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Organic carbon concentrations in 3.5-billion-year-old lacustrine mudstones of Mars

by House, Christopher H. , Navarro-Gonzalez, Rafael , Flesch, Greg , Eigenbrode, Jennifer L. , Sutter, Brad , Steele, Andrew , Malespin, Charles A. , Ming, Douglas W. , Hofmann, Amy E. , McAdam, Amy C. , Franz, Heather B. , Webster, Christopher R. , Mahaffy, Paul R. , Archer, Paul Douglas , Stern, Jennifer C. , Graham, Heather V. , Freissinet, Caroline

in Carbon / Carbon dioxide / Combustion / Composition / Earth, Atmospheric, and Planetary Sciences / High temperature / Isotopes / Low temperature / Macromolecules / Mars craters / Mars surface / Mudstone / Organic carbon / Organic chemistry / Physical Sciences / Sciences of the Universe / Sediments

2022

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Organic carbon concentrations in 3.5-billion-year-old lacustrine mudstones of Mars

2022

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2022

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Journal Article

Organic carbon concentrations in 3.5-billion-year-old lacustrine mudstones of Mars

House, Christopher H.,

Navarro-Gonzalez, Rafael,

Flesch, Greg,

Eigenbrode, Jennifer L.,

Sutter, Brad,

Steele, Andrew,

Malespin, Charles A.,

Ming, Douglas W.,

Hofmann, Amy E.,

McAdam, Amy C.,

Franz, Heather B.,

Webster, Christopher R.,

Mahaffy, Paul R.,

Archer, Paul Douglas,

Stern, Jennifer C.,

Graham, Heather V.,

Freissinet, Caroline

2022

Overview

The Sample Analysis at Mars instrument stepped combustion experiment on a Yellowknife Bay mudstone at Gale crater, Mars revealed the presence of organic carbon of Martian and meteoritic origins. The combustion experiment was designed to access refractory organic carbon in Mars surface sediments by heating samples in the presence of oxygen to combust carbon to CO₂. Four steps were performed, two at low temperatures (less than ∼550 °C) and two at high temperatures (up to ∼870 °C). More than 950 μg C/g was released at low temperatures (with an isotopic composition of δ13C = +1.5 ± 3.8) representing a minimum of 431 μg C/g indigenous organic and inorganic Martian carbon components. Above 550 °C, 273 ± 30 μg C/g was evolved as CO₂ and CO (with estimated δ13C = −32.9 to −10.1 for organic carbon). The source of high temperature organic carbon cannot be definitively confirmed by isotopic composition, which is consistent with macromolecular organic carbon of igneous origin, meteoritic infall, or diagenetically altered biomass, or a combination of these. If from allochthonous deposition, organic carbon could have supported both prebiotic organic chemistry and heterotrophic metabolism at Gale crater, Mars, at ∼3.5 Ga.

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Publisher

National Academy of Sciences

Subject

/ Earth, Atmospheric, and Planetary Sciences

/ High temperature

/ Isotopes