TY - JOUR
T1 - Magnetite in the unequilibrated CK chondrites
T2 - Implications for metamorphism and new insights into the relationship between the CV and CK chondrites
AU - Dunn, Tasha L.
AU - Gross, Juliane
AU - Ivanova, Marina A.
AU - Runyon, Simone E.
AU - Bruck, Andrea M.
N1 - Funding Information:
We thank Brigitte Zanda at the Muséum national d'Histoire naturelle in Paris, France for loaning thin sections of NWA 4422, NWA 4423, and NWA 4425 and Tony Irving at the University of Washington for loaning a thin section of NWA 2043. We also thank Michael Farmer for donating a piece of DaG 431 to be used in this study. We thank Paul Carpenter at Washington University in St. Louis for his assistance on the electron microprobe. We also thank reviewers Kieren Howard and Richard Greenwood for their thoughtful comments and Associate Editor Ed Scott for his handling of this manuscript. This work was funded by NASA Cosmochemistry grant NNX14AG61G to TLD.
Publisher Copyright:
© The Meteoritical Society, 2016.
PY - 2016/9/1
Y1 - 2016/9/1
N2 - Bulk isotopic and elemental compositions of CV and CK chondrites have led to the suggestion that both originate from the same asteroid. It has been argued that magnetite compositions also support this model; however, magnetite has been studied almost exclusively in the equilibrated (type 4-6) CKs. Magnetite in seven unequilibrated CKs analyzed here is enriched in MgO, TiO2, and Al2O3 relative to the equilibrated CKs, suggesting that magnetite compositions are affected by metamorphism. Magnetite in CKs is compositionally distinct from CVs, particularly in abundances of Cr2O3, NiO, and TiO2. Although there are minor similarities between CV and equilibrated CK chondrite magnetite, this is contrary to what we would expect if the CVs and CKs represent a single metamorphic sequence. CV magnetite should resemble CK3 magnetite, as both were metamorphosed to type 3 conditions. Oxygen fugacities and temperatures of CVox and CK chondrites are also difficult to reconcile using existing CV-CK parent body models. Mineral chemistries, which eliminate issues of bulk sample heterogeneity, provide a reliable alternative to techniques that involve a small amount of sample material. CV and CK chondrite magnetite has distinct compositional differences that cannot be explained by metamorphism.
AB - Bulk isotopic and elemental compositions of CV and CK chondrites have led to the suggestion that both originate from the same asteroid. It has been argued that magnetite compositions also support this model; however, magnetite has been studied almost exclusively in the equilibrated (type 4-6) CKs. Magnetite in seven unequilibrated CKs analyzed here is enriched in MgO, TiO2, and Al2O3 relative to the equilibrated CKs, suggesting that magnetite compositions are affected by metamorphism. Magnetite in CKs is compositionally distinct from CVs, particularly in abundances of Cr2O3, NiO, and TiO2. Although there are minor similarities between CV and equilibrated CK chondrite magnetite, this is contrary to what we would expect if the CVs and CKs represent a single metamorphic sequence. CV magnetite should resemble CK3 magnetite, as both were metamorphosed to type 3 conditions. Oxygen fugacities and temperatures of CVox and CK chondrites are also difficult to reconcile using existing CV-CK parent body models. Mineral chemistries, which eliminate issues of bulk sample heterogeneity, provide a reliable alternative to techniques that involve a small amount of sample material. CV and CK chondrite magnetite has distinct compositional differences that cannot be explained by metamorphism.
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U2 - 10.1111/maps.12691
DO - 10.1111/maps.12691
M3 - Article
AN - SCOPUS:84979500198
SN - 1086-9379
VL - 51
SP - 1701
EP - 1720
JO - Meteoritics and Planetary Science
JF - Meteoritics and Planetary Science
IS - 9
ER -