Document Type
Article
Journal/Book Title/Conference
Journal of Geophysical Research: Solid Earth
Volume
121
Issue
6
Publisher
Blackwell Publishing Ltd
Publication Date
6-1-2016
First Page
4670
Last Page
4741
Abstract
We reconstructed Philippine Sea and East Asian plate tectonics since 52 Ma from 28 slabs mapped in 3-D from global tomography, with a subducted area of ~25% of present-day global oceanic lithosphere. Slab constraints include subducted parts of existing Pacific, Indian, and Philippine Sea oceans, plus wholly subducted proto-South China Sea and newly discovered ñEast Asian Sea.î Mapped slabs were unfolded and restored to the Earth surface using three methodologies and input to globally consistent plate reconstructions. Important constraints include the following: (1) the Ryukyu slab is ~1000 km N-S, too short to account for ~20Á Philippine Sea northward motion from paleolatitudes; (2) the Marianas-Pacific subduction zone was at its present location (±200 km) since 48 ± 10 Ma based on a >1000 km deep slab wall; (3) the 8000 _ 2500 km East Asian Sea existed between the Pacific and Indian Oceans at 52 Ma based on lower mantle flat slabs; (4) the Caroline back-arc basin moved with the Pacific, based on the overlapping, coeval Caroline hot spot track. These new constraints allow two classes of Philippine Sea plate models, which we compared to paleomagnetic and geologic data. Our preferred model involves Philippine Sea nucleation above the Manus plume (0Á/150ÁE) near the Pacific-East Asian Sea plate boundary. Large Philippine Sea westward motion and post-40 Ma maximum 80Á clockwise rotation accompanied late Eocene-Oligocene collision with the Caroline/Pacific plate. The Philippine Sea moved northward post-25 Ma over the northern East Asian Sea, forming a northern Philippine Sea arc that collided with the SW Japan-Ryukyu margin in the Miocene (~20_14 Ma). ©2016. The Authors.
Recommended Citation
Wu, Jonny; Suppe, John; Lu, Renqi; and Kanda, Ravi, "Philippine Sea and East Asian plate tectonics since 52 Ma constrained by new subducted slab reconstruction methods" (2016). Plants, Soils, and Climate Faculty Publications. Paper 803.
https://digitalcommons.usu.edu/psc_facpub/803