Three-dimensional crustal velocity structure of P-wave in East China from wide-angle reflection and refraction surveys

• Published in: Chinese science bulletin Vol. 54; no. 8; pp. 1389 - 1397
• Main Authors: Zhao, ZhiXin, Xu, JiRen
• Format: Journal Article
• Language: English
• Published: Heidelberg SP Science in China Press 01.04.2009
• Subjects: Articles/Geophysics; Chemistry/Food Science; Earth Sciences; Engineering; Humanities and Social Sciences; Life Sciences; multidisciplinary; Physics; P波速度; Science; Science (multidisciplinary); 地壳速度结构; 大别山地区; 广角反射; 郯庐断裂带; Moho discontinuity; Crustal velocity structure; left lateral strike-slip motion; Dabie-Sulu orogen; wide-angle reflection and refraction survey
• ISSN: 1001-6538; 2095-9273; 1861-9541; 2095-9281
• DOI: 10.1007/s11434-009-0022-9

The 3-D crustal structure of P-wave velocity in East China is studied based on the data obtained by wide-angle seismic reflection and refraction surveys. The results suggest that a deep Moho disconti- nuity exists in the western zone of the study region, being 35--48 thick. High-velocity structure zones exist in the upper crust shallower than 20 km beneath the Sulu and Dabie regions. The cause of high-velocity zones is attributable to high-pressure metamorphic （HPM） and ultra-high-pressure metamorphic （UHPM） terranes with high velocity and density exhuming up to the upper crust in the Sulu and Dabie orogenies. Anomalous zones of low velocity are in the lower crust, about 30 km beneath the Sulu and Dabie regions. The Moho discontinuity is as deep as 38 km beneath the Dabie region, deeper than those in the surrounding areas. The Moho discontinuity beneath the Sulu orogenic region is also a little deeper than those in its vicinity, being about 32 kin. The deep Moho discontinuity zone implies that the low crustal velocity structure zone is in that region. The low-velocity characteristics in the lower crust are probably related to the remnant crustal root of the old mountains due to the orogeny in the Sulu and Dabie regions. The high-velocity anomalous zones in the upper crust and low-velocity anomalous zones in the lower crust beneath the Sulu region are all located northeast of the northern segment of the Tan-Lu fault. However, the high- and low-velocity anomalous zones beneath the Dabie region are located southwest of the southern segment of the Tan-Lu fault. Such a distribution of the velocity-anomalous zones looks to be attributable a left lateral slip motion along the Tan-Lu fault. The distribution pattern of the velocity-anomalous zones may show some evidence for the left strike-slip motion regime of the Tan-Lu fault.