Experimental Investigation of Oxidation of Pyroxene and Basalt: Implications for Spectroscopic Analyses of the Surface of Venus and the Ages of Lava Flows

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Date
2020-06-10
Authors
Cutler, K. S.
Filiberto, Justin
https://orcid.org/0000-0001-5058-1905
Treiman, Allan H.
https://orcid.org/0000-0002-8073-2839
Trang, David
Journal Title
Journal ISSN
Volume Title
Publisher
American Astronomical Society
Abstract
Alteration of basalt on the surface of Venus should be dominated by nanophase hematite and sulfate coatings, but the timescale of oxidation and how that affects spectroscopic measurements has not been extensively studied. The oxidation rate and the effect on reflectance spectroscopy are needed to constrain the age of lava flows with high emissivity that were previously measured by the European Space Agency's Venus Express Mission. Here we investigate the effects of oxidation on the mineralogy and visible to near-infrared (VNIR) spectroscopy of augite, diopside, pyroxenite, and an alkali basalt. The experimental and spectroscopic data are used to constrain the surface basaltic weathering rates for Venus. Further, we use the spectroscopic measurements to constrain how quickly igneous signatures would degrade during oxidation of the surface.
Description
Keywords
Venus (Planet)--Surface, Venus (Planet)--Lava flows
Citation
K. S. Cutler, J. Filiberto, A. H. Treiman, and D. Trang. 2020. "Experimental Investigation of Oxidation of Pyroxene and Basalt: Implications for Spectroscopic Analyses of the Surface of Venus and the Ages of Lava Flows". 1 (1).