日本地球惑星科学連合2015年大会

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セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS24] 宇宙における物質の形成と進化

2015年5月27日(水) 16:15 〜 17:00 A02 (アパホテル&リゾート 東京ベイ幕張)

コンビーナ:*橘 省吾(北海道大学大学院理学研究院自然史科学専攻地球惑星システム科学分野)、三浦 均(名古屋市立大学大学院システム自然科学研究科)、大坪 貴文(東京大学大学院総合文化研究科)、本田 充彦(神奈川大学理学部数理物理学科)、座長:三浦 均(名古屋市立大学大学院システム自然科学研究科)

16:30 〜 16:45

[PPS24-16] 隕石有機化合物生成におけるオリビン触媒の効果

*奈良岡 浩1山下 陽平1 (1.九州大学・理・地球惑星科学)

キーワード:炭素質隕石, 有機化合物, カンラン石, 触媒作用, 水質変成, 分子進化

INTRODUCTION
Many classes of organic compounds have been identified in carbonaceous meteorites, which imply a complex history of chemical evolution in extraterrestrial environments. In the previous study (Yamashita and Naraoka, 2014), saturated- and unsaturated-alkylpyridines were reported with extensive homologous series ranging from C1 to C20 in the Murchison meteorite, which could be produced through aldol condensation of aldehydes in the presence of ammonia. The pyridine-derived compounds such as pyridine carboxylic acids (including nicotic acid) and alkylpiperidines were also found in Murchison, probably resulting from the alkylpyridines by oxidation and reduction, respectively, on the meteorite parent body.

EXPERIMENTAL
The simulation experiments were performed in this study to pursue reaction mechanisms for the occurrence of alkylpyridines and their derivative compounds in meteorites. Aqueous solution containing aldehydes (HCHO and/or CH3CHO) and ammonia were heated in the presence or absence of olivine powder as a catalyst in a glass ampoule after N2-purging at 50-100 oC for 5-26 days. The reaction products were analyzed by high performance liquid chromatography/mass spectrometry with electrospray ionization.

RESULTS AND DISCUSSION
Alkylpyridines were commonly observed in the reaction products. However, the alkylpyridine distribution was different depending in the presence or absence of olivine. Longer alkylated (up to C20) pyridines were produced with olivine, while only shorter alkylated (up to C7) ones were produced without olivine. The olivine surface can provide reaction sites to support elongation of alkylpyridines during aldol condensation. In addition, pyridine carboxylic acids were present with olivine, but absent without olivine. The chemical oxidation of alkylpyridines could be promoted by olivine. Thus, the effects of olivine are remarkable as catalysis to control the compound distribution observed in carbonaceous chondrites.

REFERENCE
Yamashita, Y. and Naraoka, H. (2014) Two homologous series of alkylpyridines in the Murchison meteorite. Geochem. J. 48, 519-525.