JpGU-AGU Joint Meeting 2020

講演情報

[J] 口頭発表

セッション記号 S (固体地球科学) » S-CG 固体地球科学複合領域・一般

[S-CG67] 地殻流体と地殻変動

コンビーナ:北川 有一(産業技術総合研究所地質調査総合センター地震地下水研究グループ)、小泉 尚嗣(滋賀県立大学環境科学部)、梅田 浩司(弘前大学大学院理工学研究科)、角森 史昭(東京大学大学院理学系研究科地殻化学実験施設)

[SCG67-04] The hydrothermal mineralization sequences during the faulting of serpentinite and crustal collision in Fengtien area, eastern Taiwan

★Invited Papers

*Huei-Fen Chen1Kuan-Ho Wu1Agustinus Kabelen1Yu-Ho Li1En-Chao Yeh2Yoshiyuki Iizuka3Pei-Lin Wang4 (1.Institute of Earth Sciences, National Taiwan Ocean University、2.Department of Earth Sciences, National Taiwan Normal University、3.Institute of Earth Sciences, Academia Sinica、4.Institute of Oceanography, National Taiwan University)

キーワード:serpentinite, nephrite, hydrothermal, fluid temperature, Taiwan

Serpentinite from the oceanic plate collided with pelitilic schists to form a serious hydrothermal mineralization along the fault zones in Yuli belt of eastern Taiwan. In the north part of Yuli belt, the uplift fault zone induced Ca-rich fluids undergoing metasomatism to form the nephrite and diopside vein. In the south part of Yuli belt, blue and green schists contacted with serpentinite undergoing Mg- and Na- metasomatism. The hydrothermal mineralization of green color nephrite and diopside vein in Fengtien area are related to the oceanic serpentinite in exhumation zone. We found the fluid composition rich in Ca and Si during mineralization in the order of nephrite, diopside, grossular, calcite and quartz in vein system, besides the crystallization temperature decrease from 420℃ to below 100℃ based on homogenization temperature of diopside and clumped isotope of calcite. Isotope of d13C and d18O also reveal the source of fluid mixing the metamorphic and meteoric water in calcite. The variations of opaque oxide minerals such as spinel, chromite and magnetite also indicate the nucleation and dissolution process in the order of peridotite, serpentintie, nephrite and diopside. It interprets the Fe, Cr and Al involved the mineral reaction in sequences. We will combine the tectonic measurements to understand the uplift process in Fengtien area in future.