JpGU-AGU Joint Meeting 2017

講演情報

[JJ] 口頭発表

セッション記号 S (固体地球科学) » S-RD 資源・鉱床・資源探査

[S-RD39] [JJ] 資源地質学

2017年5月25日(木) 09:00 〜 10:30 A07 (東京ベイ幕張ホール)

コンビーナ:大竹 翼(北海道大学大学院工学研究院 環境循環システム部門)、野崎 達生(海洋研究開発機構海底資源研究開発センター)、実松 健造(国立研究開発法人 産業技術総合研究所 地圏資源環境研究部門 鉱物資源研究グループ)、高橋 亮平(秋田大学大学院国際資源学研究科)、座長:大竹 翼(北海道大学大学院工学研究院 環境循環システム部門)

10:00 〜 10:15

[SRD39-04] Relationship between high-grade gold mineralization and fluid pressure in the Yamada sub-deposit, Hishikari Epithermal Gold Deposit, Japan

*Guillaume Doudou FAYE1Atsushi YAMAJI2Kotaro YONEZU1Thomas David TINDELL1Koichiro WATANABE1 (1.Department of Earth Resources Engineering, Graduate School of Engineering, Kyushu University、2.Division of Earth and Planetary Sciences, Graduate School of Sciences, Kyoto University)

キーワード:mixed Bingham distribution, Hishikari, Yamada, orientation , driving pressure, fluid pressure

The Hishikari deposit is a world-class low sulfidation epithermal deposit hosting the most productive gold mine in Japanese mining history. It is composed of the Honko, Sanjin and Yamada sub-deposits. Mixed Bingham distributions have been fitted to the orientation of the ore veins for the clustering of Yamada sub-deposit in order to unravel the paleostress conditions. Furthermore, the relationship between fluid pressure and high-grade gold mineralization has been investigated. Two paleostress states A (of strike-slip faulting regime) and B (intermediate between reverse-faulting and strike-slip faulting regime) were identified. The subsequent analysis of high-grade ore bands (gold grade>100 g/t) shows that although most of Yamada veins were formed by ore fluids with low driving pressures, the high grade veins among them were formed by those with higher driving pressures. This reveals a close association between high-grade gold mineralization and higher driving pressures. If the principal stress magnitudes are assumed to be constant over the sub-deposit, provided that the data were collected at the same elevation, the result also means that high-grade gold mineralization in the Yamada sub-deposit is related to higher fluid pressures. This is further supported by the fact that the high-grade ore bands deposition is controlled by the stress state A which is more likely to be associated with the main hydrothermal activity (thus higher fluid pressure).