Frontiers in Earth Science (Jan 2023)

In situ observation of wave-induced deformation of submarine landslides in tidal channel areas

  • Liang Xue,
  • Liang Xue,
  • Hanlu Liu,
  • Hanlu Liu,
  • Zhenghui Li,
  • Zhenghui Li,
  • Zhongqiang Sun,
  • Zhongqiang Sun,
  • Hongxian Shan,
  • Hongxian Shan,
  • Hongxian Shan,
  • Yonggang Jia,
  • Yonggang Jia,
  • Yonggang Jia

DOI
https://doi.org/10.3389/feart.2022.933031
Journal volume & issue
Vol. 10

Abstract

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Landslides often occur in land slopes, estuaries, fjords, and intertidal zones in the marine environment, while landslides in tidal channels have not been systematically reported. The Zhoushan sea area is dotted with islands and crisscross tidal channels, which is a typical tidal channel development area. The data from the coastal zone and island survey, offshore engineering site selection, and environmental survey show that landslides are very common in tidal channel areas. The detailed study of this kind of landslide will enrich the research theory of submarine landslide and have important guiding significance for marine planning, development and site selection, and construction of coastal engineering in coastal areas. First, the submarine landslide in southwest of Zhujiajian Island in Zhoushan is investigated in this study. It is found that the sliding zone is parallel to the island coastline, with a length of about 250 m and an extension of 2 km, and the buried depth of the sliding surface is generally 8–10 m; then, through the self-developed seabed deformation observation system, combined with the hydrodynamic observation system, the landslide was observed in situ for 75 days. The observation results showed that the landslide slides at a constant speed along the sliding surface under the action of weight; the slides accelerate under the action of waves, and multiple sliding surfaces are generated in the landslide body at the same time. Finally, the genetic mechanism of submarine landslides in tidal channel areas is put forward.

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