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Open Access Publications from the University of California

Organic molecules in the Sheepbed Mudstone, Gale Crater, Mars.

  • Author(s): Freissinet, C
  • Glavin, DP
  • Mahaffy, PR
  • Miller, KE
  • Eigenbrode, JL
  • Summons, RE
  • Brunner, AE
  • Buch, A
  • Szopa, C
  • Archer, PD
  • Franz, HB
  • Atreya, SK
  • Brinckerhoff, WB
  • Cabane, M
  • Coll, P
  • Conrad, PG
  • Des Marais, DJ
  • Dworkin, JP
  • Fairén, AG
  • François, P
  • Grotzinger, JP
  • Kashyap, S
  • Ten Kate, IL
  • Leshin, LA
  • Malespin, CA
  • Martin, MG
  • Martin-Torres, FJ
  • McAdam, AC
  • Ming, DW
  • Navarro-González, R
  • Pavlov, AA
  • Prats, BD
  • Squyres, SW
  • Steele, A
  • Stern, JC
  • Sumner, DY
  • Sutter, B
  • Zorzano, M-P
  • et al.

The Sample Analysis at Mars (SAM) instrument on board the Mars Science Laboratory Curiosity rover is designed to conduct inorganic and organic chemical analyses of the atmosphere and the surface regolith and rocks to help evaluate the past and present habitability potential of Mars at Gale Crater. Central to this task is the development of an inventory of any organic molecules present to elucidate processes associated with their origin, diagenesis, concentration, and long-term preservation. This will guide the future search for biosignatures. Here we report the definitive identification of chlorobenzene (150-300 parts per billion by weight (ppbw)) and C2 to C4 dichloroalkanes (up to 70 ppbw) with the SAM gas chromatograph mass spectrometer (GCMS) and detection of chlorobenzene in the direct evolved gas analysis (EGA) mode, in multiple portions of the fines from the Cumberland drill hole in the Sheepbed mudstone at Yellowknife Bay. When combined with GCMS and EGA data from multiple scooped and drilled samples, blank runs, and supporting laboratory analog studies, the elevated levels of chlorobenzene and the dichloroalkanes cannot be solely explained by instrument background sources known to be present in SAM. We conclude that these chlorinated hydrocarbons are the reaction products of Martian chlorine and organic carbon derived from Martian sources (e.g., igneous, hydrothermal, atmospheric, or biological) or exogenous sources such as meteorites, comets, or interplanetary dust particles.First in situ evidence of nonterrestrial organics in Martian surface sediments Chlorinated hydrocarbons identified in the Sheepbed mudstone by SAM Organics preserved in sample exposed to ionizing radiation and oxidative condition.

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