Abstract
The Dongbatu Shan (DBTS, also known as the Nanjie Shan), which interrupts the northern Tibetan foreland in the Dunhuang basin, is an active anticline. It has accommodated the northwestern growth of the eastern Altyn Tagh fault system (ATF). Although several thrust faults have been identified around the DBTS, their evolution history and influence on regional landscape have received little attention during the late-Quaternary. In this study, several geomorphic methods are used to investigate the interaction between drainage development and tectonic movement around DBTS. Based on high-resolution satellite images, field investigation, and cosmogenic nuclide 10Be dating method, the fluvial landform sequences around DBTS were constructed. Using quantitative geomorphology methods including landscape relief profile, asymmetry factor (AF), and transverse topographic symmetry factor (T), we hypothesize that drainage deflection is controlled by multi-segment fault growth. Combining the results of the above-mentioned methods, we propose that Yulin He, flowing across the DBTS, had gone through several abandonments since the late mid-Pleistocene due to the lateral propagation of DBTS. Affected by the discharge of channel and multi-segment fault growth, our research confirms that the direction of river abandonment may have decoupled with the mountain range propagation trend. Based on the chronology dating, the DBTS has gone through two severe uplifts since ∼208 ka and the shortening rate across the central DBTS is constrained to be ∼1.47 mm/yr since ∼83 ka. Given the fact that thrust faults are widely developed around DBTS, we propose that the flower-like structure formed by the northward growth of the eastern ATF could better explain the development of the secondary subparallel faults.
Highlights
The mechanism and kinematics of mountain ranges controlled by fault lateral growth had been a major concern for researchers due to their implications on seismic hazards and hydrocarbon reservoirs (Hetzel et al, 2004; Lacombe et al, 2007; Ramsey et al, 2008; Bretis et al, 2011; Ellis and Barnes, 2015)
Asymmetry factor (AF) (Hare and Gardner, 1985) and transverse topographic symmetry factor (T) (Cox, 1994) are two common quantitative geomorphology indexes used to evaluate drainage basin asymmetry, which have been proven as good indications of tectonic movement in southern Iberian Massif and Taiwan (Salvany, 2004; Ramsey et al, 2007)
Based on satellite image of Google earth and seismic reflection profiles, we have found that thrust faults are widely distributed around Dongbatu Shan (DBTS), and some are even developed in the Daba sub-basin, such that no sinistral feature has been found since the late mid-Pleistocene
Summary
The mechanism and kinematics of mountain ranges controlled by fault lateral growth had been a major concern for researchers due to their implications on seismic hazards and hydrocarbon reservoirs (Hetzel et al, 2004; Lacombe et al, 2007; Ramsey et al, 2008; Bretis et al, 2011; Ellis and Barnes, 2015). Drainage networks are sensitive to the surface slope and have been used to quantify how tectonic movement controls landform evolution Follow-on research suggests that three criteria among them provide the strongest evidence: 1) deformation of progressively younger landforms (Jackson et al, 2002; Bennett et al, 2005); 2) a series of elevation decreased air (wind) gaps (Hetzel et al, 2004; Ramsey et al, 2008); and 3) development of inherited drainage patterns (Ramsey et al, 2008; Keller and DeVecchio., 2013). A combination of different geomorphological constraints is needed to distinguish passive exhumation and active fold growth (Burbank and Anderson, 2001)
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