Abstract
The Vigan-Aggao Fault is a 140-km-long complex active fault system consisting of multiple traces in the westernmost part of the Philippine Fault Zone (PFZ) in northern Luzon, the Philippines. In this paper, its traces, segmentation, and oblique left-lateral strike-slip motion are determined from horizontal and vertical displacements measured from over a thousand piercing points pricked from displaced spurs and streams observed from Google Earth Pro satellite images. This work marks the first instance of the extensive use of Google Earth as a tool in mapping and determining the kinematics of active faults. Complete 3D image coverage of a major thoroughgoing active fault system is freely and easily accessible on the Google Earth Pro platform. It provides a great advantage to researchers collecting morphotectonic displacement data, especially where access to aerial photos covering the entire fault system is next to impossible. This tool has not been applied in the past due to apprehensions on the positional measurement accuracy (mainly of the vertical component). The new method outlined in this paper demonstrates the applicability of this tool in the detailed mapping of active fault traces through a neotectonic analysis of fault-zone features. From the sense of motion of the active faults in northern Luzon and of the major bounding faults in central Luzon, the nature of deformation in these regions can be inferred. An understanding of the kinematics is critical in appreciating the distribution and the preferred mode of accommodation of deformation by faulting in central and northern Luzon resulting from oblique convergence of the Sunda Plate and the Philippine Sea Plate. The location, extent, segmentation patterns, and sense of motion of active faults are critical in coming up with reasonable estimates of the hazards involved and identifying areas prone to these hazards. The magnitude of earthquakes is also partly dependent on the type and nature of fault movement. With a proper evaluation of these parameters, earthquake hazards and their effects in different tectonic settings worldwide can be estimated more accurately.
Highlights
MethodsMany landforms suggest youthfulness and are very useful in identifying the active traces or strands of fault zones
The major and minor active faults in northern Luzon and adjoining areas belong to a system of faults and subduction zones that accommodates part of the deformation due to the northwestwardGeosciences 2020, 10, 83; doi:10.3390/geosciences10020083 www.mdpi.com/journal/geosciencesGeosciences 2020, 10, x FOR PEER REVIEW Philippine Sea Sea Plate Plate (PSP)(PSP) towards towards the the Sunda Sunda Plate Plate (SP)(SP) (Figure (Figure 1). 1)
This work marks the first instance of the extensive use of Google Earth as a tool in mapping and determining the kinematics of active faults
Summary
Many landforms suggest youthfulness and are very useful in identifying the active traces or strands of fault zones. A variety of fault-formed structures, such as pressure ridges, sag ponds, shutter ridges, and systematically offset/deflected streams, have been documented by investigators, e.g., [19,20,21,22,23,24,25,26,27,28,29,30,31]. Neotectonic strip maps such as those for the San Andreas
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