日本地球惑星科学連合2018年大会

講演情報

[JJ] ポスター発表

セッション記号 S (固体地球科学) » S-MP 岩石学・鉱物学

[S-MP38] 鉱物の物理化学

2018年5月24日(木) 13:45 〜 15:15 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:大藤 弘明(愛媛大学地球深部ダイナミクス研究センター)、鎌田 誠司(東北大学学際科学フロンティア研究所)

[SMP38-P03] 高圧下におけるMgSiO3-SiO2系の相平衡関係の解明

*森口 拓弥1米田 明1伊藤 英司1 (1.岡山大学惑星物質研究所)

キーワード:エンスタタイトコンドライト、融解関係、マグマオーシャン、マントル分化、高圧実験

Melting relations in the MgO–SiO2 system have been extensively studied since Bowen and Anderson (1914) under atmospheric pressure. Chemical differentiations in the deep magma ocean have been simulated based on the high pressure experimental data (e.g. Kato and Kumazawa, 1985; Ito and Katsura, 1992). Almost all of these works have been carried out on the compositions ranging from MgO to MgSiO3, assuming that the bulk mantle composition is peridotitic or close to that derived from CI chondrite. Recently, however, enstatite chondrite (E-chondrite) has been payed attention as the bulk earth source material (Javoy et al., 2010) because the isotope systematics over O, N, Mo, Re, Os, and Cr for the Earth and Moon are nearly identical to those of E-chondrite. In E-chondrite, the silicate composition is characterized by MgO/SiO2 = ~0.5 (in weight ratio) which is substantially lower than that of the peridotitic mantle (~0.85).

In this context, understanding of melting relations over compositions between SiO2 and MgSiO3 is indispensable to clarify the mantle fractionation. It also relates to investigations of chemical compositions of the crust at early stage of the Earth. However, there have been very limited works on the effect of pressure in the MgSiO3–SiO2 system. In addition, available information regarding phase relations in the system is so far limited to 5 GPa (Dalton and Presnall, 1997). In this study, therefore, we would determine the melting relations at pressures 5 to 20 GPa, focusing on the compositions of MgO-xSiO2 (x = 0.8 to 1.2), covering silicate compositions of E-chondrite.


References
Bowen and Anderson (1914) The binary system MgO-SiO2. Am. J. Sci. 4th ser. 37, 487-500.
Dalton and Presnall (1997) No liquid immiscibility in the system MgSiO3-SiO2 at 5.0 GPa. Geochim. Cosmochim. Acta 61, 2367-2373.
Ito and Katsura (1992) Melting of ferromagnesian silicates under the lower mantle conditions. Am. Geophys. Union Monogr. 67, 315-322.
Javoy et al. (2010) The chemical composition of the Earth: Enstatite chondrite models. Earth Planet. Sci. Lett. 293, 259-268.
Kato and Kumazawa (1985) Garnet phase of MgSiO3 filling the pyroxene-ilmenite gap at very high temperature. Nature 316, 803-805.