-40%
Meteorite**NWA 13903, HED Diogenite "olivine-bearing"**4.130 Grams, Nice slice!!
$ 14.25
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Description
Hello up for auction is NWA 13903 classified as a HED Diogenite "olivine-bearing". This gorgeous slice weighs 4.130 Grams and has a polished face displaying coarse dark gray-blue grains set in an orange-brown groundmass and a large metal dot, very rare to find. This has fresh fusion crust on the edge of the slice, very fresh, low weathering and highly shocked. Petrography: (C. Agee,UNM) Microprobe examination of a polished mount shows fragmental breccia with ~90% orthopyroxene. Accessory phases are olivine, troilite, chromite, and iron metal. No plagioclase was detected.This is one of my newest classifications, shared with my friend Ari M... I will have slices and endcuts available soon. Thanks for your interest and take care, comes with COA card.NASA says: Diogenites are coarse-grained orthopyroxene-rich rocks, generally ~ 90% orthopyroxene, and contain minor amounts of olivine, chromite, plagioclase, clinopyroxene, and opaque minerals such as troilite and metal. Diogenites are commonly brecciated, but there are unbrecciated samples as wellAlthough olivine is typically < 10%, there is a growing group of olivine-rich diogenites that contain up to 50% olivine. These are of great interest to HED meteorite specialists because they may offer insight into the HED mantle, or to one end-member of magmatic evolution that had olivine and orthopyroxene crystallizing together. Many eucrites and diogenites have been metamorphosed such that their pyorxenes and plagioclases have been equilibrated and lost any compositional record of the original igneous zoning (Reid and Barnard, 1979; Takeda and Graham, 1991). In this group are basaltic rocks that have been recrystallized into fine grained granulitic textures, and represent metamorphosed basalts (Yamaguchi et al., 1996, 1997). Diogenites have also experienced thermal metamorphism (e.g., Mori and Takeda, 1981; Yamaguchi et al., 2010) and this must be kept in mind when considering igneous formation models. Nature communications says: The HED meteorites have various mineral assemblages, probably representing materials from different depths of Vesta. Eucrites that consist mainly of pyroxene and plagioclase are thought being derived from the upper crust of Vesta. Diogenites consist mainly of orthopyroxene with or without olivine. They are usually coarse-grained and have Mg/(Mg+Fe) values higher than eucrites, suggesting that they were derived from the lower crust or the mantle of Vesta, based on magma ocean models. Howardites are mechanical mixtures of eucrite and diogenite components, representing materials from the surface of Vesta. As materials from the Vestan interior, diogenites are critical to constraining the internal structure and dynamic evolution of the interior of Vesta and to testing the magma ocean models for Vesta. However, origins of diogenites are still an issue of controversy. The recent magma ocean model claimed that equilibrium crystallization followed by fractional crystallization can produce all of the igneous HED lithologies. However, a few investigations suggested that the large variations in incompatible trace element concentrations among diogenites are difficult to be explained by the magma ocean models Some diogenites contain glassy materials and chemically zoned orthopyroxene, also indicating that the origins of diogenites could be very complex Based on the large variations in incompatible trace element concentrations and the presence of chemically zoned orthopyroxene, a number of investigations suggested that many diogenites were formed through partial melting of the magma ocean cumulates, probably with contamination of melts derived from anataxis of eucritic crust. However, considering the potential effects from post-magmatic metamorphism on the eucrite parent body, terrestrial weathering, and analytical issues, whether partial melting had taken place in Vesta remains an open question
Meteoritical bulletin says :
This is an OFFICIAL meteorite name
:NWA 13903 Observed fall:No Year found:2021 Country:Algeria Mass:1753 g Classification history:Recommended:Diogenite This is 1 of 459 approved meteorites classified as Diogenite Northwest Africa 13903(NWA 13903) Algeria Purchased: 2021 Classification: HED achondrite (Diogenite) History: Purchased from Mostafa Hnini and Ali Mftah both Mauritanian meteorite dealers. Reportedly found in the border region between Algeria and Mali close to Erg Chech in 2020. Physical characteristics: Ten identically appearing stones found together. Partially fresh fusion crusted. Saw-cut surfaces reveal coarse dark gray-blue grains set in an orange-brown groundmass. Petrography: (C. Agee,UNM) Microprobe examination of a polished mount shows fragmental breccia with ~90% orthopyroxene. Accessory phases are olivine, troilite, chromite, and iron metal. No plagioclase was detected. Geochemistry: (C. Agee,UNM) Olivine Fa29.61.4, Fe/Mn=473, n=4; low-Ca pyroxene Fs24.62.0Wo1.40.1, Fe/Mn=261, n=8. Classification: HED diogenite (olivine-bearing) Specimens: 21 g on deposit atUNM, Matthew Stream holds the 1100 g, Ari Machiz holds 450 g. Data from: Place of purchase:MauritaniaDate:P 2021Mass (g):1753Pieces:10Class:DiogeniteShock stage:highWeathering grade:lowFayalite (mol%):29.61.4Ferrosilite (mol%):24.62.0Wollastonite (mol%):1.40.1Classifier:C. Agee, UNMType spec mass (g):21Type spec location:UNMMain mass:Matthew StreamComments:Field name MST-1; submitted by C. Agee, UNM