Litcius/Paper detail

Detection of ferrihydrite in Martian red dust records ancient cold and wet conditions on Mars

Adomas Valantinas, John F. Mustard, V. F. Chevrier, N. Mangold, J. L. Bishop, A. Pommerol, Pierre Beck, Olivier Poch, D. M. Applin, E. A. Cloutis, T. Hiroi, Kevin Robertson, Sebastian Pérez-López, Rafael Ottersberg, Gerónimo Villanueva, Aurélien Stcherbinine, Manish Patel, N. Thomas

2025Nature Communications20 citationsDOIOpen Access PDF

Abstract

Abstract Iron oxide-hydroxide minerals in Martian dust provide crucial insights into Mars’ past climate and habitability. Previous studies attributed Mars’ red color to anhydrous hematite formed through recent weathering. Here, we show that poorly crystalline ferrihydrite (Fe 5 O 8 H · nH 2 O) is the dominant iron oxide-bearing phase in Martian dust, based on combined analyses of orbital, in-situ, and laboratory visible near-infrared spectra. Spectroscopic analyses indicate that a hyperfine mixture of ferrihydrite, basalt and sulfate best matches Martian dust observations. Through laboratory experiments and kinetic calculations, we demonstrate that ferrihydrite remains stable under present-day Martian conditions, preserving its poorly crystalline structure. The persistence of ferrihydrite suggests it formed during a cold, wet period on early Mars under oxidative conditions, followed by a transition to the current hyper-arid environment. This finding challenges previous models of continuous dry oxidation and indicates that ancient Mars experienced aqueous alteration before transitioning to its current desert state.

Topics & Concepts

FerrihydriteMartianMars Exploration ProgramHematiteMartian surfaceAstrobiologyAtmosphere of MarsIron oxideGeochemistryMineralogyGeologyMaterials scienceChemistryPhysicsAdsorptionOrganic chemistryMetallurgyPlanetary Science and ExplorationAstro and Planetary SciencePaleontology and Stratigraphy of Fossils