Basaltic cognate enclaves from Dokdo Island as a window for intraplate mafic alkaline OIB magma dynamics in a back-arc basin
Park J, Lim H, Myeong B, Jang YD, Brenna M (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 177
Journal Issue: 8
DOI: 10.1007/s00410-022-01951-4
Abstract
Volcanoes with ocean island basalt (OIB)-like characteristics occur in all settings. Their origin is particularly enigmatic when they occur in close spatial and temporal association with subduction-related volcanism (e.g., back-arc basin basalts; BABB). A set of cognate enclaves and a late-intruding dike from Dokdo Island (Republic of Korea) were used to probe an intraplate mafic alkaline plumbing system developed in a back-arc basin. Detailed petrography, mineral chemistry, and whole-rock major- and trace-element geochemistry were combined with geothermobaro-hygrometric and whole-rock geochemical models. The cognate samples are defined as basalt-trachybasalt and gabbro, while a late-intruding dike has basaltic trachyandesite composition. In general, plagioclase crystals in the samples are classified as labradorite-bytownite, with cores richer in anorthite component compared to rims. Clinopyroxene crystals are sector-zoned diopside characterized by [2(IV)Si(4+) + Mg-VI(2+)](basal) <-> [2(IV)Al(3+) + Ti-VI(4+)](prism). The prism sector-based thermobarometric models suggest that the cognate enclaves may represent multi-stage magmatic conditions from near-source (> 1250 degrees C and 1.5 GPa) through underplating (similar to 1220 degrees C at similar to 640 MPa) to intermediate (similar to 1180 degrees C at similar to 400 MPa) stages. Shallow crustal stagnant conditions (similar to 1100 degrees C at similar to 120 MPa) are estimated from the late-intruding dike. Clinopyroxene- and plagioclase-based hygrometric models give a constant H2O abundance of similar to 1.5-2 wt% during the Dokdo basaltic magma evolution and ascent. According to our trace-element models, deep near-source parental melt may result from similar to 35% partial melting of hornblendite + spinel-peridotite and the associated mixing with clinopyroxene mush-derived 0.5% partial melt by a ratio of 0.6:0.4. From the parent, crystallization of up to 50% with the fractionating proportions of 0.7 plagioclase + 0.3 clinopyroxene can produce the whole compositional range of the Dokdo mafic alkaline magma. Rare or absent olivine in the early formed enclave may suggest that clinopyroxene and olivine are, respectively, crystallized at high and low pressure due to depressed olivine liquidus via melt compositional effect. We suggest that, during back-arc basin opening, BABB-related melt percolation into the extensional cracks in the lithospheric mantle and accompanying metasomatism provide hornblenditic source for the subsequent OIB magmatism.
Authors with CRIS profile
Involved external institutions
Kyungpook National University
Korea, Republic of (KR)
Monash University
Australia (AU)
University of Otago
New Zealand (NZ)
Korea, Republic of (KR)
Monash University
Australia (AU)
University of Otago
New Zealand (NZ)
How to cite
APA:
Park, J., Lim, H., Myeong, B., Jang, Y.-D., & Brenna, M. (2022). Basaltic cognate enclaves from Dokdo Island as a window for intraplate mafic alkaline OIB magma dynamics in a back-arc basin. Contributions To Mineralogy and Petrology, 177(8). https://dx.doi.org/10.1007/s00410-022-01951-4
MLA:
Park, Jongkyu, et al. "Basaltic cognate enclaves from Dokdo Island as a window for intraplate mafic alkaline OIB magma dynamics in a back-arc basin." Contributions To Mineralogy and Petrology 177.8 (2022).
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