日本地質学会第128年学術大会

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S1.[シンポ]球状コンクリーションの科学–理解と応用-(一般公募なし)

[2ch101-09] S1.[シンポ]球状コンクリーションの科学–理解と応用-(一般公募なし)

2021年9月5日(日) 09:30 〜 12:30 第1 (第1)

座長:勝田 長貴、吉田 英一、長谷川 精

10:45 〜 11:15

[S1-O-6] (招待講演/ハイライト)Concretions: Chronicles of Diagenesis from Earth to Mars

*Marjorie Chan1 (1. ユタ大学)

キーワード:Concretion、Iron-oxide、Diagenesis、Earth to Mars

世話人からのハイライト紹介:Chan教授は、アメリカ・ユタ大学で続成作用をはじめ、風化や変質に関する研究を30年以上に渡って行ってきた堆積学の専門家であり、とくにナバホ砂岩層中にある鉄コンクリーションによる火星の鉄コンクリーション研究の第一人者である。招待講演では、これら鉄コンクリーションのみならず地球と火星のこれまでのコンクリーション研究について、俯瞰的に紹介を頂く。参考:ハイライトについて
There is an amazing array of concretions throughout the sedimentary record of Earth, and now iron oxide examples (“blueberries”) have been found in several regions of Mars. Two questions address the current state of knowledge on these cemented mineral masses as well as coloration patterns. Collectively the authigenic cements and patterns chronicle past diagenetic conditions, particularly in clastic rocks.

What do we know? Concretions occur in many sizes, spanning three orders of magnitude (mm, cm, and m scales). Spheroidal forms are most common, as a minimum free energy shape dominated by diffusive processes. There are multiple cement mineralogies even within single concretions, reflecting different water compositions in open systems. Other concretionary geometries can be affected by primary textures such as bedding, grain size, and porosity/permeability, or later textures such as fractures, joints, and faults. Iron cycling is readily apparent where visual coloration patterns indicate histories of early iron reddening, secondary bleaching (removal of iron), and iron replacement or reprecipitation. Interfingering colors may indicate a possible interface of immiscible fluids.

What don’t we know? Non-unique pathways or processes may produce similar-looking end products. Thus, it can be difficult to determine exact histories, as well as the fluid compositions and environmental conditions that initiate concretion formation, particularly if an obvious nucleus is lacking. Microbial life may enhance nucleation and precipitation, and geochemical gradients are potential places to search for biosignatures. Timing and events are mostly relative relationships in these open systems, but newer developments in U-Th/He dating may provide age constraints for iron oxide cements. Continued explorations, field studies, modeling approaches, analytical advances, and instrument precision will enlighten our understanding on the diagenetic histories of both Earth and Mars.