日本地球惑星科学連合2018年大会

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[JJ] ポスター発表

セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS09] 宇宙における物質の形成と進化

2018年5月22日(火) 10:45 〜 12:15 ポスター会場 (幕張メッセ国際展示場 7ホール)

コンビーナ:橘 省吾(東京大学大学院理学系研究科宇宙惑星科学機構)、三浦 均(名古屋市立大学大学院システム自然科学研究科)、野村 英子(東京工業大学理学院地球惑星科学系、共同)、大坪 貴文(宇宙航空研究開発機構 宇宙科学研究所)

[PPS09-P06] 隕石中の有機金属化合物の存在

*奈良岡 浩1,2Orthous-Daunay Franco̧is-Reǵis3 (1.九州大学大学院理学研究院地球惑星科学部門、2.九州大学惑星微量有機化合物研究センター、3.Institut de Planet́ologie et d’Astrophysique de Grenoble, Univ. Grenoble Alpes)

キーワード:化学進化、隕石有機物、有機金属化合物

Extraterrestrial organic matter is observed from interstellar environments to asteroidal materials such as meteorites. The prebiotic synthesis of organic compounds is necessary for the origin of life in the universe. It is generally believed that organic matter was co-evolved with minerals and inorganic elements. However, few organo-metal compounds were not detected from extraterrestrial materials including meteorites. Recently magnesium-metal organics (dihydroxymagnesium carboxylates) have been reported in the solvent extract of various types of meteorites by electrospray ionization coupled with high-resolution mass spectroscopy (ESI/HRMS)(Ruf et al., 2017). The origin and formation mechanism of the CHOMg compounds, however, have not been clarified yet. Because meteoritic organic matter is very complex mixtures and metal has often several isotopes, HRMS is necessary to study the extraterrestrial organo-metal compounds. In the previous study, we found many alkylated CHN compounds in the Murchison meteorite (Naraoka et al., 2017). In this study, we examined the occurrence of organo-metal complex in the methanol extract of Murchison using high-performance liquid chromatography (HPLC)/ESI/HRMS.

Abundant ion peaks of CnHmN and CnHmN2 compositions and minor CHNO peaks were observed in the methanol extract of Murchison. These CHN and CHNO compounds were present as extensively alkylated homologues (i.e. every m/z 14.0156). On the other hand, a few alkylated homologues were never assigned to organic compounds consisting only of CH, N, and/or O. These chromatographic peaks had a major ion mass peak (~70% intensity) accompanying a secondary ion peak (~30%) by difference of m/z 1.9981. Such a mass difference indicates copper-bearing species for chemical formula considering the solar abundance of elements (Anders & Grevesse, 1989). The alkylated homologues were assigned to CnHmN463Cu and CnHmN465Cu in addition to CnHmN363Cu and CnHmN365Cu, in which the measured value matched with the calculated value within 1 ppm mass precision. The Cu-CHN compounds were not found in N1 and N2-bearing components but detected only in N3 and N4-bearing components, being consistent with the stability of tetraammine complex with a copper. Because reduced copper was added to the methanol extract in order to remove molecular sulfur in this study, the detected CuCHN compounds may be produced during sample preparation rather than their presence in the meteorite. Yet the meteoritic organic compounds have a potential to form organo-metal complex during the fluid activity on the meteorite parent body. The organo-metal compounds could have important roles for concentration and redistribution of metals as well as for chemical evolution in asteroids.