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Reaction-induced rheological weakening enables oceanic plate subduction
Hirauchi, K.-i.; Fukushima, K.; Kido, M.; Muto, J.; Okamoto, A. (2016). Reaction-induced rheological weakening enables oceanic plate subduction. Nature Comm. 7(12550): 7 pp. hdl.handle.net/10.1038/ncomms12550
In: Nature Communications. Nature Publishing Group: London. ISSN 2041-1723, more
Peer reviewed article  

Available in Authors 

Keyword
    Marine

Authors  Top 
  • Hirauchi, K.-i.
  • Fukushima, K.
  • Kido, M.
  • Muto, J.
  • Okamoto, A.

Abstract
    Earth is the only terrestrial planet in our solar system where an oceanic plate subducts beneath an overriding plate. Although the initiation of plate subduction requires extremely weak boundaries between strong plates, the way in which oceanic mantle rheologically weakens remains unknown. Here we show that shear-enhanced hydration reactions contribute to the generation and maintenance of weak mantle shear zones at mid-lithospheric depths. High-pressure friction experiments on peridotite gouge reveal that in the presence of hydrothermal water, increasing strain and reactions lead to an order-of-magnitude reduction in strength. The rate of deformation is controlled by pressure-solution-accommodated frictional sliding on weak hydrous phyllosilicate (talc), providing a mechanism for the ‘cutoff’ of the high peak strength at the brittle-plastic transition. Our findings suggest that infiltration of seawater into transform faults with long lengths and low slip rates is an important controlling factor on the initiation of plate tectonics on terrestrial planets.

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