Projects per year
Abstract
Several lines of evidence suggest that subduction zones are weak and that the unique availability of water on Earth is a critical factor in the weakening process. We have evaluated the strength of subduction zone interfaces using two approaches: (i) from empirical relationships between shear stress at the interface and subduction velocity, deduced from laboratory experiments; and (ii) from a parametric study of natural subduction zones that provides new insights on subduction zone interface strength. Our results suggest that subduction is only mechanically feasible when shear stresses along the plate interface are relatively low (less than 35MPa). To account for this requirement, we propose that there is a feedback mechanism between subduction velocity, water released from the subducting plate, and weakening of the fore-arc mantle that may explain how relatively low shear stresses are maintained at subduction interfaces globally.
Original language | English |
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Pages (from-to) | 2664 - 2673 |
Number of pages | 10 |
Journal | Geophysical Research Letters |
Volume | 42 |
Issue number | 8 |
DOIs | |
Publication status | Published - 2015 |
Projects
- 3 Finished
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The role of subduction initiation in the evolution of Earth's oceans
Casal Duarte, J.
Australian Research Council (ARC)
1/01/15 → 31/12/17
Project: Research
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The Cenozoic tectonic evolution of East and Southeast Asia: Interplay between the India-Eurasia collision and the Pacific and Sunda subduction zones
Schellart, W.
Australian Research Council (ARC), Monash University
1/01/12 → 15/09/16
Project: Research
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Three-dimensional subduction models of overriding plate deformation and mantle flow using laboratory and numerical methods
Schellart, W., Cruden, S. & Stegman, D.
Australian Research Council (ARC), Monash University
4/01/11 → 1/10/14
Project: Research