allende parent asteroid. We excluded these minerals in order to determine the correlations between Li and both O and the chemical compositions of olivines and low-Ca pyroxenes in the chondrules and their igneous rims. Based on the O-isotope composition of the olivines, nine chondrules were divided into three groups. Average Δ 17 O of olivines (Fo >65 ) in group 1 and 2 chondrules are −5.3 ± 0.4 and −6.2 ± 0.4‰, respectively. Group 3 chondrules are characterized by the presence of 16 O-rich relict grains and the Δ 17 O of their olivines range from −23.7 to −6.2‰. In group 1 olivines, as Fa content increases, variation of δ 7 Li becomes smaller and δ 7 Li approaches the whole-rock value (2.4‰; Seitz et al., 2012), suggesting nearly complete Li-isotope equilibration. In group 2 and 3 olivines, variation of δ 7 Li is limited even with a significant range of Fa content. We conclude that Li-isotope compositions of olivine in group 1 chondrules were modified not by an asteroidal process but by an igneous-rim formation process, thus chondrule olivines retained Li-isotope compositions acquired in the protosolar nebula. In olivines of the group 3 chondrule PO-8, we observed a correlation between O and Li isotopes: In relict 16 O-rich olivine grains with Δ 17 O of ∼−25 to −20‰, δ 7 Li ranges from −23 to −3‰; in olivine grains with Δ 17 O > −20‰, δ 7 Li is nearly constant (−8 ± 4‰). Based on the Li-isotope composition of low-Ca pyroxenes, which formed from melt during the crystallization of host chondrules and igneous rims, the existence of a gaseous reservoir with a δ 7 Li ∼ −11‰ is inferred.
KW - Allende
KW - Asteroid
KW - Chondrite
KW - Chondrule
KW - Igneous rim
KW - Lithium
KW - Oxygen
KW - SIMS
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U2 - 10.1016/j.gca.2019.02.038
DO - 10.1016/j.gca.2019.02.038
M3 - Article
AN - SCOPUS:85062711762
SN - 0016-7037
VL - 252
SP - 107
EP - 125
JO - Geochmica et Cosmochimica Acta
JF - Geochmica et Cosmochimica Acta
ER -