Deep physical structure and geotectonic implications of the eastern margin of the Qinghai–Tibet Plateau

Abstract: The eastern margin of the Qinghai-Tibet Plateau (QTP) is the focus of studies on eastward lateral extrusion of the latter's crustal material. This study aims to explore the structural response of the QTP's eastern crust-mantle to the extrusion, and the basis for the latter's geological structure. Data on the long-period magnetotelluric sounding of cross-tectonic units and Bouguer gravity were used to determine the physical structure of the crust-mantle at the plateau's eastern margin. The findings are as follo… Show more

“…In the Cenozoic, it reflected the massive movement of block and overall uplifting along the large boundary strike-slip fault; it was stable inside the block, but tectonic shortening was absent. In this period, the Longmen Shan demonstrated obvious tectonic shortening and uplifting; the tectonic shortening was confined in the Longmen Shan, being local shortening (Li et al, 2006;Densmore et al, 2007). The restoration of the Longmen Shan crustal shortening by using the technology of structure balanced section reveals that the minimum crustal shortening rate of the Longmen Shan occurred since the Pliocene (4 Ma), which was about 2 mm/a (Fig.…”

“…The Longmen Shan is an independent intra-continental orogenic belt. It develops the Maowen fault in the back margin, which is a detachment fault (ETD, Xu Zhiqin et al, 2007) or shear zone (Li et al, 2006), the Beichuan fault in the central region, which is a thrust with dextral slip fault, and the Pengguan fault in the front margin, which is a thrust with dextral slip fault (Li et al, 2006;Densmore et al, 2007). In the present-day Longmen Shan area, the horizontal movement rate is quite small (the movement rate of GPS is about 1-3 mm/a, Zhang et al, 2004), and the rate of vertical uplifting is also very small about 0.3-0.4 mm/a (Li Yong et al, 1994).…”

“…The distal edge (close to foreland slope in the craton) has small thickness (about 1000 m) and low subsidence rate (about 0.05 mm/a), overlapping the forebulge (Kaijiang-Luzhou uplift) in the east. The forebulge is well developed, and the uplifting and denudation are intensive (Li Yong et al, 1995, 2006. In its east part, the back-bugle basin is developed ( Fig.…”

“…2 389 ACTA GEOLOGICA SINICA (English Edition) http://www.geojournals.cn/dzxben/ch/index.aspx http://mc.manuscriptcentral.com/ags wedge-shaped foreland basin in the early stage, and the coupling mechanism between crustal isostatic rebound and tabular foreland basin in the late stage. With consideration to the unique features of the Jurassic foreland basin, and based on the Burbank model (1992), Li Yong et al (1994, 1998, 2006, 2013 proposed the coupling mechanism of crustal shortening, crustal isostatic rebound of the Longmen Shan and the foreland basin, and indicated that crustal shortening and crustal isostatic rebound of the Longmen Shan were different dynamic mechanisms driving the formation and evolution of the foreland basin. The Longmen Shan was once in two states, i.e.…”

“…The tectonic shortening of the present-day Longmen Shan was confined between the back margin fault and the front margin fault, which presented as limited crustal shortening (Li et al, 2006;Densmore et al, 2007). The back margin fault is shown as a large detachment fault or shear zone (Xu Zhiqin et al, 2007), and divides the Longmen Shan and the Tibetan Plateau into two geological bodies (the Sichuan-Qinghai block or the Songpan-Garzê fold belt).…”

The Coupling Relationship between the Uplift of Longmen Shan and the Subsidence of Foreland Basin, Sichuan, China

“…In the Cenozoic, it reflected the massive movement of block and overall uplifting along the large boundary strike-slip fault; it was stable inside the block, but tectonic shortening was absent. In this period, the Longmen Shan demonstrated obvious tectonic shortening and uplifting; the tectonic shortening was confined in the Longmen Shan, being local shortening (Li et al, 2006;Densmore et al, 2007). The restoration of the Longmen Shan crustal shortening by using the technology of structure balanced section reveals that the minimum crustal shortening rate of the Longmen Shan occurred since the Pliocene (4 Ma), which was about 2 mm/a (Fig.…”

“…The Longmen Shan is an independent intra-continental orogenic belt. It develops the Maowen fault in the back margin, which is a detachment fault (ETD, Xu Zhiqin et al, 2007) or shear zone (Li et al, 2006), the Beichuan fault in the central region, which is a thrust with dextral slip fault, and the Pengguan fault in the front margin, which is a thrust with dextral slip fault (Li et al, 2006;Densmore et al, 2007). In the present-day Longmen Shan area, the horizontal movement rate is quite small (the movement rate of GPS is about 1-3 mm/a, Zhang et al, 2004), and the rate of vertical uplifting is also very small about 0.3-0.4 mm/a (Li Yong et al, 1994).…”

“…The distal edge (close to foreland slope in the craton) has small thickness (about 1000 m) and low subsidence rate (about 0.05 mm/a), overlapping the forebulge (Kaijiang-Luzhou uplift) in the east. The forebulge is well developed, and the uplifting and denudation are intensive (Li Yong et al, 1995, 2006. In its east part, the back-bugle basin is developed ( Fig.…”

“…2 389 ACTA GEOLOGICA SINICA (English Edition) http://www.geojournals.cn/dzxben/ch/index.aspx http://mc.manuscriptcentral.com/ags wedge-shaped foreland basin in the early stage, and the coupling mechanism between crustal isostatic rebound and tabular foreland basin in the late stage. With consideration to the unique features of the Jurassic foreland basin, and based on the Burbank model (1992), Li Yong et al (1994, 1998, 2006, 2013 proposed the coupling mechanism of crustal shortening, crustal isostatic rebound of the Longmen Shan and the foreland basin, and indicated that crustal shortening and crustal isostatic rebound of the Longmen Shan were different dynamic mechanisms driving the formation and evolution of the foreland basin. The Longmen Shan was once in two states, i.e.…”

“…The tectonic shortening of the present-day Longmen Shan was confined between the back margin fault and the front margin fault, which presented as limited crustal shortening (Li et al, 2006;Densmore et al, 2007). The back margin fault is shown as a large detachment fault or shear zone (Xu Zhiqin et al, 2007), and divides the Longmen Shan and the Tibetan Plateau into two geological bodies (the Sichuan-Qinghai block or the Songpan-Garzê fold belt).…”

The Coupling Relationship between the Uplift of Longmen Shan and the Subsidence of Foreland Basin, Sichuan, China