Lithospheric-folding-based understanding on the origin of the back-arc basaltic magmatism beneath Jeju volcanic island

Young Hong Shin; Kwang Sun Choi; Jeong Seon Koh; Sung Hyo Yun; Eizo Nakamura; Sung Ho Na

doi:10.1029/2011TC003092

Lithospheric-folding-based understanding on the origin of the back-arc basaltic magmatism beneath Jeju volcanic island

Young Hong Shin, Kwang Sun Choi, Jeong Seon Koh, Sung Hyo Yun, Eizo Nakamura, Sung Ho Na

Institute for Planetary Materials

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

11 Citations (Scopus)

Abstract

Compression near collisional plate boundaries causes lithospheric folding which results in the decrease of the pressure beneath the ridge of the fold while the pressure beneath the trough increases. The decompression beneath the lithosphere is likely to bring on basaltic magmatism along and below the ridge. We investigate the subsurface structure beneath Jeju (Cheju) volcanic island and its vicinity, and propose an alternative hypothesis that the basaltic magma beneath the island could be caused by (episodic) lithospheric folding. Unlike the prevailing hypothesis of the intraplate basaltic magmatism that requires extending lithosphere, our hypothesis can explain how the basaltic magma could be generated at the back-arc regions without the extension.

Original language	English
Article number	TC4005
Journal	Tectonics
Volume	31
Issue number	4
DOIs	https://doi.org/10.1029/2011TC003092
Publication status	Published - Aug 1 2012

ASJC Scopus subject areas

Geophysics
Geochemistry and Petrology

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abstract = "Compression near collisional plate boundaries causes lithospheric folding which results in the decrease of the pressure beneath the ridge of the fold while the pressure beneath the trough increases. The decompression beneath the lithosphere is likely to bring on basaltic magmatism along and below the ridge. We investigate the subsurface structure beneath Jeju (Cheju) volcanic island and its vicinity, and propose an alternative hypothesis that the basaltic magma beneath the island could be caused by (episodic) lithospheric folding. Unlike the prevailing hypothesis of the intraplate basaltic magmatism that requires extending lithosphere, our hypothesis can explain how the basaltic magma could be generated at the back-arc regions without the extension.",

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AU - Choi, Kwang Sun

AU - Koh, Jeong Seon

AU - Yun, Sung Hyo

AU - Nakamura, Eizo

AU - Na, Sung Ho

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Lithospheric-folding-based understanding on the origin of the back-arc basaltic magmatism beneath Jeju volcanic island

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