Northeastern Section - 47th Annual Meeting (18–20 March 2012)

Paper No. 4
Presentation Time: 9:00 AM

EVIDENCE FOR CRUSTAL-SCALE IMBRICATION AND NON-EQUILIBRIUM TOPOGRAPHY IN THE SOUTHERN CENTRAL RANGE, TAIWAN


BYRNE, Tim, Center for Integrative Geosciences, University of Connecticut, Storrs, CT 06269, OUIMET, William B., Geography, University of Connecticut, Beach Hall, Unit 2045, Storrs, CT 06269-4148, RAU, Ruey-Juin, Earth Sciences, National Cheng Kung University, Tainan, 701, Taiwan, HSIEH, Meng-Long, Earth and Environmental Sciences, National Chung Cheng University, Chiayi, 621, Taiwan and LEE, Yuan-Hsi, Earth and Environmental Sciences, 168 University Rd, Ming-Hsiung, Chia-Yi, 62102, Taiwan, tim.byrne@uconn.edu

We integrate a suite of new and recently re-interpreted profiles of the 3-D crustal velocity structure from the southern Central Range of Taiwan with geomorphic data from the range and propose that the topography is supported by a crustal-scale, west-verging thrust. The extent and geometry of the thrust is indicated by contours of P-wave velocity that are progressively overturned from south to north, placing high Vp rocks above low Vp rocks. The interpreted thrust dips gently east (15-20 degrees) and carries pre-Tertiary metamorphic rocks and Eocene to Miocene rocks with a well-developed slaty cleavage in its hanging wall. The thrust is interpreted to cut up section to the west and link with the basal detachment of the fold-and-thrust belt. Leveling data along the South Cross-Island Highway also suggest that the thrust is active. Along-strike profiles suggest that the thrust is propagating southward, consistent with a progressive decrease in mean elevation and an increase in reset apatite fission track ages from north to south.

The hanging wall of the propagating thrust also correlates with anomalous areas of low topographic relief that straddle the crest of the southern part of the range. The areas of low relief are fringed by stream channels with relatively high stream gradient indexes and do not appear related to weaker rock types, glacial erosion, or lower rock uplift rates along the range crest. We propose that the surfaces represent relict topography that formed prior to a recent acceleration in rock uplift rate, consistent with the presence of a propagating, crustal-scale thrust in the subsurface. Taken together, these results raise questions about the notion of steady state topography and critically tapered wedges in Taiwan.