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Intense alteration on early Mars revealed by high-aluminum rocks at Jezero crater

Clément Royer, C. C. Bedford, J. R. Johnson, B. Horgan, Adrian Broz, O. Forni, Samuel Connell, R. C. Wiens, L. Mandon, B. S. Kathir, Elisabeth M. Hausrath, Arya Udry, Juan Manuel Madariaga, E. Dehouck, R. B. Anderson, Pierre Beck, O. Beyssac, Elise Clavé, S. M. Clegg, E. A. Cloutis, Thierry Fouchet, T. S. J. Gabriel, Bradley Garczynski, Athanasios Klidaras, Henry Manelski, L. E. Mayhew, Jorge Núñez, A. Ollila, Susanne Schröder, Justin I. Simon, U. Wolf, K. M. Stack, A. Cousin, S. Maurice

2024Communications Earth & Environment15 citationsDOIOpen Access PDF

Abstract

The NASA Perseverance rover discovered light-toned float rocks scattered across the surface of Jezero crater that are particularly rich in alumina ( ~ 35 wt% Al2O3) and depleted in other major elements (except silica). These unique float rocks have heterogeneous mineralogy ranging from kaolinite/halloysite-bearing in hydrated samples, to spinel-bearing in dehydrated samples also containing a dehydrated Al-rich phase. Here we describe SuperCam and Mastcam-Z observations of the float rocks, including the first in situ identification of kaolinite or halloysite on another planet, and dehydrated phases including spinel and apparent partially dehydroxylated kaolinite. The presence of spinel in these samples is likely detrital in origin, surviving kaolinitization, pointing to an ultramafic origin. However, the association of low hydration with increased Al2O3 abundances suggests heating-induced dehydration which could have occurred during the lithification or impact excavation of these rocks. Given the orbital context of kaolinite-bearing megabreccia in the Jezero crater rim, we propose an origin for these rocks involving intense aqueous alteration of the parent material, followed by dehydration/lithification potentially through impact processes, and dispersion into Jezero crater through flood or impact-related processes. Aqueous alteration followed by dehydration and dispersion into Jezero crater is indicated by the identification of kaolinite or halloysite, spinel and a dehydrated Al-rich phase in spectroscopic observations of light-toned float rocks by the Perseverance rover

Topics & Concepts

Mars Exploration ProgramImpact craterGeologyAstrobiologyGeochemistryPetrologyPhysicsPlanetary Science and ExplorationAstro and Planetary ScienceSpace Exploration and Technology
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