Disentangling the Roles of Subducted Volatile Contributions and Mantle Source Heterogeneity in the Production of Magmas Beneath the Washington Cascades

Walowski, K. J.; Wallace, P. J.; DeBari, S. M.; Wada, I.; Shaw, S. D.; Rea, J.

doi:10.1029/2024gc011587

Geochem Geophys Geosyst

2024

DOI: 10.1029/2024gc011587

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Disentangling the Roles of Subducted Volatile Contributions and Mantle Source Heterogeneity in the Production of Magmas Beneath the Washington Cascades

K. J. Walowski,

P. J. Wallace,

S. M. DeBari

et al.

Abstract: The compositional diversity of primitive arc basalts has long inspired questions regarding the drivers of magmatism in subduction zones, including the roles of decompression melting, mantle heterogeneity, and the amount and composition of slab‐derived materials. This contribution presents the volatile (H2O, Cl, and S), major, and trace element compositions of melt inclusions from basaltic magmas erupted at three volcanic centers in the Washington Cascades: Mount St. Helens (two basaltic tephras, 2.0–1.7 ka), I… Show more

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Deep Nitrogen Fluxes and Sources Constrained by Arc Lava Phenocrysts

Hudak,

Barry,

Bekaert

et al. 2024

Geophysical Research Letters

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Nitrogen (N) dominates Earth's atmosphere (78% N2) but occurs in trace abundances in silicate minerals, making it a sensitive tracer of recycled surface materials into the mantle. The mechanisms controlling N transfer between terrestrial reservoirs remain uncertain because low N abundances in mineral‐hosted fluid inclusions (FIs) are difficult to measure. Using new techniques, we analyzed N and He isotope compositions and abundances in olivine‐ and pyroxene‐hosted FIs from arc volcanoes in Southern Chile, Cascadia, Central America, and the Southern Marianas. These measurements enable an estimate of the global flux of N outgassing from arcs (4.0 × 1010 mol/yr). This suggests that Earth is currently in a state of net N ingassing, with roughly half of subducted N returned to the mantle. Additionally, the N outgassing flux of individual arcs correlates with the thickness of subducting pelagic sediment, suggesting that N cycling in the modern solid Earth is largely controlled by sediment subduction.

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Deep Nitrogen Fluxes and Sources Constrained by Arc Lava Phenocrysts

Hudak,

Barry,

Bekaert

et al. 2024

Geophysical Research Letters

View full text Add to dashboard Cite

show abstract

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Disentangling the Roles of Subducted Volatile Contributions and Mantle Source Heterogeneity in the Production of Magmas Beneath the Washington Cascades

Cited by 1 publication

References 97 publications

Deep Nitrogen Fluxes and Sources Constrained by Arc Lava Phenocrysts

Deep Nitrogen Fluxes and Sources Constrained by Arc Lava Phenocrysts

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