Philippine Fault System

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The Philippine Fault System is an inter-related system of faults throughout the whole of the Philippine Archipelago,[1] primarily caused by tectonic forces compressing the Philippines into what geophysicists call the Philippine Mobile Belt.[2]

Philippine Mobile Belt[edit]

The Philippine Mobile Belt is composed of a large number of accretionary blocks and strips. Most strips are long and narrow like the Zambales ophiolites which is at least 400 km long and 50 km wide. The strips generally run north-south and the zones of convergence are usually demarcated by fault lines. The Philippine Mobile Belt is compressed on the west by the Eurasian Plate and two arms of the Sunda Plate, and on the east by the Philippine Sea Plate. These tectonic plates have compressed and lifted parts of the Philippines causing extensive faulting, primarily on a north-south axis. All faults in the Philippines are inter-related by the tectonic forces of the Philippine Mobile Belt, or its tectonic induced volcanism. A more complete understanding can be gained by viewing the faults in the Philippines as an inter-related Philippine Fault System.

Philippine Fault Zone[edit]

The Philippine Fault Zone (PFZ) extends 1300 km across the Philippine archipelago behind the convergent boundary of the Philippine Trench and the subduction of the Philippine Sea Plate [3]. This left-lateral strike-slip fault extends NW-SE (N30 – 40 W) accommodating the lateral oblique motion of the subducting Philippine Sea Plate with respect to the Philippine Trench [4] [5]. It extends from Davao Gulf in the south, bisects the Caraga region at the Agusan River basin, crosses to Leyte and Masbate islands, and traverses Quezon province in eastern Luzon before passing through Nueva Ecija up to the Ilocos region in northwest Luzon. The northern and southern extensions of the PFZ are characterized by branching splay faults due to brittle terminations. These horsetail faults are indicative of the lateral propagation and further development of the PFZ. The fault’s current activity can be observed in Holocene sandstone outcrops on the Mati and Davao Oriental islands [6]. The fault experiences a slip rate of approximately 2-2.5 cm/year [7].

Formation[edit]

It is proposed that the Philippine Trench and PFZ represent a ‘shear partitioning’ mechanism, where the oblique physical motions of subduction at the convergent zone resulted in the development of the major strike-slip fault. In the Philippine Sea, the oblique motion of the subducting Philippine Sea Plate resulted in the formation of the Philippine trench and the PFZ back arc fault system. The oblique motion is accommodated by two vector components; one vector perpendicular to the converging Philippine Trench and one vector parallel to the PFZ. Approximately 30% of the oblique motion is accommodated by the PFZ while the remaining proportions are displaced along other regional tectonic features as the Philippine Sea Plate currently subducts below the Philippine archipelago at a rate of 6-8 cm/year. These two tectonic features thus correlate to a similar time of development. The formation of the PFZ was a result of two stages. The first stage began at ~10 Ma, when the northern segments of the PFZ developed due to the convergence of the China Sea Crust underneath the nearby Manila Trench. The lack of accretionary prism at the Philippine Trench is suggestive of young origin correlating to an early second stage of development (2-4 Ma) with the central PFZ proposed to have developed between 2.7 and 3.8 Ma [8].

Earthquakes[edit]

The central Philippine Fault Zone consisting of the Guinyangan, Masbate, and Central Leyte faults are the most seismically active regions transecting the islands of Bondoc to Leyte. The northern and southern extensions of the Philippine Fault Zone experience infrequent earthquakes. The largest (M7.0) and most destructive earthquakes are generated along the Guinyangan fault every 30 to 100 years with slip rates of 20-33 mm/year as determined by GPS and historical records. Moderate earthquakes (M3.0-5.0) are observed along the Masbate fault with frequent aftershocks indicative of continued displacement and regional slip of 5-35 mm/year. The northern and southern segments of the Central Leyte fault experiences different seismic activity dependent on regional geology. While the Southern Central Leyte fault experiences moderate seismic events, the Northern Central Leyte fault creeps at approximately 25 mm/year. Historical data on the PFZ is limited due to the faults geographical location predominantly offshore and lack of permanent Global Positioning System (GPS) [9].

References[edit]

  1. ^ Nicolas Pinet and Jean Francois Stephan (1989) in Tectonics of Circum-Pacific Continental Margins ISBN 90-6764-132-4 p170
  2. ^ Rangin and Pubellier (1990) in Tectonics of Circum-Pacific Continental Margins ISBN 90-6764-132-4 p140 ff
  3. ^ Aurelio, M., 2000. Shear partitioning in the Philippines: Constraints from Philippine Fault and global positioning system data. The Island Arc 9.
  4. ^ Besana, G.M., Ando, M., 2005. The central Philippine Fault Zone: Location of great earthquakes, slow events, and creep activity. Earth Planets Science 57, 987-994.
  5. ^ Aurelio, M., 2000. Shear partitioning in the Philippines: Constraints from Philippine Fault and global positioning system data. The Island Arc 9.
  6. ^ Yumul, G., Dimalanta, C., Maglambayan, V., Marquez, E., 2008. Tectonic setting of a composite terrane: A review of the Philippine island arc system. Geosciences Journal 12, 7-17.
  7. ^ Barrier, E., Huchon, P., Aurelio, M., 1991. Philippine fault: A key for Philippine kinematics. Geology 19, 32-35.
  8. ^ Aurelio, M., 2000. Shear partitioning in the Philippines: Constraints from Philippine Fault and global positioning system data. The Island Arc 9.
  9. ^ Besana, G.M., Ando, M., 2005. The central Philippine Fault Zone: Location of great earthquakes, slow events, and creep activity. Earth Planets Science 57, 987-994.

Gallery[edit]

See also[edit]

External links[edit]