Oblique plate convergence along arcuate trenches on a spherical Earth. An example from the Western Sunda Arc

Guzmán-Speziale, Marco

doi:10.1007/s11600-023-01163-9

Acta Geophys.

2023

DOI: 10.1007/s11600-023-01163-9

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Oblique plate convergence along arcuate trenches on a spherical Earth. An example from the Western Sunda Arc

Marco Guzmán-Speziale

Abstract: We propose a new definition of oblique plate convergence. Our model considers arc-trench curvature on a spherical Earth, and defines obliquity as the angle between the direction of plate convergence and the azimuth from the central point along the arc to the center of curvature of the arcuate trench. We also show how this model may be extended to multiple-arc trenches.We apply this definition to the Western Sunda Arc, which has been traditionally considered the prime example of oblique plate convergence, parti… Show more

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2024

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Cited by 2 publications

References 171 publications

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Arc Tectonic Elements and Upper Mantle Structure of Central and Southeast Asia: Seismic Tomography and Seismicity Data

Sokolov,

Trifonov

2024

Geotecton.

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Arc Tectonic Elements and Upper Mantle Structure of Central and Southeast Asia: Seismic Tomography and Seismicity Data

Sokolov,

Trifonov

2024

Geotecton.

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Arc tectonic elements and the upper mantle structure of the Central and Southeastern Asia: seismic tomography and seismicity data

Sokolov,

Trifonov

2024

Geotektonika

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Analysis of the upper mantle plumes spatial distribution in the inner part of the Sunda arc shows a number of plume bodies interrupting the stagnating slab framed from the south by the sinking slab of the Sunda Arc. Possible mechanisms providing this structure of the mantle are (i) sublatitudinal toroidal mantle flow through a gap in a flat slab and (ii) roll-back capable of forming a gap in a flat slab and launching upper mantle plumes in it without deep (1000 km) roots. The space above the slab top surface consists of local hot mantle bodies, which are secondary plumes and often form local rift segments. The three-dimensional mapping of δVp in the Tibet and Central Asia region contains structural styles similar to the Sunda Arc region. There is a region of subhorizontal fragments of slabs and a gap in which plume anomalies of deep and secondary origin are established. The vectors of the movements of rock masses along the shape of the Sunda Arc detachment planes, detected from seismic events, are directed outward from the center of the curvature of the arc in which secondary upper mantle plumes are concentrated. This indicates the presence of thrust processes at the arc front that are not associated with the subducting plate. Thrusting at the arc is accompanied by less number of events along antithetical thrusts. The fan-shaped orientation of azimuth movements along the Himalayas is directed to Hindustan. This shows that the main indicator of tectonic activity — seismic events — has a direction of rock mass displacement to the south from the back-arc stretching region within Tibet with the formation of thrust deformations during movements along the detachment planes. In the Himalayan arc, as well as the Sunda Arc, two directions of seismic movements are distinguished. The first direction corresponds to the model of the Indian Plate subduction. The second direction combines the displacement of the thrusts on the Indian Plate.

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Oblique plate convergence along arcuate trenches on a spherical Earth. An example from the Western Sunda Arc

Cited by 2 publications

References 171 publications

Arc Tectonic Elements and Upper Mantle Structure of Central and Southeast Asia: Seismic Tomography and Seismicity Data

Arc Tectonic Elements and Upper Mantle Structure of Central and Southeast Asia: Seismic Tomography and Seismicity Data

Arc tectonic elements and the upper mantle structure of the Central and Southeastern Asia: seismic tomography and seismicity data

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