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Fluid budgets along the northern Hikurangi subduction margin, New Zealand: the effect of a subducting seamount on fluid pressure

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https://ir.library.oregonstate.edu/concern/articles/4f16c4825

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Abstract
  • We estimate fluid sources around a subducted seamount along the northern Hikurangi subduction margin of New Zealand, using thermomechanical numerical modelling informed by wedge structure and porosities from multichannel seismic data. Calculated fluid sources are input into an independent fluid-flow model to explore the key controls on overpressure generation to depths of 12 km. In the thermomechanical models, sediment transport through and beneath the wedge is calculated assuming a pressure-sensitive frictional rheology. The change in porosity, pressure and temperature with calculated rock advection is used to compute fluid release from compaction and dehydration. Our calculations yield more precise information about source locations in time and space than previous averaged estimates for the Hikurangi margin. The volume of fluid release in the wedge is smaller than previously estimated from margin-averaged calculations (∼14 m³ yr⁻¹ m⁻¹), and is exceeded by fluid release from underlying (subducting) sediment (∼16 m³ yr⁻¹ m⁻¹). Clay dehydration contributes only a small quantity of fluid by volume (∼2 m³ yr⁻¹ m⁻¹ from subducted sediment), but the integrated effect is still significant landward of the seamount. Fluid source terms are used to estimate fluid pressures around a subducting seamount in the fluid-flow models, using subducted sediment permeability derived from porosity, and testing two end-members for d´ecollement permeability. Models in which the d´ecollement acts as a fluid conduit predict only moderate fluid overpressure in the wedge and subducting sediment. However, if the subduction interface becomes impermeable with depth, significant fluid overpressure develops in subducting sediment landward of the seamount. The location of predicted fluid overpressure and associated dehydration reactions is consistent with the idea that short duration, shallow, slow slip events (SSEs) landward of the seamount are caused by anomalous fluid pressures; alternatively, it may result from frictional effects of changing clay content along the subduction interface.
  • © The Authors 2015. Published by Oxford University Press on behalf of The Royal Astronomical Society. The published article can be found at: http://gji.oxfordjournals.org/content/202/1/277
  • Keywords: convergent, New Zealand, High strain deformation zones, Continental margins, Fault zone rheology, Rheology and friction of fault zones, Subduction zone processes
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  • Ellis, S., Fagereng, Å., Barker, D., Henrys, S., Saffer, D., Wallace, L., ... & Harris, R. (2015). Fluid budgets along the northern Hikurangi subduction margin, New Zealand: the effect of a subducting seamount on fluid pressure. Geophysical Journal International, 202(1), 277-297. doi:10.1093/gji/ggv127
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  • 202
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  • 1
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  • This work was supported by a combination of Marsden grants GNS1204 (Ellis) and GNS0902 (Henrys, Williams), and Direct Core Funding to GNS Science through the 'Tectonics of Zealandia' programme.
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