Evolution and diversity of subduction zones controlled by slab width

Details Evolution and diversity of subduction zones controlled by slab width Evolution and diversity of subduction zones controlled by slab width

Mar 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007natur.446..308s&link_type=abstract

Nature, Volume 446, Issue 7133, pp. 308-311 (2007).

Physics

90

Scientific paper

Subducting slabs provide the main driving force for plate motion and flow in the Earth's mantle, and geodynamic, seismic and geochemical studies offer insight into slab dynamics and subduction-induced flow. Most previous geodynamic studies treat subduction zones as either infinite in trench-parallel extent (that is, two-dimensional) or finite in width but fixed in space. Subduction zones and their associated slabs are, however, limited in lateral extent (250-7,400km) and their three-dimensional geometry evolves over time. Here we show that slab width controls two first-order features of plate tectonics-the curvature of subduction zones and their tendency to retreat backwards with time. Using three-dimensional numerical simulations of free subduction, we show that trench migration rate is inversely related to slab width and depends on proximity to a lateral slab edge. These results are consistent with retreat velocities observed globally, with maximum velocities (6-16cmyr-1) only observed close to slab edges (<1,200km), whereas far from edges (>2,000km) retreat velocities are always slow (<2.0cmyr-1). Models with narrow slabs (<=1,500km) retreat fast and develop a curved geometry, concave towards the mantle wedge side. Models with slabs intermediate in width (~2,000-3,000km) are sublinear and retreat more slowly. Models with wide slabs (>=4,000km) are nearly stationary in the centre and develop a convex geometry, whereas trench retreat increases towards concave-shaped edges. Additionally, we identify periods (5-10Myr) of slow trench advance at the centre of wide slabs. Such wide-slab behaviour may explain mountain building in the central Andes, as being a consequence of its tectonic setting, far from slab edges.

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