2008). A suite of amino acids and amines including glycine, L-alanine, methylamine (MA), and ethylamine (EA) were identified in the Stardust bulk aerogel. With the see more exception of MA and EA, all other primary amines detected in comet-exposed aerogels were also present in the aerogel witness tile that was not exposed to Wild 2, suggesting that most amines are terrestrial in origin. However, the enhanced abundances of MA, EA, and possibly glycine in comet-exposed aerogel compared to controls, coupled with MA to EA ratios (1 to 2) that are distinct from preflight aerogels (7 to 10), suggest that these amines were captured from Wild Selleckchem IBET762 2. It is possible
that MA and EA were formed on energetically processed icy grains containing methane, ethane, and ammonia. The presence of cometary amines in Stardust material supports the hypothesis that comets were an important source of prebiotic organics on the early Earth. To better understand their origin, a systematic compound specific carbon isotopic analysis (C-CSIA) via gas chromatography quadrupole mass spectrometry in with parallel with combustion isotope ratio mass spectrometry (GC–QMS/IRMS) is being conducted. We will discuss our latest C-CSIA measurements and what they indicate about
the origin of amino acids extracted from Stardust samples. Chyba, C. F. and Sagan, C. (1992) Endogenous production, exogenous delivery, and impact-shock synthesis of organic molecules: an inventory for the origins of life. Nature, 355: 125–132. Crovisier, J., Bockele-Morvan, D., Colom, P., Biver, N., Despois, D., Lis, D. C., and the Team for Target-of-Opportunity Radio observations of PU-H71 Comets. (2004) The composition of ices in comet C/1995 O1 (Hale-Bopp) from radio spectroscopy. Further results and upper limits on undetected species. Astron.
Astrophys. 418: 1141–1157. Glavin, D. P., Dworkin, J. P., and Sandford, S. A. (2008) Detection of cometary amines in samples returned by Stardust. find more Meteorit. Planet. Sci. 43: 399–414. Sandford, S. A. et al. (2006) Organics captured from comet 81P/Wild 2 by the Stardust spacecraft. Science, 314: 1720–1724. E-mail: daniel.p.glavin@nasa.gov Gamma-Ray Bursts and Giant Flares Effects on the Early Evolution of the Biosphere J. E. Horvath, D. Galante IAG-USP, Sao Paulo U We present in this talk a unified, quantitative synthesis of analytical and numerical calculations of the effects caused on an Earth-like planet by a Gamma-Ray Burst (GRB) and nearby giant flares from Soft-Gamma Repeaters, considering atmospheric and biological implications (Thomas & Mellot, 2006). The main effects of a GRB/giant flare are classified in four distinct types and analyzed separately, namely the direct radiation transmission, UV flash, ozone layer depletion and cosmic rays. The “effectiveness” of each of these effects is compared and critical distances for significant biological damage are given for each one (Galante & Horvath, 2007).