TY - JOUR
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.
N1 - Funding Information:
Meteorite samples were kindly provided by the University of New Mexico (Zagami), Caroline Smith, Natural History Museum, London (Nakhla), Robert Verish, Meteorite Recovery Laboratory, California (LA 002), Darryl Pitt, Macovich Collection, New York NWA 5790), Hideyasu Kojima, National Institute of Polar Research, Japan (Yamoto 000749) and the Meteorite Working Group, NASA Johnson Space Center (Miller 03346). D.M. is supported by the STFC (ST/H002472/1 & ST/K000918/1). S.McM. was supported by a STFC Aurora studentship.
Publisher Copyright:
© 2015 Macmillan Publishers Limited. All rights reserved.
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.
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U2 - 10.1038/ncomms8399
DO - 10.1038/ncomms8399
M3 - Article
C2 - 26079798
AN - SCOPUS:84935852850
SN - 2041-1723
VL - 6
JO - Nature Communications
JF - Nature Communications
M1 - 7399
ER -