High crustal diversity preserved in the lunar meteorite Mount DeWitt 12007 (Victoria Land, Antarctica)

The meteorite Mount DeWitt (DEW) 12007 is a polymict regolith breccia mainly consisting of glassy impact-melt breccia particles, gabbroic clasts, feldspathic clasts, impact and volcanic glass beads, basaltic clasts and mingled breccia clasts embedded in a matrix dominated by finegrained crystals; ve...

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Bibliographic Details
Published in:Meteoritics & Planetary Science
Main Authors: COLLARETA, ALBERTO, D'ORAZIO, MASSIMO, GEMELLI, MAURIZIO, Pack, Andreas, FOLCO, LUIGI
Other Authors: Collareta, Alberto, D'Orazio, Massimo, Gemelli, Maurizio, Pack, Andrea, Folco, Luigi
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
DEW 12007
mingled breccia
lunar regolith
Moon
Antarctica
Victoria Land
DeWitt
Mount DeWitt
Antarc*
Online Access:https://hdl.handle.net/11568/758485
https://doi.org/10.1111/maps.12597
Description
Summary:The meteorite Mount DeWitt (DEW) 12007 is a polymict regolith breccia mainly consisting of glassy impact-melt breccia particles, gabbroic clasts, feldspathic clasts, impact and volcanic glass beads, basaltic clasts and mingled breccia clasts embedded in a matrix dominated by finegrained crystals; vesicular glassy veins and rare agglutinates are also present. Main minerals are plagioclase (typically An>85) and clinopyroxene (pigeonites and augites, sometimes interspersed). The presence of tranquillityite, coupled with the petrophysical data, the O-isotope data (D17O = -0.075) and the FeOtot/MnO ratios in olivine (91), pyroxene (65) and bulk rock (77) indicate a lunar origin for DEW 12007. Impactites consist of Al-rich impact melt splashes and plagioclase-rich meta-melt clasts. The volcanic products belong to the Very Low Titanium (VLT) or Low Titanium (LT) suites; an unusual subophitic fragment could be cryptomare-related. Gabbroic clasts could represent part of a shallow intrusion within a volcanic complex with prevailing VLT affinity. DEW 12007 has a mingled bulk composition with relatively high incompatible element abundances and shows a high crustal diversity, comprising clasts from the Moon's major terranes and rare lithologies. First order petrographic and chemical features suggest that DEW 12007 could be launch-paired with other meteorites including Y 793274/981031, QUE 94281, EET 87521/96008, and NWA 4884.

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