T53A-02
Seismotectonics and Crustal Thickness of Northwest Mindoro, Philippines
Friday, 18 December 2015: 13:55
304 (Moscone South)
Po-Fei Chen1, Erlinton A Olavere2, Kuei-Mo Lee1, Bartolome Bautista3, Renato Solidum Jr.4 and Bor-Shouh Huang5, (1)NCU National Central University of Taiwan, Jhongli, Taiwan, (2)Philippine Institute of Volcanology and Seismology, Quezon, Philippines, (3)PHIVOLCS, Quezon City, Philippines, (4)Philippine Institute of Volcanology and Seismology, Quezon City, Philippines, (5)Academia Sinica, Taipei, Taiwan
Abstract:
Mindoro Island locates where the Palawan Continental Block (PCB) indented into the Philippine Mobile Belt (PMB) during the Early Miocene and where the Manila Trench terminates, having ceased convergence due to collision. On the transition from subduction to collision, Northwest Mindoro exhibits vigorous seismic activity and has been debated about its affiliation being PCB or PMB. Here, we use data from both the EHB and Global Centroid Moment Tensor catalogues to study the regional seismotectonics. We also deployed five broadband stations to probe the crustal thickness beneath NW Mindoro using receiver function analysis. Results show that, following the southeasterly reduction of convergence rates at the southern termination of the Manila Trench, the slab dipping angles steepen, were initiated at depth (~200 km) and propagate upwards. The horizontal distances of the trench and slab, as measured from the Wadati-Benioff zone at 200 km depth, also reduce in a southeasterly direction. Observations of intermediate-depth earthquakes that exhibit predominantly down-dip extensional stress patterns attest that the steepening of slab dipping angles is due to the negative buoyancy of the slab. Preliminary results of receiver function analysis suggest that the crustal thickness beneath NW Mindoro is about 40 km and is probably PCB affiliated.