Geodesy and Geodynamics (Nov 2012)

Gravity inversion of deep-crust and mantle interfaces in the Three Gorges area

  • Wang Jian,
  • Shen Chongyang,
  • Ii Hui,
  • Sun Shaoan,
  • Xing Lelin

DOI
https://doi.org/10.3724/SP.J.1246.2012.0008
Journal volume & issue
Vol. 3, no. 4
pp. 7 – 17

Abstract

Read online

To better understand the heterogeneity of deep-crust and mantle interfaces in the region of the Three Gorges, China, we used the Parker-Oldenburg iterative inversion method to invert existing Bouguer gravity data from the Three Gorges area (1 : 500000), a new gravity map of the Three Gorges Dam (1 : 200000), and the results of deep seismic soundings. The inversion results show a Moho depth of 42 km between Badong and Zigui and the depth of the B2 lower-crustal interface beneath the Jianghan Plain and surrounding areas at 21–25 km. The morphology of crustal interfaces and the surface geology present an overpass structure. The mid-crust beneath the Three Gorges Dam is approximately 9 km thick, which is the thinnest in the Three Gorges area and may be related to the shallow low-density body near the Huangling anticline. The upper crust is seismogenic, and there is a close relationship between seismicity and the deep-crust and mantle interfaces. For example, the M5. 1 Zigui earthquake occurred where the gradients of the Moho and the B2 interface are the steepest, showing that deep structure has a very important effect on regional seismicity.

Keywords