Abstract
Surface and limited seismic data have been used to construct new cross sections across the southwestern Taiwan Fold and Thrust Belt. South of Chiayi, the best fit to the data is achieved if the detachment lies at a depth of 10 to 12km, stepping up to about 6km to the west. The Chukou fault and its extension to the south (Lunhou fault) are not the frontal structures in this area. Available data indicate the frontal structure may be composed of incipient reactivated normal faults in the north and triangle zones in the south. Published leveling data show that, whatever the structure, it is growing. From north of Chiayi to the south the salient nature of the structures of the Foothills province include: 1) a considerable amount of pre-Miocene strata are involved in the deformation. The involvement of pre-Miocene decreases to the south, but the depth of the basal detachment does not change due to the thickening of the Miocene and younger section;2)the involvement of pre-existing normal faults and consequent 'basement' highs affecting the trajectory of thrust ramps abruptly ends south of Chiayi, separated by buried transverse faults from, 3) the thick foreland synorogenic stratigraphic sequence rides passively above the duplex wedge. Current seismicity appears to have no correlation to the interpreted locations of faults, whether thrust, normal or strike-slip. Preliminary GPS data from this portion of the fold and thrust belt indicates, as first shown by Yu and Chen (1994), that structures are generally moving westward with respect to the Chinese craton. However, our data show abrupt changes in horizontal velocity, not all of which are associated with mapped faults. There is a region of high horizontal velocity and strain rate to the east of the Chukou-Lunhou fault. On a finer scale, the velocities can vary greatly over distances of as little as 10km.Some thrust sheets appear to be rotating counterclockwise around a vertical axis whereas others appear to be moving uniformly westward. Horizontal velocities are uniformly low in the Coastal Plain although they increase from west to east into the region of folding and blind thrusting in the footwall of the Chukou-Lunhou fault. The eastward increasing of shortening velocity in the Foothills Belt implies that a common detachment exists at depth or thrusts in the east of the Chukou-Lunhou fault are also active or both.
Highlights
The fold-and-thrust belt of southwestern Taiwan (Figure 1) is an active zone of compressional deformation
Other permissible structural models may include thick-skinned tectonics (e.g., Wu et al, 1997) in which high-angle reverse faults are inverted from normal faults developed during rifting stages
From previous analyses of the Global Positioning System (GPS) determined surface kinematics in the Fold and Thrust Belt of southwestern Taiwan, except for the local variations mentioned above, there appears to be a comparable correlation between the horizontal velocity field from our data (Figure 6) and the strain field from previous studies
Summary
The fold-and-thrust belt of southwestern Taiwan (Figure 1) is an active zone of compressional deformation This area is characterized by short recurrence interval seismicity and millimeter to centimeter per year surface motion, in the vicinity of the Chukou fault (CKF). Many of the 17 destructive historical earthquakes (Cheng and Yeh, 1989) felt in the heavily populated Chianan Plain to the west may have been due to slip along the CKF as well Both geological and topographical evidence indicate that the alluvial terraces located in the footwall of the CKF were tilted westward by the encroaching Chukou thrust to the east (Huang et al, 1994).
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