Tomographic evidence for a slab tear induced by fossil ridge subduction at Manila Trench,South China Sea |
| |
| Authors: | Jian-ke Fan Shi-guo Wu George Spence |
| |
| Institution: | 1. Key laboratory of Marine Geology and Environment, Chinese Academy of Sciences, Qingdao 266071, PR China;2. Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, PR Chinafanjianke_8888@163.com;4. Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, PR China;5. School of Earth and Ocean Sciences, University of Victoria, Victoria V8P 5C2, Canada |
| |
| Abstract: | A tomographic travel-time inversion has been applied to trace the subducted slab of the South China Sea (SCS) beneath the Manila Trench. The dataset, taken from the International Seismological Centre (1960–2008), is composed of 13,087 P-wave arrival times from 1401 regional earthquakes and 8834 from 1350 teleseismic events. The results image the different morphology of the subducted SCS slab as a high-velocity zone. The subducting angle of the slab varies along the trench: at 16° N and 16.5° N, the slab dips at a low angle (24° ~ 32°) for 20–250 km depth and at a moderate angle (50°) for ~250–400 km depth. At 17° N, the slab dips at a low angle (32°) to near 400 km depth, and at 17.5° N and 18° N the slabs are near vertical from 70 ~ 700 km depth, while at 20° N the high-velocity anomalies exhibit features from horizontal abruptly to near vertical, extending to 500 km depth. The dramatic steepening of the slab between 17° N and 17.5° N may indicate a slab tear, which is coincident with the axis of a fossil ridge within the SCS slab at around 17° N. In addition, low-velocity zones in the three profiles above 300 km depth may represent the formation of the slab window, induced by ridge subduction and slab tear, initiating upward mantle flow and resulting in the partial melting of the edge of the slab. The slab tear could explain the volcanic gap and geochemical difference between the extinct Miocene and Quaternary volcanoes in the Luzon Arc, the much higher heat flow around the fossil ridge, and the distribution of most of the adakites and the related porphyry Cu-Au deposits in the Luzon area. Based on the geometry and morphology of the subducted slab and certain assumptions, we calculate the initial time of ridge subduction, which implies that ridge subduction and slab tear possibly started at ~8 Ma. |
| |
| Keywords: | tomography ridge subduction slab tear Manila Trench South China Sea |
|
|
