Mantle dynamics, element recycling, and magma genesis beneath the Kermadec Arc‐Havre Trough

  • Haase K
  • Worthington T
  • Stoffers P
  • et al.
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Abstract

New geochemical and isotopic data are presented for lavas from three sites in the Havre Trough‐Lau Basin back arc and six volcanoes along the Kermadec arc. The back arc basalts range from MORB‐like to arc‐like in composition and contain a variable contribution from the underlying slab. The least contaminated MORB‐like back arc lavas from 24°–29°S are low degree partial melts of a source with Pacific MORB isotopic characteristics. A transition occurs at 30°S between the strongly depleted northern Kermadec (and Tonga) arc lavas and the mildly depleted southern Kermadec arc lavas. This transition does not correlate with changes in the back arc extension rate or width but may reflect inhibited mantle wedge replenishment behind the shallower‐dipping northern Kermadec‐Tonga slab. Northern Kermadec lavas require mixing between two components: (1) depleted Havre Trough mantle and (2) fluid derived from altered MORB crust with a slight input of sediment lead. Inter‐volcano differences in fluid compositions probably reflect local variations on the subducting slab rather than mineralogical variation in the mantle wedge. Southern Kermadec lavas require an additional component: (3) Pacific sediment melt. This sediment melt is only detected where the subduction rate is <7 cm/year, and requires thermal heating of the slab to >650°C before passing through the sub‐arc melt generation zone.

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Haase, K. M., Worthington, T. J., Stoffers, P., Garbe‐Schönberg, D., & Wright, I. (2002). Mantle dynamics, element recycling, and magma genesis beneath the Kermadec Arc‐Havre Trough. Geochemistry, Geophysics, Geosystems, 3(11), 1–22. https://doi.org/10.1029/2002gc000335

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