科技报告详细信息
A New Look at Aubrites: Investigating 3D Modal Mineralogy with X-Ray Computed Tomography
Wilbur, Zoe ; Udry, Arya ; Zeigler, Ryan ; Vander Kaaden, Kathleen ; McCubbin, Francis ; Zeigler, Karen ; Defelice, Christopher
关键词: ACHONDRITES;    METEORITIC COMPOSITION;    MINERALOGY;    X RAYS;    COMPUTER AIDED TOMOGRAPHY;    GEOCHEMISTRY;    IRON OXIDES;    SILICATES;    SULFIDES;    ABUNDANCE;    THREE DIMENSIONAL MODELS;    PETROLOGY;    BRECCIA;    TROILITE;    FORSTERITE;    ENSTATITE;    TWO DIMENSIONAL MODELS;   
RP-ID  :  JSC-E-DAA-TN64702
美国|英语
来源: NASA Technical Reports Server
PDF
【 摘 要 】

The aubrites (approximately 30 known meteorites) are a unique group of differentiated meteorites that formed on asteroids with oxygen fugacities (ƒO2) from approximately 2 to approximately 6 log units below the iron-wustite buffer. At these highly reduced conditions, elements deviate from the geochemical behavior exhibited at terrestrial ƒO2, forming FeO-poor silicates and exotic sulfides. While previous studies have described the petrology and 2D modal abundances of aubrites, this work investigates the 3D modal mineralogies of silicate, metal, and sulfide phases in aubrite samples, which are then compared to the available 2D data. In addition to 3D modal mineralogies, we have examined the geochemistry of fourteen aubrites, including mineral major-element compositions, bulk-rock compositions, and oxygen isotopic compositions to understand their formation and evolution at extreme ƒO2 conditions. We utilize X-ray computed tomography (XCT) to non-destructively analyze the distribution and abundances of mineral phases in aubrites and locate composite clasts of sulfide grains for future analytical study. In order to better constrain elemental behavior under reduced conditions, we specifically target minerals phases that comprise moderately volatile elements (i.e. oldhamite [CaS], caswellsilverite [NaCrS2] and djerfisherite [K6Na(Fe,Cu,Ni)25S26Cl]) as it has been shown that their geochemical behavior changes as a function of ƒO2. Currently, we have produced 3D scans of the Norton County aubrite. The results of the XCT data have allowed for the determination of the abundances of silicate groundmass (i.e., enstatite, forsterite, albite, and diopside), light (based on electron density) sulfides (i.e. alabandite [MnS] and daubréelite [FeCr2S4]), heavy (based on electron density) sulfides (i.e., troilite [FeS]), and Fe,Ni metal by segmenting a density histogram in Volume Graphics Studio software. XCT scans of additional aubrites are underway. By combining the 3D representation of the exotic phases found in aubrites with existing 2D characterizations, we are able to better determine modal abundances. By integrating 3D and 2D modal abundances and geochemistry, we can ultimately better constrain aubrite petrogenesis and elemental partitioning under reduced conditions. Furthermore, application of this new 3D approach offers the opportunity to identify and select clasts for future study prior to cutting the sample, which will minimize sample loss of this precious material.

【 预 览 】
附件列表
Files Size Format View
20190001442.pdf 314KB PDF download
  文献评价指标  
  下载次数:14次 浏览次数:42次