Evidence for methane in Martian meteorites

Nigel J. F. Blamey; John Parnell; Sean McMahon; Darren F. Mark; Tim Tomkinson; Martin Lee; Jared Shivak; Matthew R. M. Izawa; Neil R. Banerjee; Roberta L. Flemming

doi:10.1038/ncomms8399

Evidence for methane in Martian meteorites

Nigel J. F. Blamey, John Parnell, Sean McMahon, Darren F. Mark, Tim Tomkinson, Martin Lee, Jared Shivak, Matthew R. M. Izawa, Neil R. Banerjee, Roberta L. Flemming

School of Earth Sciences

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Abstract

The putative occurrence of methane in the Martian atmosphere has had a major influence on the exploration of Mars, especially by the implication of active biology. The occurrence has not been borne out by measurements of atmosphere by the MSL rover Curiosity but, as on Earth, methane on Mars is most likely in the subsurface of the crust. Serpentinization of olivine-bearing rocks, to yield hydrogen that may further react with carbon-bearing species, has been widely invoked as a source of methane on Mars, but this possibility has not hitherto been tested. Here we show that some Martian meteorites, representing basic igneous rocks, liberate a methane-rich volatile component on crushing. The occurrence of methane in Martian rock samples adds strong weight to models whereby any life on Mars is/was likely to be resident in a subsurface habitat, where methane could be a source of energy and carbon for microbial activity.

Original language	English
Article number	7399
Number of pages	7
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms8399
Publication status	Published - 16 Jun 2015

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title = "Evidence for methane in Martian meteorites",

abstract = "The putative occurrence of methane in the Martian atmosphere has had a major influence on the exploration of Mars, especially by the implication of active biology. The occurrence has not been borne out by measurements of atmosphere by the MSL rover Curiosity but, as on Earth, methane on Mars is most likely in the subsurface of the crust. Serpentinization of olivine-bearing rocks, to yield hydrogen that may further react with carbon-bearing species, has been widely invoked as a source of methane on Mars, but this possibility has not hitherto been tested. Here we show that some Martian meteorites, representing basic igneous rocks, liberate a methane-rich volatile component on crushing. The occurrence of methane in Martian rock samples adds strong weight to models whereby any life on Mars is/was likely to be resident in a subsurface habitat, where methane could be a source of energy and carbon for microbial activity.",

author = "Blamey, {Nigel J. F.} and John Parnell and Sean McMahon and Mark, {Darren F.} and Tim Tomkinson and Martin Lee and Jared Shivak and Izawa, {Matthew R. M.} and Banerjee, {Neil R.} and Flemming, {Roberta L.}",

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doi = "10.1038/ncomms8399",

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T1 - Evidence for methane in Martian meteorites

AU - Blamey, Nigel J. F.

AU - Parnell, John

AU - McMahon, Sean

AU - Mark, Darren F.

AU - Tomkinson, Tim

AU - Lee, Martin

AU - Shivak, Jared

AU - Izawa, Matthew R. M.

AU - Banerjee, Neil R.

AU - Flemming, Roberta L.

PY - 2015/6/16

Y1 - 2015/6/16

N2 - The putative occurrence of methane in the Martian atmosphere has had a major influence on the exploration of Mars, especially by the implication of active biology. The occurrence has not been borne out by measurements of atmosphere by the MSL rover Curiosity but, as on Earth, methane on Mars is most likely in the subsurface of the crust. Serpentinization of olivine-bearing rocks, to yield hydrogen that may further react with carbon-bearing species, has been widely invoked as a source of methane on Mars, but this possibility has not hitherto been tested. Here we show that some Martian meteorites, representing basic igneous rocks, liberate a methane-rich volatile component on crushing. The occurrence of methane in Martian rock samples adds strong weight to models whereby any life on Mars is/was likely to be resident in a subsurface habitat, where methane could be a source of energy and carbon for microbial activity.

AB - The putative occurrence of methane in the Martian atmosphere has had a major influence on the exploration of Mars, especially by the implication of active biology. The occurrence has not been borne out by measurements of atmosphere by the MSL rover Curiosity but, as on Earth, methane on Mars is most likely in the subsurface of the crust. Serpentinization of olivine-bearing rocks, to yield hydrogen that may further react with carbon-bearing species, has been widely invoked as a source of methane on Mars, but this possibility has not hitherto been tested. Here we show that some Martian meteorites, representing basic igneous rocks, liberate a methane-rich volatile component on crushing. The occurrence of methane in Martian rock samples adds strong weight to models whereby any life on Mars is/was likely to be resident in a subsurface habitat, where methane could be a source of energy and carbon for microbial activity.

U2 - 10.1038/ncomms8399

DO - 10.1038/ncomms8399

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VL - 6

JO - Nature Communications

JF - Nature Communications

SN - 2041-1723

M1 - 7399

ER -

Evidence for methane in Martian meteorites

Abstract

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