日本地球惑星科学連合2022年大会

講演情報

[E] ポスター発表

セッション記号 S (固体地球科学) » S-GC 固体地球化学

[S-GC35] Volatiles in the Earth - from Surface to Deep Mantle

2022年5月29日(日) 16:00 〜 18:00 オンラインポスターZoom会場 (18) (Ch.18)

コンビーナ:角野 浩史(東京大学大学院総合文化研究科広域科学専攻広域システム科学系)、コンビーナ:Yama Tomonaga(University of Bern)、佐野 有司(高知大学海洋コア総合研究センター)、コンビーナ:羽生 毅(海洋研究開発機構 海域地震火山部門)、座長:Tomonaga Yama(University of Bern)、羽生 毅(海洋研究開発機構 海域地震火山部門)、佐野 有司(高知大学海洋コア総合研究センター)、角野 浩史(東京大学大学院総合文化研究科広域科学専攻広域システム科学系)

16:00 〜 18:00

[SGC35-P02] Organic compounds as fluid sources in the DAC experiments involving volatiles

*Nadezda Chertkova1Tadashi Kondo1Shigeru Yamashita2 (1.Osaka University、2.Institute for Planetary Materials, Okayama University)

キーワード:Oxalic acid dihydrate, C-O-H fluid, Optical spectroscopy

Organic compounds are often used in the experiments aimed at the investigation of natural geological systems with C-O-H fluids. Oxalic acid dihydrate is considered in such experiments as a source of H2O and CO2 components upon thermal decomposition at relatively oxidizing conditions close to fayalite-magnetite-quartz buffer (Holloway and Reese, 1974). At the same time, the change of redox conditions to Mo-MoO2 buffer leads to the appearance of methane and hydrogen species in the 160 mM aqueous solution of oxalic acid upon heating to 800 degree C (McCubbin et al., 2014). In this work, we apply spectroscopic techniques in combination with externally heated diamond anvil cell to investigate decomposition process of crystalline oxalic acid dihydrate under controlled oxygen fugacity.
Experiments were carried out in the Mao-type symmetric and Bassett-type hydrothermal diamond anvil cells in the temperature range to 800 degree C. Infrared and Raman spectroscopy were applied for the analysis of C-O-H species, which formed in the sample chamber during heating. Separation of hydrous fluid was observed at 98-99 degree C, followed by the appearance of O=C=O vibrations in the infrared and Raman spectra above 150 degree C. In the experiment with Mo buffering material, a homogeneous fluid was observed in the temperature interval from 400 degree C to 800 degree C with the vibrational signals from C–H, CO2 and H2O molecules. Upon quenching to room temperature, segregation of H2O -rich phase from the fluid took place. Obtained data contributes to our understanding of fluids state and speciation at different redox conditions.