Failure mechanisms of carbonate rock landslides: structure, karst generation and reservoir water fluctuations

Carbonate rock landslides are a worldwide phenomenon often accompanied by faults and karstification. However, the formation mechanism and research method for this type of landslide have not been extensively investigated. The Baihetan hydropower station is located in China. It is the second largest h...

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Published inGeomorphology (Amsterdam, Netherlands) Vol. 489; p. 109975
Main Authors Chen, Taiyi, Sanjou, Michio, Hiraishi, Tetsuya, Xu, Guangli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2025
Subjects
Baihetan Reservoir area
Carbonate rock landslides
Fault zone
Karstification
Riedel shear structures
Carbonate rock landslides
Fault zone
Karstification
Riedel shear structures
Baihetan Reservoir area
Online AccessGet full text
ISSN0169-555X
DOI10.1016/j.geomorph.2025.109975

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Abstract Carbonate rock landslides are a worldwide phenomenon often accompanied by faults and karstification. However, the formation mechanism and research method for this type of landslide have not been extensively investigated. The Baihetan hydropower station is located in China. It is the second largest hydropower station and its water level fluctuation range is the largest in the world. The Gengdi landslide in the Baihetan Reservoir area that began impounding in April 2021 is selected as the research subject. The inherent structural features and karstification in this region control the slope stability and failure behavior from the micro- to macro-scale. The regularity and systematization of the idealized Riedel shear model, fault zone model, and karstification model of the landslide are observed through regional structure, field outcrop, in-situ test, and laboratory test. The findings indicated that failure mechanisms are associated with the strike-slip fault and carbonate rock deterioration. The evolution process is compared using numerical simulation results and on-site monitoring data, emphasizing the effect of the structural geological environment and reservoir water fluctuations on the landslide. The fault gouge and carbonaceous slates are rich in ferrous sulfide and iron dissolution in basalt, which aggravates the deterioration of carbonate rocks. A physical and karstification model of the reaction zone is established, and the mechanism of dissolution and seepage effect on fault zone deformation is analyzed quantitatively. Fault zone, palaeokarst and reservoir water fluctuations jointly promote the formation of carbonate rock mass landslides. The findings provide a deeper insight into identifying and understanding the mechanical properties of reservoir carbonate rock landslides under the influence of strike-slip faults. •The spatial model of faults and palaeokarst control the failure mechanisms.•The disaster-inducing effects of dissolution and seepage are presented.•A model of faults-dissolution-reservoir water for landslides has been proposed.
AbstractList Carbonate rock landslides are a worldwide phenomenon often accompanied by faults and karstification. However, the formation mechanism and research method for this type of landslide have not been extensively investigated. The Baihetan hydropower station is located in China. It is the second largest hydropower station and its water level fluctuation range is the largest in the world. The Gengdi landslide in the Baihetan Reservoir area that began impounding in April 2021 is selected as the research subject. The inherent structural features and karstification in this region control the slope stability and failure behavior from the micro- to macro-scale. The regularity and systematization of the idealized Riedel shear model, fault zone model, and karstification model of the landslide are observed through regional structure, field outcrop, in-situ test, and laboratory test. The findings indicated that failure mechanisms are associated with the strike-slip fault and carbonate rock deterioration. The evolution process is compared using numerical simulation results and on-site monitoring data, emphasizing the effect of the structural geological environment and reservoir water fluctuations on the landslide. The fault gouge and carbonaceous slates are rich in ferrous sulfide and iron dissolution in basalt, which aggravates the deterioration of carbonate rocks. A physical and karstification model of the reaction zone is established, and the mechanism of dissolution and seepage effect on fault zone deformation is analyzed quantitatively. Fault zone, palaeokarst and reservoir water fluctuations jointly promote the formation of carbonate rock mass landslides. The findings provide a deeper insight into identifying and understanding the mechanical properties of reservoir carbonate rock landslides under the influence of strike-slip faults. •The spatial model of faults and palaeokarst control the failure mechanisms.•The disaster-inducing effects of dissolution and seepage are presented.•A model of faults-dissolution-reservoir water for landslides has been proposed.
ArticleNumber 109975
Author Sanjou, Michio
Xu, Guangli
Hiraishi, Tetsuya
Chen, Taiyi
Author_xml – sequence: 1
  givenname: Taiyi
  surname: Chen
  fullname: Chen, Taiyi
  email: chentaiyi1218@cug.edu.cn
  organization: Faculty of Engineering, China University of Geosciences, Wuhan 430074, China
– sequence: 2
  givenname: Michio
  surname: Sanjou
  fullname: Sanjou, Michio
  email: sanjou.michio.6c@kyoto-u.ac.jp
  organization: Disaster Prevention Research Institute (DPRI), Kyoto University, Fushimi-ku, Kyoto 612-8236, Japan
– sequence: 3
  givenname: Tetsuya
  surname: Hiraishi
  fullname: Hiraishi, Tetsuya
  email: hiraishi_t@cdit.or.jp
  organization: Coastal Development Institute of Technology, Kobe 650-0032, Japan
– sequence: 4
  givenname: Guangli
  surname: Xu
  fullname: Xu, Guangli
  email: xu1963@cug.edu.cn
  organization: Faculty of Engineering, China University of Geosciences, Wuhan 430074, China
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Keywords Carbonate rock landslides
Fault zone
Karstification
Riedel shear structures
Baihetan Reservoir area
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Snippet Carbonate rock landslides are a worldwide phenomenon often accompanied by faults and karstification. However, the formation mechanism and research method for...
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SubjectTerms Baihetan Reservoir area
Carbonate rock landslides
Fault zone
Karstification
Riedel shear structures
Title Failure mechanisms of carbonate rock landslides: structure, karst generation and reservoir water fluctuations
URI https://dx.doi.org/10.1016/j.geomorph.2025.109975
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