[MIS07-P06] Possible Formation of Amino Acids and Carboxylic Acids in Slightly-Reducing Primitive Earth Atmospheres
Keywords:Primitive Earth Atmospheres, Amino Acids, Solar Energetic Particles
We conducted three sets of laboratory experiments using energetic particles, spark discharge and UV light as dominant energy sources. In these sets of experiments we used 400 mL of gas mixture of N2, CO2and CH4introduced to a Pyrex tube together with 5 mL of pure water under 350 Torr of N2 and 350 Torr of mixtures with varied mixing ratios of CH4and CO2. In order to simulate possible roles of cosmic rays, the gas mixture was irradiated with 2.5 MeV proton beam produced in the Tandem accelerator at Tokyo Tech, Japan. We also exposed the same composition of gas mixtures to spark discharges by using a Tesla coil to simulate lightning. The gas mixtures were also irradiated with UV light (l> 190 nm) from a xenon lamp. Each product was acid-hydrolyzed and was subjected to amino acid analysis by HPLC and GC/MS, both after derivatization. Carboxylic acids were determined by GC/MS after derivatization. Starting and resulting gas mixtures were analyzed with a quadrupole mass spectrometer.
Amino acids were detected in the hydrolyzed products when gas mixtures of N2, CO2, CH4and H2O were irradiated with 2.5 MeV protons at the initial the molar ratio of methane (rCH4) in the starting gas mixture as low as 0.5 %. On the other hand, amino acids were detected only when rCH4was greater than 15 % in the case of spark discharges. The experiments with UV irradiation source did not yield amino acids or their precursors even when rCH4was 50 %. Very little amino acids were detected in all the products before hydrolysis. It was shown that not free amino acids but amino acid precursors were formed in selected experiments.
Carboxylic acids including formic acid, oxalic acid and glyoxylic acid were detected from unhydrolized products derived from N2-CO2gas mixtures exposed to spark discharges and proton irradiation. We show that some free carboxylic acids could be formed in non-reducing atmospheres as well as slightly reducing atmospheres either by proton irradiation or by spark discharges. It was suggested that the mechanism of formation of amino acid precursors from N2-CO2-CH4-H2O mixtures was quite different from that of carboxylic acids.
Lightning and solar UV have been considered important energy sources for prebiotic synthesis in primitive Earth atmosphere. We here showed that lightning and solar UV could not singularly synthesize important N-containing organics such as amino acids from slightly reducing primitive Earth atmosphere. On the other hand, cosmic ray could have been an important energy source to synthesize amino acid precursors even if primitive Earth atmosphere was only slightly reducing. It would be of interest to examine whether there are synergetic effects among cosmic rays, UV and thundering.
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