Abstract

The Tanlu fault zone, extending over 2400 km from South China to Russia, is one of the most conspicuous tectonic elements in eastern Asia. In this study, we processed the Global Positioning System (GPS) measurements of Anhui Continuously Operating Reference System (AHCORS) between January 2013 and June 2018 to derive a high-precision velocity field in the central and southern segments of the Tanlu fault zone. We integrated the AHCORS data with those publicly available for geodetic imaging of the interseismic coupling and slip rate deficit distribution in the central and southern segments of the Tanlu fault zone. This work aims at a better understanding of strain accumulation and future seismic hazard in the Tanlu fault zone. The result indicates lateral variation of coupling distribution along the strike of the Tanlu fault zone. The northern segment of the Tanlu fault zone has a larger slip rate deficit and a deeper locking depth than the southern segment. Then, we analyzed three velocity profiles across the fault. The result suggests that the central and southern segments of the Tanlu fault zone are characterized by right-lateral strike-slip (0.29–0.44 mm/y) with compression components (0.35–0.76 mm/y). Finally, we estimated strain rates using the least-squares collocation method. The result shows that the dilatation rates concentrate in the region where the principal strain rates are very large. The interface of extension and compression is always accompanied by sudden change of direction of principal strain rates. Especially, in the north of Anhui, the dilatation rate is largest, reaching 3.780×10−8/a. Our study suggests that the seismic risk in the northern segment of the Tanlu fault zone remains very high for its strong strain accumulation and the lack of historical large earthquakes.

Highlights

  • Publisher’s Note: MDPI stays neutralTanlu fault zone, which is mainly characterized by right-lateral strike-slip and reverse components, is one of the largest fault zones in eastern China [1,2]

  • Comparing the results of this inversion with the results integrating the near-field data of Anhui Continuously Operating Reference System (AHCORS), we found that the fault coupling ratios and slip rate deficit are quite similar

  • We found that slip rate deficit and locking depth in the north is higher and deeper than that in the south and it is more likely to produce strain accumulation

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Summary

Introduction

Tanlu fault zone, which is mainly characterized by right-lateral strike-slip and reverse components, is one of the largest fault zones in eastern China [1,2]. The Tanlu fault zone crosses multiple tectonic blocks from north to south and its internal structure is complex. Many earthquakes with magnitudes larger than Ms 5.0 have occurred in the Tanlu fault zone since the Quaternary [3]. In 1668, an Ms 8.5 earthquake occurred in Tancheng, located on the Yishu fault of the central segment of the Tanlu fault zone, resulting in huge casualties and property losses [4,5]. The Tanlu fault zone has been influenced by the far-field post-seismic effects of many large earthquakes during the past decades, such as the 2008

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