Orbital identification of carbonate-bearing rocks on Mars

B.L. Ehlmann; J.F. Mustard; S.L. Murchie; F. Poulet; J.L. Bishop; A.J. Brown; W. M. Calvin; R. N. Clark; D.J. Des Marais; R.E. Milliken; L.H. Roach; T. L. Roush; G.A. Swayze; J.J. Wray

doi:10.1126/science.1164759

Orbital identification of carbonate-bearing rocks on Mars

Science

By: B.L. Ehlmann, J.F. Mustard, S.L. Murchie, F. Poulet, J.L. Bishop, A.J. Brown, W. M. Calvin, R. N. Clark, D.J. Des Marais, R.E. Milliken, L.H. Roach, T. L. Roush, G.A. Swayze, and J.J. Wray

https://doi.org/10.1126/science.1164759

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Abstract

Geochemical models for Mars predict carbonate formation during aqueous alteration. Carbonate-bearing rocks had not previously been detected on Mars' surface, but Mars Reconnaissance Orbiter mapping reveals a regional rock layer with near-infrared spectral characteristics that are consistent with the presence of magnesium carbonate in the Nili Fossae region. The carbonate is closely associated with both phyllosilicate-bearing and olivine-rich rock units and probably formed during the Noachian or early Hesperian era from the alteration of olivine by either hydrothermal fluids or near-surface water. The presence of carbonate as well as accompanying clays suggests that waters were neutral to alkaline at the time of its formation and that acidic weathering, proposed to be characteristic of Hesperian Mars, did not destroy these carbonates and thus did not dominate all aqueous environments.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Orbital identification of carbonate-bearing rocks on Mars
Series title	Science
DOI	10.1126/science.1164759
Volume	322
Issue	5909
Year Published	2008
Language	English
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	Science
First page	1828
Last page	1832
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