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Interaction between internal solitary waves and the seafloor in the deep sea
https://orcid.org/0000-0002-6262-560X
AbstractInternal solitary wave (ISW), as a typical marine dynamic process in the deep sea, widely exists in oceans and marginal seas worldwide. The interaction between ISW and the seafloor mainly occurs in the bottom boundary layer. For the seabed boundary layer of the deep sea, ISW is the most important dynamic process. This study analyzed the current status, hotspots, and frontiers of research on the interaction between ISW and the seafloor by CiteSpace. Focusing on the action of ISW on the seabed, such as transformation and reaction, a large amount of research work and results were systematically analyzed and summarized. On this basis, this study analyzed the wave–wave interaction and interaction between ISW and the bedform or slope of the seabed, which provided a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor. Finally, the latest research results of the bottom boundary layer and marine engineering stability by ISW were introduced, and the unresolved problems in the current research work were summarized. This study provides a valuable reference for further research on the hazards of ISW to marine engineering geology.
Highlights The latest research results of the interaction between internal solitary waves (ISWs) and the seafloor are introduced, and the unresolved problems in the current research work are summarized. ISW generates forces and shear on the seafloor and thus affects sediment suspension in the deep bottom boundary layer. This study provides a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor.
Interaction between internal solitary waves and the seafloor in the deep sea
https://orcid.org/0000-0002-6262-560X
AbstractInternal solitary wave (ISW), as a typical marine dynamic process in the deep sea, widely exists in oceans and marginal seas worldwide. The interaction between ISW and the seafloor mainly occurs in the bottom boundary layer. For the seabed boundary layer of the deep sea, ISW is the most important dynamic process. This study analyzed the current status, hotspots, and frontiers of research on the interaction between ISW and the seafloor by CiteSpace. Focusing on the action of ISW on the seabed, such as transformation and reaction, a large amount of research work and results were systematically analyzed and summarized. On this basis, this study analyzed the wave–wave interaction and interaction between ISW and the bedform or slope of the seabed, which provided a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor. Finally, the latest research results of the bottom boundary layer and marine engineering stability by ISW were introduced, and the unresolved problems in the current research work were summarized. This study provides a valuable reference for further research on the hazards of ISW to marine engineering geology.
Highlights The latest research results of the interaction between internal solitary waves (ISWs) and the seafloor are introduced, and the unresolved problems in the current research work are summarized. ISW generates forces and shear on the seafloor and thus affects sediment suspension in the deep bottom boundary layer. This study provides a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor.
Interaction between internal solitary waves and the seafloor in the deep sea
https://orcid.org/0000-0002-6262-560X
AbstractInternal solitary wave (ISW), as a typical marine dynamic process in the deep sea, widely exists in oceans and marginal seas worldwide. The interaction between ISW and the seafloor mainly occurs in the bottom boundary layer. For the seabed boundary layer of the deep sea, ISW is the most important dynamic process. This study analyzed the current status, hotspots, and frontiers of research on the interaction between ISW and the seafloor by CiteSpace. Focusing on the action of ISW on the seabed, such as transformation and reaction, a large amount of research work and results were systematically analyzed and summarized. On this basis, this study analyzed the wave–wave interaction and interaction between ISW and the bedform or slope of the seabed, which provided a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor. Finally, the latest research results of the bottom boundary layer and marine engineering stability by ISW were introduced, and the unresolved problems in the current research work were summarized. This study provides a valuable reference for further research on the hazards of ISW to marine engineering geology.
Highlights The latest research results of the interaction between internal solitary waves (ISWs) and the seafloor are introduced, and the unresolved problems in the current research work are summarized. ISW generates forces and shear on the seafloor and thus affects sediment suspension in the deep bottom boundary layer. This study provides a new perspective for an in‐depth understanding of the interaction between ISW and the seafloor.
Interaction between internal solitary waves and the seafloor in the deep sea
Deep Underground Science and Engineering
Tian, Zhuangcai (author) / Huang, Jinjian (author) / Xiang, Jiaming (author) / Zhang, Shaotong (author) / Wu, Jinran (author) / Liu, Xiaolei (author) / Luo, Tingting (author) / Yue, Jianhua (author)
Deep Underground Science and Engineering ; 3 ; 149-162
2024-06-01
Article (Journal)
Electronic Resource
English
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