In:
Meteoritics & Planetary Science, Wiley, Vol. 57, No. 7 ( 2022-07), p. 1387-1420
Abstract:
Enstatite‐rich meteorites, including the aubrites, formed under conditions of very low oxygen fugacity (ƒO 2 : iron‐wüstite buffer −2 to −6) and thus offer the ability to study reduced magmatism present on multiple bodies in our solar system. Elemental partitioning among metals, sulfides, and silicates is poorly constrained at low ƒO 2 ; however, studies of enstatite‐rich meteorites may yield empirical evidence of the effects of low ƒO 2 on elemental behavior. This work presents comprehensive petrologic and oxygen isotopic studies of 14 aubrites, including four meteorites that have not been previously investigated in detail. The aubrites exhibit a variety of textures and mineralogy, and their elemental zoning patterns point to slow cooling histories for all 14 samples. Oxygen isotope analyses suggest that the aubrite parent bodies may be more heterogeneous than originally reported or may have experienced incomplete magmatic differentiation. Contrary to the other classified aubrites and based on textural and mineralogical observations, we suggest that the Northwest Africa 8396 meteorite shows an affinity for an enstatite chondrite parentage. By measuring major elemental compositions of silicates, sulfides, and metals, we calculate new metal–silicate, sulfide–silicate, and sulfide–metal partition coefficients for aubrites that are applicable to igneous systems at low ƒO 2 . The geochemical behavior of elements in aubrites, as determined using partition coefficients, is similar to the geochemical behavior of elements determined experimentally for magmatic systems on Mercury. Enstatite‐rich meteorites, including aubrites, represent valuable natural petrologic analogues to Mercury and their study could further our understanding of reduced magmatism in our solar system.
Type of Medium:
Online Resource
ISSN:
1086-9379
,
1945-5100
Language:
English
Publisher:
Wiley
Publication Date:
2022
detail.hit.zdb_id:
2011097-2
SSG:
16,12
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