Vance I. Oyama scite author profile

Immediate gas changes occurred when untreated Martian surface samples were humidified and/or wet by an aqueous nutrient medium in the Viking lander gas exchange experiment. The evolutions of N2, CO2, and Ar are mainly associated with soil surface desorption caused by water vapor, while O2 evolution is primarily associated with decomposition of Superoxides inferred to be present on Mars. On recharges with fresh nutrient and test gas, only CO2 was given off, and its rate of evolution decreased with each recharge. This CO2 evolution is thought to come from the oxidation of organics present in the nutrient by γ Fe2O3 in the surface samples. Atmospheric analyses were also performed at both sites. The mean atmospheric composition from four analyses is N2, 2.3%; O2, ≤0.15%; Ar, 1.5%; and CO2, 96.2%.

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Pioneer Venus gas chromatography of the lower atmosphere of Venus

Oyama¹,

Carle²,

Woeller³

et al. 1980

J. Geophys. Res.

199

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A gas Chromatograph mounted in the Pioneer Venus sounder probe measured the chemical composition of the atmosphere of Venus at three altitudes. Ne, N2, O2, Ar, CO, H2O, SO2, and CO2 were measured, and upper limits set for H2, COS, H2S, CH4, Kr, N2O, C2H4, C2H6, and C3H8. Simulation studies have provided indirect evidence for sulfuric acid‐like droplets and support the possibility of water vapor at altitudes of 42 and 24 km. The paper discusses the implications of these results for the origin, evolution, and present state of Venus' atmosphere.

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The Viking Biological Investigation: Preliminary Results

Klein

Horowitz

Levin³

et al. 1976

Science

150

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Three different types of biological experiments on samples of martian surface material ("soil") were conducted inside the Viking lander. In the carbon assimilation or pyrolytic release experiment, (14)CO(2) and (14)CO were exposed to soil in the presence of light. A small amount of gas was found to be converted into organic material. Heat treatment of a duplicate sample prevented such conversion. In the gas exchange experiment, soil was first humidified (exposed to water vapor) for 6 sols and then wet with a complex aqueous solution of metabolites. The gas above the soil was monitored by gas chromatography. A substantial amount of O(2) was detected in the first chromatogram taken 2.8 hours after humidification. Subsequent analyses revealed that significant increases in CO(2) and only small changes in N(2) had also occurred. In the labeled release experiment, soil was moistened with a solution containing several (14)C-labeled organic compounds. A substantial evolution of radioactive gas was registered but did not occur with a duplicate heat-treated sample. Alternative chemical and biological interpretations are possible for these preliminary data. The experiments are still in process, and these results so far do not allow a decision regarding the existence of life on the plonet Mars.

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International Cooperation in Radiobiology through an Agency Sponsored by the United Nations

Eagle

Oyama

Levy

et al. 1956

Science

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Vance I. Oyama

Measurement of Cell Growth in Tissue Culture with a Phenol Reagent (Folin-Ciocalteau)

The Viking Gas Exchange Experiment results from Chryse and Utopia surface samples

Pioneer Venus gas chromatography of the lower atmosphere of Venus

The Viking Biological Investigation: Preliminary Results

International Cooperation in Radiobiology through an Agency Sponsored by the United Nations

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