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Ripplocations provide a new mechanism for the deformation of phyllosilicates in the lithosphere

Joe Aslin (), Elisabetta Mariani, Karl Dawson and Michel W. Barsoum
Additional contact information
Joe Aslin: University of Liverpool
Elisabetta Mariani: University of Liverpool
Karl Dawson: University of Liverpool
Michel W. Barsoum: Drexel University

Nature Communications, 2019, vol. 10, issue 1, 1-9

Abstract: Abstract Deformation in Earth’s lithosphere is localised in narrow, high-strain zones. Phyllosilicates, strongly anisotropic layered minerals, are abundant in these rocks, where they accommodate much of the strain and play a significant role in inhibiting or triggering earthquakes. Until now it was understood that phyllosilicates could deform only by dislocation glide along layers and could not accommodate large strains without cracking and dilation. Here we show that a new class of atomic-scale defects, known as ripplocations, explain the development of layer-normal strain without brittle damage. We use high-resolution transmission electron microscopy (TEM) to resolve nano-scale bending characteristic of ripplocations in the phyllosilicate mineral biotite. We demonstrate that conjugate delamination arrays are the result of elastic strain energy release due to the accumulation of layer-normal strain in ripplocations. This work provides the missing mechanism necessary to understand phyllosilicate deformation, with important rheological implications for phyllosilicate bearing seismogenic faults and subduction zones.

Date: 2019
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DOI: 10.1038/s41467-019-08587-2

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