Multiscale spectral discrimination of poorly-crystalline and intermixed alteration phases using aerial and ground-based ExoMars rover emulator data

This work was supported by the UK Space Agency (ST/P001297/1 and ST/P001394/1). AUPE3 data are available from http://exomars.wales. A key goal of the ExoMars rover Rosalind Franklin is to analyze accessible hydrated mineral deposits using panoramic multiscale and multispectral imagery. We conducted...

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Bibliographic Details
Published in:Icarus
Main Authors: Allender, E.J., Cousins, C.R., Gunn, M.D., Mare, E.R.
Other Authors: Science & Technology Facilities Council, University of St Andrews. School of Earth & Environmental Sciences, University of St Andrews. St Andrews Centre for Exoplanet Science
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
ExoMars
PanCam
Spectral
Multiscale
Mineralogy
DAS
Námafjall
Iceland
Online Access:http://hdl.handle.net/10023/24528
https://doi.org/10.1016/j.icarus.2021.114541
Description
Summary:This work was supported by the UK Space Agency (ST/P001297/1 and ST/P001394/1). AUPE3 data are available from http://exomars.wales. A key goal of the ExoMars rover Rosalind Franklin is to analyze accessible hydrated mineral deposits using panoramic multiscale and multispectral imagery. We conducted a multiscale spectroscopic study on hydrothermally-altered basalt-hosted soils in the geothermal area of Námafjall in northern Iceland. Basaltic lavas here that have experienced first-order geochemical alteration produce a variety of cm-to-meter scale poorly-crystalline alteration patterns. The resulting unconsolidated sediments provide a natural analogue material to investigate intimately mixed soils comprising multiple poorly-crystalline hydrated phases. We use emulator instruments which replicate the capabilities of the ExoMars 2022 Panoramic Camera (PanCam), the Infrared Spectrometer for ExoMars (ISEM), and the CLose-UP Imager (CLUPI), alongside Raman, aerial, and X-Ray Fluorescence spectroscopic data to investigate how the detection of these mixed basalt-derived alteration phases varies as a function of spatial and spectral scale. We find soils at our study site to be comprised of unconsolidated sediments including Al-OH minerals, hydrated silica, and a variety of ferric oxides, all of which Rosalind Franklin will likely encounter along its traverse at Oxia Planum. We report on (i) the synergy and limitations between Mars rover instrument emulators as an integral part of mission preparation, (ii) how the mixed nature of these hydrothermally-altered soils affects resulting mineralogical interpretations at multiple scales, and (iii) geochemical inferences that can be made using ExoMars 2022 imaging emulators. Publisher PDF Peer reviewed

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