Heterogeneous mineral assemblages in Martian meteorite Tissint as a result of a recent small impact event on Mars - MacEwan Users Only

Walton, E. L., Sharp, T. G., Hu, J., & Filiberto, J. (2014). Heterogeneous mineral assemblages in Martian meteorite Tissint as a result of a recent small impact event on Mars.
Metadata
TitleHeterogeneous mineral assemblages in Martian meteorite Tissint as a result of a recent small impact event on Mars
Author(s)Walton, Erin L.; Sharp, T. G.; Hu, J.; Filiberto, J.
Date2014
Keyword(s)achondrites, chain silicates, clinopyroxene, Mars, Tissint martian meteorite
DescriptionThe microtexture and mineralogy of shock melts in the Tissint martian meteorite were investigated using scanning electron microscopy, Raman spectroscopy, transmission electron microscopy and synchrotron micro X-ray diffraction to understand shock conditions and duration. Distinct mineral assemblages occur within and adjacent to the shock melts as a function of the thickness and hence cooling history. The matrix of thin veins and pockets of shock melt consists of clinopyroxene + ringwoodite + or - stishovite embedded in glass with minor Fe-sulfide. The margins of host rock olivine in contact with the melt, as well as entrained olivine fragments, are now amorphosed silicate perovskite + magnesiowuestite or clinopyroxene + magnesiowuestite. The pressure stabilities of these mineral assemblages are approximately 15 GPa and >19 GPa, respectively. The approximately 200-mu m-wide margin of a thicker, mm-size (up to 1.4 mm) shock melt vein contains clinopyroxene + olivine, with central regions comprising glass + vesicles + Fe-sulfide spheres. Fragments of host rock within the melt are polycrystalline olivine (after olivine) and tissintite + glass (after plagioclase). From these mineral assemblages the crystallization pressure at the vein edge was as high as 14 GPa. The interior crystallized at ambient pressure. The shock melts in Tissint quench-crystallized during and after release from the peak shock pressure; crystallization pressures and those determined from olivine dissociation therefore represent the minimum shock loading. Shock deformation in host rock minerals and complete transformation of plagioclase to maskelynite suggest the peak shock pressure experienced by Tissint > or = 29-30 GPa. These pressure estimates support our assessment that the peak shock pressure in Tissint was significantly higher than the minimum 19 GPa required to transform olivine to silicate perovskite plus magnesiowuestite. Small volumes of shock melt (<100 mu m) quench rapidly (0.01 s), whereas thermal equilibration will occur within 1.2 s in larger volumes of melt (1 mm (super 2) ). The apparent variation in shock pressure recorded by variable mineral assemblages within and around shock melts in Tissint is consistent with a shock pulse on the order of 10-20 ms combined with a longer duration of post-shock cooling and complex thermal history. This implies that the impact on Mars that shocked and ejected Tissint at approximately 1 Ma was not exceptionally large.
Peer ReviewedYes
Type of ItemJournal Articles
DOI10.1016/j.gca.2014.05.023
Publication InformationWalton, E. L., Sharp, T. G., Hu, J., & Filiberto, J. (2014). Heterogeneous mineral assemblages in Martian meteorite Tissint as a result of a recent small impact event on Mars. Geochimica Et Cosmochimica Acta, 140, 334-348. doi:10.1016/j.gca.2014.05.023
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LanguageEnglish
RightsAll Rights Reserved