2017
DOI: 10.1130/g38617.1
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Widespread compression associated with Eocene Tonga-Kermadec subduction initiation

Abstract: Eocene onset of subduction in the western Pacific was accompanied by a global reorganization of tectonic plates and a change in Pacific plate motion relative to hotspots during the period 52–43 Ma. We present seismic-reflection and rock sample data from the Tasman Sea that demonstrate that there was a period of widespread Eocene continental and oceanic compressional plate failure after 53–48 Ma that lasted until at least 37–34 Ma. We call this the Tectonic Event of the Cenozoic in the Tasman Area (TECTA). Its … Show more

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Cited by 80 publications
(104 citation statements)
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“…Global plate tectonic reconstructions reveal abrupt, widespread changes in plate motion and boundary configurations, notably at ∼50 and ∼100 Myr ago (Matthews et al, 2012;Whittaker et al, 2007), which have variably been attributed to ridge subduction, plume-push forces, and continent-continent collision. Current hypotheses suggest a role for both local lithospheric buoyancy variations and plate-scale compressional forces (Arculus et al, 2015;Sutherland et al, 2017), yet the ultimate trigger for these new plate boundaries to form by either mechanism remains unclear. Current hypotheses suggest a role for both local lithospheric buoyancy variations and plate-scale compressional forces (Arculus et al, 2015;Sutherland et al, 2017), yet the ultimate trigger for these new plate boundaries to form by either mechanism remains unclear.…”
Section: Discussionmentioning
confidence: 99%
“…Global plate tectonic reconstructions reveal abrupt, widespread changes in plate motion and boundary configurations, notably at ∼50 and ∼100 Myr ago (Matthews et al, 2012;Whittaker et al, 2007), which have variably been attributed to ridge subduction, plume-push forces, and continent-continent collision. Current hypotheses suggest a role for both local lithospheric buoyancy variations and plate-scale compressional forces (Arculus et al, 2015;Sutherland et al, 2017), yet the ultimate trigger for these new plate boundaries to form by either mechanism remains unclear. Current hypotheses suggest a role for both local lithospheric buoyancy variations and plate-scale compressional forces (Arculus et al, 2015;Sutherland et al, 2017), yet the ultimate trigger for these new plate boundaries to form by either mechanism remains unclear.…”
Section: Discussionmentioning
confidence: 99%
“…The distal basin, the Tasman Abyssal Plain, shows signs of local convergent deformation (Sutherland et al, 2017). The force transmitted through the tectonic plate must have been large enough to stop seafloor spreading and cause failure of the lithosphere.…”
Section: Drilling Strategymentioning
confidence: 99%
“…The proximal ridge includes New Caledonia, Norfolk Ridge, Reinga Basin, and northwest New Zealand ( Figures F2, F3, F4). The proximal region is deformed and presumably was involved in the initial phase of surface convergence (Sutherland et al, 2017). Knowledge from New Caledonia, IODP Sites U1507 and U1508, and New Zealand produce a proximal boundary-parallel transect that progressively samples initial rates of predicted convergence (Bache et al, 2012).…”
Section: Drilling Strategymentioning
confidence: 99%
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