A magnetic approach to unravelling the paleoenvironmental significance of nanometer-sized Fe hydroxide in NW Pacific ferromanganese deposits

Date

2021

Authors

Jiang, Xiaodong
Zhao, Xiang
Zhao, Xiangyu
Chou, Y M
Hein, James R
Sun, Xiaoming
Zhong, Yi
Ren, Jiangbo
Liu, Quingsong

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

Ferromanganese nodules and crusts (Fe-Mn deposits) are being widely explored for their significant economic potential and paleoenvironmentally significant archives. Fe-Mn deposits contain abundant Fe-bearing minerals including detrital minerals, biogenic Fe-bearing components, but predominantly amorphous Fe hydroxides (AFH). Particularly, the hydrogenetic Fe that is formed in bottom water should be closely related with oceanic environmental and Fe-cycling processes. However, it remains challenging to characterize and quantify the x-ray amorphous AFH component in Fe-Mn deposits. To resolve this problem, we systematically investigated thermally treated hydrogenetic Fe-Mn deposits sampled from the northwestern Pacific Ocean to unravel the AFH component. Our results show that the nanometer-sized AFHs can be transformed into strongly magnetic nanometer-sized (approximately 10-20 nm) magnetite upon heating above 500 °C, which can be feasibly quantified by systematic rock magnetic analyses. Using this novel approach, several Fe-Mn deposits at different water depths from the western Pacific Ocean are investigated. Our results indicate that the abundance of AFH increase at a water depth of ∼5000 m, which can be ascribed to bottom-current stratification. The magnetic approach to indirectly quantify the AFH component in Fe-Mn deposits has a great potential in exploring oceanic paleoenvironment significance.

Description

Keywords

amorphous Fe-hydroxides, Fe-Mn nodules and crusts, temperature dependence of magnetic, susceptibility, superparamagnetism

Citation

Source

Earth and Planetary Science Letters

Type

Journal article

Book Title

Entity type

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Restricted until

2099-12-31