Detection of methane in the martian atmosphere: evidence for life?

@article{Krasnopolsky2004DetectionOM,
  title={Detection of methane in the martian atmosphere: evidence for life?},
  author={Vladimir A. Krasnopolsky and Jean Pierre Maillard and Tobias C. Owen},
  journal={Icarus},
  year={2004},
  volume={172},
  pages={537-547}
}
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References

SHOWING 1-10 OF 58 REFERENCES

Detection of Molecular Hydrogen in the Atmosphere of Mars

Analysis of D fractionation among a few reservoirs of ice, water vapor, and molecular hydrogen on Mars implies that a global ocean more than 30 meters deep was lost since the end of hydrodynamic escape.

The 2.4– spectrum of Mars observed with the infrared space observatory

First measurement of helium on Mars: implications for the problem of radiogenic gases on the terrestrial planets.

The models for Earth and Mars presume loss of all argon accumulated in the atmospheres during the first billion years by large-scale meteorite and planetesimal impacts, which means that outgassing processes on Venus and Mars are weaker than on Earth by factors of 3 and 30, respectively.

A photochemical model of the martian atmosphere.

Good agreement between models and observations of CO, O2, O3, and the escape flux of atomic hydrogen can be achieved, using only gas-phase chemistry, by varying the recommended rate constants for the reactions CO + OH and OH + HO2 within their specified uncertainties.

New Composite Spectra of Mars, 0.4–5.7 μm

Abstract About 15 areas were observed in the equatorial regions of Mars by the infrared spectrometers IRS (Mariner 6 and 7) and ISM (Phobos-2). The comparison between the spectra shows a remarkable

High‐resolution spectroscopy of Mars at 3.7 and 8 μm: A sensitive search for H2O2, H2CO, HCl, and CH4, and detection of HDO

We report the first sensitive upper limits for H2O2, H2CO, and HCl, a sensitive upper limit for CH4, and a measured column abundance for HDO. A combination of the Kitt Peak National Observatory

Martian isotopic ratios and upper limits for possible minor constituents as derived from Mariner 9 infrared spectrometer data

Atmospheric biomarkers of subsurface life on Mars

If life exists beneath the Martian surface similar to terrestrial bacteria that rely upon chemical reactions involving H2 and/or CO as energy sources, then it may be possible to infer its existence

The annual cycle of water vapor on Mars as observed by the Thermal Emission Spectrometer

[1] Spectra taken by the Mars Global Surveyor Thermal Emission Spectrometer (TES) have been used to monitor the latitude, longitude, and seasonal dependence of water vapor for over one full Martian

Atmospheric energy for subsurface life on Mars?

  • B. WeissY. YungK. Nealson
  • Environmental Science, Geology
    Proceedings of the National Academy of Sciences of the United States of America
  • 2000
Because both atmospheric and Viking lander soil data provide little evidence for biological activity, the detection of short-lived trace gases will probably be a better indicator of any extant Martian life.
...