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Polarity Reversal of Active Plate Boundary and Elevated Oceanic Upper Mantle beneath the Collision Suture in Central Eastern Taiwan

¹ Institute of Earth Sciences
Academia Sinica
P.O. Box 1-55
Nankang, Taipei, 11529 Taiwan
 (K.H.K., K.-C.C.)
² Center for Earthquake Research and Information
The University of Memphis
Memphis, Tennessee 38152
 (K.H.K., J.M.C.)
³ Department of Earth Sciences
The University of Memphis
Memphis, Tennessee 38152
 (J.P.)

Correspondence: ^* Present address: Korean Ocean Research and Development Institute, P.O. Box 29, Seoul, 425-600 Korea.

The active collision between the Eurasia and Philippine Sea plates in eastern Taiwan has been explored from the recently determined 3D velocity images and relocated hypocenters. A north-northeast–south-southwest-trending high- velocity zone corresponding to the oceanic upper mantle is narrowly defined underneath the collision suture from Hualien to Taitung. This elevated and hot oceanic upper mantle must have played an important role in the tectonic evolution/mountain- building process of the adjacent continental crust. A northwest-dipping seismic zone can be identified in the northern collision zone extending from the surface to 30 km depth, which can be correlated with the northern Longitudinal Valley Fault (LVF). This zone marks a transitional plate boundary separating the high V_P and high V_P/ V_S oceanic crust to the east and the high V_P and V_S upper crust and low V_P and low V_P/V_S mid-to-lower continental crust to the west. A significant amount of plate convergence along the suture has been accommodated by the high-angle thrusting along the northern LVF. In contrast, a southeast-dipping seismic zone can be identified extending from the surface to 25 km depth near Taitung in the southern collision zone. This zone coincides with a region of high V_P and high V_P/V_S, suggesting that earthquakes occurred within a highly fractured or fluid-rich zone. The reverse polarity of active-plate boundary faults marks two distinguished transition boundaries, one from eastward subduction in southern Taiwan to east–west collision in the southern collision zone corresponding to the early phase of plate collision, and the other from east–west collision to northwest subduction in the northern collision zone corresponding to the advanced phase of plate collision. The central collision zone is creeping and aseismic, which can be attributed to the high heat flow and geothermal activity during an interseismic period since the 1951 Taitung earthquake.

This article has been cited by other articles:

				W.-T. Liang, J.-M. Chiu, and K. Kim Anomalous Pn Waves Observed in Eastern Taiwan: Implications of a Thin Crust and Elevated Oceanic Upper Mantle beneath the Active Collision-Zone Suture Bulletin of the Seismological Society of America, August 1, 2007; 97(4): 1370 - 1377. [Abstract] [Full Text] [PDF]