Interaction between iron and post-perovskite at core-mantle boundary and core signature in plume source region

Takeshi Sakai; Tadashi Kondo; Eiji Ohtani; Hidenori Terasaki; Noriaki Endo; Toshiko Kuba; Toshiaki Suzuki; Takumi Kikegawa

doi:10.1029/2006GL026868

Interaction between iron and post-perovskite at core-mantle boundary and core signature in plume source region

Takeshi Sakai, Tadashi Kondo, Eiji Ohtani, Hidenori Terasaki, Noriaki Endo, Toshiko Kuba, Toshiaki Suzuki, Takumi Kikegawa

Research output: Contribution to journal › Article › peer-review

52 Citations (Scopus)

Abstract

Interaction between the lower mantle and core is essential for understanding the nature of D″ layer at the core-mantle boundary (CMB). Here, we report the reaction between post-perovskite (PPv) and metallic iron under the condition of the CMB, for example, 139 GPa and 3000 Kelvin. Analytical transmission electron microscope (ATEM) analysis revealed that significant amount of oxygen up to 6.3 weight percent (wt.%) and silicon up to 4.0 wt.% can be dissolved into molten iron. The dihedral angle between PPv and molten iron is 67 degrees. Thus, a small amount of core metal of about 2 volume percent (vol.%) can be trapped without separation in the PPv region at the CMB. The amount of core metal trapped by this mechanism can produce the isotopic signature of the outer core in the plume source at the base of the lower mantle.

Original language	English
Article number	L15317
Journal	Geophysical Research Letters
Volume	33
Issue number	15
DOIs	https://doi.org/10.1029/2006GL026868
Publication status	Published - 2006 Aug
Externally published	Yes

ASJC Scopus subject areas

Geophysics
Earth and Planetary Sciences(all)

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10.1029/2006GL026868

Cite this

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title = "Interaction between iron and post-perovskite at core-mantle boundary and core signature in plume source region",

abstract = "Interaction between the lower mantle and core is essential for understanding the nature of D″ layer at the core-mantle boundary (CMB). Here, we report the reaction between post-perovskite (PPv) and metallic iron under the condition of the CMB, for example, 139 GPa and 3000 Kelvin. Analytical transmission electron microscope (ATEM) analysis revealed that significant amount of oxygen up to 6.3 weight percent (wt.%) and silicon up to 4.0 wt.% can be dissolved into molten iron. The dihedral angle between PPv and molten iron is 67 degrees. Thus, a small amount of core metal of about 2 volume percent (vol.%) can be trapped without separation in the PPv region at the CMB. The amount of core metal trapped by this mechanism can produce the isotopic signature of the outer core in the plume source at the base of the lower mantle.",

author = "Takeshi Sakai and Tadashi Kondo and Eiji Ohtani and Hidenori Terasaki and Noriaki Endo and Toshiko Kuba and Toshiaki Suzuki and Takumi Kikegawa",

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AU - Sakai, Takeshi

AU - Kondo, Tadashi

AU - Ohtani, Eiji

AU - Terasaki, Hidenori

AU - Endo, Noriaki

AU - Kuba, Toshiko

AU - Suzuki, Toshiaki

AU - Kikegawa, Takumi

PY - 2006/8

Y1 - 2006/8

N2 - Interaction between the lower mantle and core is essential for understanding the nature of D″ layer at the core-mantle boundary (CMB). Here, we report the reaction between post-perovskite (PPv) and metallic iron under the condition of the CMB, for example, 139 GPa and 3000 Kelvin. Analytical transmission electron microscope (ATEM) analysis revealed that significant amount of oxygen up to 6.3 weight percent (wt.%) and silicon up to 4.0 wt.% can be dissolved into molten iron. The dihedral angle between PPv and molten iron is 67 degrees. Thus, a small amount of core metal of about 2 volume percent (vol.%) can be trapped without separation in the PPv region at the CMB. The amount of core metal trapped by this mechanism can produce the isotopic signature of the outer core in the plume source at the base of the lower mantle.

AB - Interaction between the lower mantle and core is essential for understanding the nature of D″ layer at the core-mantle boundary (CMB). Here, we report the reaction between post-perovskite (PPv) and metallic iron under the condition of the CMB, for example, 139 GPa and 3000 Kelvin. Analytical transmission electron microscope (ATEM) analysis revealed that significant amount of oxygen up to 6.3 weight percent (wt.%) and silicon up to 4.0 wt.% can be dissolved into molten iron. The dihedral angle between PPv and molten iron is 67 degrees. Thus, a small amount of core metal of about 2 volume percent (vol.%) can be trapped without separation in the PPv region at the CMB. The amount of core metal trapped by this mechanism can produce the isotopic signature of the outer core in the plume source at the base of the lower mantle.

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Interaction between iron and post-perovskite at core-mantle boundary and core signature in plume source region

Abstract

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