TY - JOUR
T1 - Siderophile element characteristics of acapulcoite–lodranites and winonaites
T2 - Implications for the early differentiation processes of their parent bodies
AU - Hidaka, Yoshihiro
AU - Shirai, Naoki
AU - Yamaguchi, Akira
AU - Ebihara, Mitsuru
N1 - Funding Information:
Acknowledgments—We are indebted to the National Institute of Polar Research, Tokyo for loaning us Antarctic meteorite samples. U.S. Antarctic meteorite samples are recovered by the Antarctic Search for Meteorites (ANSMET) program which has been funded by NSF and NASA, and characterized and curated by the Department of Mineral Sciences of the Smithsonian Institution and Astromaterials Curation Office at NASA Johnson Space Center. We thank K. Righter, G. Benedix, and an anonymous reviewer for their constructive comments.
Funding Information:
We are indebted to the National Institute of Polar Research, Tokyo for loaning us Antarctic meteorite samples. U.S. Antarctic meteorite samples are recovered by the Antarctic Search for Meteorites (ANSMET) program which has been funded by NSF and NASA, and characterized and curated by the Department of Mineral Sciences of the Smithsonian Institution and Astromaterials Curation Office at NASA Johnson Space Center. We thank K. Righter, G. Benedix, and an anonymous reviewer for their constructive comments.
Publisher Copyright:
© The Meteoritical Society, 2019.
PY - 2019/5
Y1 - 2019/5
N2 - We have studied magnetic fractions of five acapulcoites, three lodranites, and two winonaites to investigate chemical compositions of their precursor materials and metallic partial melting processes occurring on their parent bodies. One winonaite metal is similar in composition to low Au, low Ni IAB iron subgroup, indicating genetic relationship between them. Magnetic fractions of chondrule-bearing acapulcoite and winonaite have intermediate chemical compositions of metals between H chondrites and EL chondrites. This fact indicates that the precursor materials of acapulcoite–lodranites and winonaites were similar to H and/or EL chondrites in chemical compositions. Magnetic fractions in acapulcoite–lodranites have a large variety of chemical compositions. Most of them show enrichments of W, Re, Ir, Pt, Mo, and Rh, and one of them shows clear depletion in Re and Ir relative to those of chondrule-bearing acapulcoite. Chemical compositional variations among acapulcoite–lodranite metals cannot be explained by a single Fe-Ni-S partial melting event, but a two-step partial melting model can explain it.
AB - We have studied magnetic fractions of five acapulcoites, three lodranites, and two winonaites to investigate chemical compositions of their precursor materials and metallic partial melting processes occurring on their parent bodies. One winonaite metal is similar in composition to low Au, low Ni IAB iron subgroup, indicating genetic relationship between them. Magnetic fractions of chondrule-bearing acapulcoite and winonaite have intermediate chemical compositions of metals between H chondrites and EL chondrites. This fact indicates that the precursor materials of acapulcoite–lodranites and winonaites were similar to H and/or EL chondrites in chemical compositions. Magnetic fractions in acapulcoite–lodranites have a large variety of chemical compositions. Most of them show enrichments of W, Re, Ir, Pt, Mo, and Rh, and one of them shows clear depletion in Re and Ir relative to those of chondrule-bearing acapulcoite. Chemical compositional variations among acapulcoite–lodranite metals cannot be explained by a single Fe-Ni-S partial melting event, but a two-step partial melting model can explain it.
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U2 - 10.1111/maps.13273
DO - 10.1111/maps.13273
M3 - Article
AN - SCOPUS:85062705321
SN - 1086-9379
VL - 54
SP - 1153
EP - 1166
JO - Meteoritics and Planetary Science
JF - Meteoritics and Planetary Science
IS - 5
ER -