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Northwest Africa (NWA) 8785, an EL3 Chondrite with FeO-Rich Matrix (2019)

Kimura, M. ; Zolensky, M. E. ; Ebel, D. S. ; [et al.]

In: CASI

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Publication Date: 2019-07-27

Description: The enstatite (E) chondrites are enigmatic but important for understanding the evolution of the terrestrial planets. They have highly reduced mineral assemblages in which enstatite (near pure in compostion) is the dominant silicate, metal is abundant and contains 〉2.5 wt. % Si in some EH3s, elements which are generally lithophile in most chondrites occur as sulfide and some E3s contain nitrides and carbides. Notably, stable isotope compositions are similar to the Earth-Moon. Aside from E chondrite clasts in the Kaidun breccia, the enstaite chondrites are dry, lacking evidence of ever having hydrous minerals, distinguishing them from most other chondrite groups and suggesting they formed relatively close to the sun, inside of the snow line. Compared to other chondrite groups, the E3s are also matrix-poor, with EH3s having ~4-12 vol. % and EL3s 5 vol % matrix. Here we present a study of NWA 8785, a remarkable new EL3 chondrite with an FeO-rich, fine-grained matrix. Our goals are to understand E chondrite matrix and the evolution and alteration history of the EL3 parent body.

Keywords: Inorganic, Organic and Physical Chemistry

Type: JSC-E-DAA-TN68420 , Meteoritical Society Annual Meeting; Jul 07, 2019 - Jul 12, 2019; Sapporo; Japan

Format: application/pdf

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Carbonaceous Chondrite Clasts in HED Achondrites (1996)

Zolensky, M. E. ; Weisberg, M. K. ; Buchanan, P. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-15

Description: Since carbonaceous chondrite planetesimals are attractive candidates for the progenitors of HED asteroid(s), we have performed a survey of HED meteorites in order to locate and characterize the mineralogy, chemistry, and petrography of the oft-reported carbonaceous chondrite clasts by microprobe, SEM-EDX. and TEM techniques. We examined samples of all HEDs we could lay our gloved hands on, and found carbonaceous chondrite clasts in the howardites Kapoeta, Jodzie, EET 87513, Y 793497, LEW 85441, LEW 87015, and G'Day, the polymict eucrites LEW 97295 and LEW 95300, and the diogenite Ellemeet. We verified previous suggestions that the majority (about 80%) of these clasts are CM2 material, but we discovered that a significant proportion are CR2 (about 20%) and other rare types are present. We conclude that chondritic compounds of mixed CM2 and CR2 materials should be investigated in future geochemical modeling of the origin of the HED asteroid(s).

Keywords: Astrophysics

Type: Workshop on Evolution of Igneous Asteroids: Focus on Vesta and the HED Meterorites; Pt. 1; 43-44; LPI-TR-96-02-Pt-1

Format: text

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Oriented Mineral Transformation in a Dark Inclusion from the Leoville Meteorite (2017)

Buchanan, P. C. ; Hasegawa, H. ; Mikouchi, T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Dark inclusions (DIs) in chondrites and achondrites are dark gray to black fragments that include a wide variety of materials that have experienced very different petrologic histories. Based on the law of inclusions, they are rocks that accreted prior to and are older than their host meteorites and possibly rep-resent an earlier generation of material. The origin of these inclusions and their relationship to their host meteorites is not always clear. They are interesting in that they represent lithologies that experienced different parent body histories than their host meteorites and are either exotic components or originated from different regions of the meteorite parent body. In many cases, DIs in CV chondrites have been altered to greater degrees than their host meteorites suggesting pre accretionary alteration [e.g., 1,2,3]. There is debate concerning whether or not these DIs record an earlier era of aqueous alteration and subsequent thermal metamorphism, and how these processes may have also affected the host CV materials. The present study is a description of a dark inclusion found in the Leoville meteorite (specifically, thin section USNM 3535-1). This inclusion has some interesting features that have considerable relevance for this discussion.

Keywords: Geosciences (General); Lunar and Planetary Science and Exploration

Type: JSC-CN-38552 , Lunar and Planetary Science Conference; Mar 20, 2017 - Mar 24, 2017; The Woodlands, TX; United States

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