A hydrogen-enriched layer in the topmost outer core sourced from deeply subducted water

地幔(地质学) 地质学 俯冲 核幔边界 硅酸盐 外堆芯 金刚石顶砧 边界层 后钙钛矿 地球物理学 地幔对流 内芯 岩石学 矿物学 高压 热力学 化学工程 构造学 化学 古生物学 有机化学 工程类 物理
作者
Taehyun Kim,J. G. O’Rourke,Jeongmin Lee,Stella Chariton,Vitali B. Prakapenka,Rachel J. Husband,Nico Giordano,Hanns‐Peter Liermann,Sang‐Heon Shim,Yongjae Lee
出处
期刊:Nature Geoscience [Nature Portfolio]
卷期号:16 (12): 1208-1214 被引量:16
标识
DOI:10.1038/s41561-023-01324-x
摘要

The Earth’s core–mantle boundary presents a dramatic change in materials, from silicate to metal. While little is known about chemical interactions between them, a thin layer with a lower velocity has been proposed at the topmost outer core (Eʹ layer) that is difficult to explain with a change in concentration of a single light element. Here we perform high-temperature and -pressure laser-heated diamond-anvil cell experiments and report the formation of SiO2 and FeHx from a reaction between water from hydrous minerals and Fe–Si alloys at the pressure–temperature conditions relevant to the Earth’s core–mantle boundary. We suggest that, if water has been delivered to the core–mantle boundary by subduction, this reaction could enable exchange of hydrogen and silicon between the mantle and the core. The resulting H-rich, Si-deficient layer formed at the topmost core would have a lower density, stabilizing chemical stratification at the top of the core, and a lower velocity. We suggest that such chemical exchange between the core and mantle over gigayears of deep transport of water may have contributed to the formation of the putative Eʹ layer. Deeply subducted water may have enabled the exchange of hydrogen and silicon between the mantle and core, according to high-pressure and -temperature experiments.
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