JpGU-AGU Joint Meeting 2017

講演情報

[JJ] ポスター発表

セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS17] [JJ] 海底マンガン鉱床の科学:基礎から応用まで

2017年5月21日(日) 13:45 〜 15:15 ポスター会場 (国際展示場 7ホール)

コンビーナ:臼井 朗(高知大学海洋コア総合研究センター)、高橋 嘉夫(東京大学大学院理学系研究科地球惑星科学専攻)、伊藤 孝(茨城大学教育学部)、鈴木 勝彦(国立研究開発法人海洋研究開発機構・海底資源研究開発センター)

[MIS17-P08] Formational process of Manganese oxides in the Hokuroku District, northeastern Japan

*塚本 雄也1掛川 武1 (1.東北大学理学研究科地学専攻)

キーワード:マンガン、低温熱水系

Several Mn ore deposits are present in the Hokuroku district in Akita. Origin of Mn ore deposits and their relationship to Kuroko ore deposits are completely unknown. Therefore, in the present study, geological, mineralogical and geochemical studies are performed on Mn ores and associated rocks in the Hokuroku district.
Our geological survey revealed that Mn ore deposits and/or Mn enriched rocks appear above “R2-Rhyolite” horizon, which age is approximately 12 Ma. Mn ores mostly appear in tuff as disseminated or massive ores, and some ores appear in mud stone. Major Mn mineral is MnOOH, and more than 10 kinds of Mn minerals are found. Electron-microprobe and Raman spectroscopic analyses on the examined samples identified todorokite, hausmannite and so on as Mn minerals
Those Mn minerals are spatially associated with dolerite intrusions. In addition, Fe-enrichments (by forming hematite) are often found around dolerite. By detailed geological survey, we were able to reconstruct sub-seafloor hydrothermal circulation pathways, which were initiated by R2 rhyolite and then followed by dolerite intrusions, in the studied sections.
Chlorite geothermometer and general mineral assemblages suggest the temperature of the hydrothermal fluids were not high enough to generate sulfidic “black smoker.” Multiple submarine hydrothermal circulation mobilized and locally enriched Mn in tuff. Those are remobilized when dolerite intruded into tuff.
Then large quantity of Mn oxides precipitated in tuff or seafloor with significant amounts of Fe2+ derived from dolerite and the reaction with oxygenic seawater at the subsurface area.
These result suggest that submarine hydrothermal activities with relatively low temperature can potentially form the high Mn concentration. Such low temperature hydrothermal processes are common in the modern ocean and Mn ores similar to the Hokuroku may be present on the modern ocean floor or sub-seafloor rocks. The process found in the present study is different from previous model based on “black smoker” type hydrothermal activities. In addition, age and stratigraphy of Mn ores indicate no relationship to Kuroko ores, but bimodal activities, which succeeded from Kuroko age, are important to form Mn ores in the Hokuroku district.