Spectral reflectance characteristics of the Hamar Laghdad hydrothermal sequence, Morocco: Implications for the methane origin on Mars

•Lab reflectance spectroscopy of rocks from an ancient (Devonian) hydrothermal system.•Carbonates affected by hydrothermal and methane enriched fluids from volcanic rocks.•Integrated spectroscopic, XRF, XRD and Mössbauer analyses.•Description and assignment of vibrational and electronic absorption b...

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Bibliographic Details
Published in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2015-01, Vol.245, p.184-197
Main Authors: Sgavetti, Maria, Serventi, Giovanna, Tampella, Giuditta, Pedrazzi, Giuseppe, Carli, Cristian, Pompilio, Loredana, Franchi, Fulvio, Tellini, Claudio
Format: Article
Language:English
Subjects:
Absorption spectra
Aluminum
Carbonates
Geological processes
Limestone
Mars
Mathematical models
Methane
Rocks
Spectra
Spectroscopy
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Summary:•Lab reflectance spectroscopy of rocks from an ancient (Devonian) hydrothermal system.•Carbonates affected by hydrothermal and methane enriched fluids from volcanic rocks.•Integrated spectroscopic, XRF, XRD and Mössbauer analyses.•Description and assignment of vibrational and electronic absorption bands.•An analogue to contribute to locate and interpret methane-related processes on Mars. We analyze and discuss reflectance spectra of carbonate rocks from the Hamar Laghdad area (Morocco), where evidences of interactions with hydrothermal, and, in some cases, methane enriched fluids derived from underlying volcanoclastic rocks, are reported in the literature. Deconvolution of the rock spectra into a sum of Gaussians, using MGM, resolved a number of both vibrational and electronic absorption features, mainly assigned to CO32−, Al–OH, and Fe2+, Fe3+, Cu, CF interaction processes, respectively. The associations of these absorption bands are exhaustive descriptions of the rock spectral properties. A spectral model of the Hamar Laghdad carbonate sequence was therefore delineated, based on the integration of these absorption band associations with XRF and Mössbauer analyses of the rock samples. The model involves: pure limestones and dolostones, limestone with iron carbonates, mixed carbonate and Al-silicate impure limestones, limestones with iron sulfides. The model points out the complexity of the spectral characteristics of rocks that underwent hydrothermal and partly methanogenic processes, but also suggests an alternative geologic scenario plausible for possible methanogenic activity in the Mars geologic past.
ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2014.09.027