Paper summaries 2013

3D geomechanical restoration and paleomagnetic analysis of fault-related folds: An example from the Yanjinggou anticline, southern Sichuan Basin

Y. Li, D. Jia, A. Plesch, J. Hubbard, J. H. Shaw, M. Wang (2013). 3D geomechanical restoration and paleomagnetic analysis of fault-related folds: An example from the Yanjinggou anticline, southern Sichuan Basin. Journal of Structural Geology 54, p. 199-214, https://doi.org/10.1016/j.jsg.2013.06.009.

Highlights

  • We construct 3D structural and strain restoration models of the Yanjinggou anticline.

  • AMS analysis is applied to study the finite strain of this fold in Sichuan Basin.

  • Paleomagnetic results provide insights into formation of Yanjinggou curve structure.

  • We discuss the structural activity in the southern Sichuan basin.


Active Fault‐Related Folding beneath an Alluvial Terrace in the Southern Longmen Shan Range Front, Sichuan Basin, China: Implications for Seismic Hazard

M. Wang, D. Jia, J. H. Shaw, J. Hubbard, A. Lin, Y. Li, L. Shen (2013). Active fault-related folding beneath an alluvial terrace in the southern Longmen Shan range front, Sichuan basin, China: Implicationsfor seismic hazards. Bulletin of the Seismological Society of America 103, p. 2369-2385, https://doi.org/10.1785/0120120188.

Abstract: The devastating 2008 Mw 7.9 Wenchuan earthquake, China, demonstrates that the central and northern parts of the Longmen Shan are currently active. Evidence for active faulting and folding in the southern Longmen Shan, however, remains poorly documented. In this paper, we define the structural geometry, fault kinematics, and seismic hazard of the Qiongxi thrust fault system (QTF) along the southern Longmen Shan range front by integrating deep and shallow seismic‐reflection data and geomorphic observations. The QTF is a 50 km long, north–south‐trending set of faults and associated folds that exhibit geomorphic evidence of Quaternary surface deformation. Geomorphic observations and seismic‐reflection data reveal that these faults dip steeply to the east and merge at depth with a blind, west‐dipping thrust ramp. The trend and reverse sense of slip along the QTF indicates that the structure accommodates east–west crustal shortening. Based on uplift of stratigraphic horizons across the fault zone, we define a Late Pliocene–to–Early Pleistocene fault slip rate of 0.2–0.3  mm/yr and a Middle Pleistocene–to–present rate of 0.4–1.2  mm/yr on the west‐dipping thrust ramp. This ramp soles to a basal detachment in the Triassic section at a depth of 4.5–5.5 km. To the west, this detachment steps down onto a blind, northwest‐dipping thrust termed the Range Front thrust. A rupture of the QTF in combination with the Range Front thrust could generate an Mw 7.8 earthquake with average displacement of 5.7 m. This type of earthquake source poses significant hazards to the adjacent, highly populated Sichuan basin.