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Petrology and thermal structure of the Hawaiian plume from Mauna Kea volcano

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  • Claude Herzberg

    (Department of Geological Sciences Rutgers University Piscataway)

Abstract

There is uncertainty about whether the abundant tholeiitic lavas on Hawaii are the product of melt from peridotite or pyroxenite/eclogite rocks1,2. Using a parameterization of melting experiments on peridotite3 with glass analyses from the Hawaii Scientific Deep Project 2 on Mauna Kea volcano1, I show here that a small population of the core samples had fractionated from a peridotite-source primary magma. Most lavas, however, differentiated from magmas that were too deficient in CaO and enriched in NiO (ref. 2) to have formed from a peridotite source. For these, experiments indicate that they were produced by the melting of garnet pyroxenite, a lithology that had formed in a second stage by reaction of peridotite with partial melts of subducted oceanic crust2. Samples in the Hawaiian core are therefore consistent with previous suggestions that pyroxenite occurs in a host peridotite, and both contribute to melt production2,4. Primary magma compositions vary down the drill core, and these reveal evidence for temperature variations within the underlying mantle plume. Mauna Kea magmatism is represented in other Hawaiian volcanoes, and provides a key for a general understanding of melt production in lithologically heterogeneous mantle.

Suggested Citation

  • Claude Herzberg, 2006. "Petrology and thermal structure of the Hawaiian plume from Mauna Kea volcano," Nature, Nature, vol. 444(7119), pages 605-609, November.
    • Handle: RePEc:nat:nature:v:444:y:2006:i:7119:d:10.1038_nature05254
    DOI: 10.1038/nature05254
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    Cited by:

    1. Junlong Yang & Chao Wang & Junfeng Zhang & Zhenmin Jin, 2023. "Genesis of Hawaiian lavas by crystallization of picritic magma in the deep mantle," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Shijie Xie & Zebin Cao & Lijun Liu & Dinghui Yang & Mengxue Liu & Yanchong Li & Rui Qi, 2024. "The role of plume-lithosphere interaction in Hawaii-Emperor chain formation," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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