Wave-induced seafloor instabilities in the subaqueous Yellow River Delta—initiation and process of sediment failure

Autor:	Xiaolei Liu, Yongfu Sun, Dongdong Zhao, Song Yupeng, Yonggang Jia, Hongxian Shan, Shipeng Wen, Mingzheng Wen, Zhigang Shan, Wang Zhenhao, Shaotong Zhang
Rok vydání:	2020
Předmět:	021110 strategic defence & security studies geography River delta geography.geographical_feature_category 0211 other engineering and technologies Sediment Landslide 02 engineering and technology Geotechnical Engineering and Engineering Geology Seafloor spreading Flume Wave flume Geomorphology Seabed Geology 021101 geological & geomatics engineering Submarine landslide
Zdroj:	Landslides. 17:1849-1862
ISSN:	1612-5118 1612-510X
DOI:	10.1007/s10346-020-01399-2
Popis:	Submarine sediment failures or landslides triggered by storm waves in river delta areas pose a significant risk to coastal infrastructure. Due to the limitations of in situ monitoring technology, existing investigations are mostly carried out with geophysical techniques to provide some basic characteristics (e.g. location, size, runout distance, volume, and potential triggers) of existing submarine landslides. However, it is of equal importance to identify the starting criterion and the in situ evolutionary process of the initial stage of seafloor instabilities—sediment failure, which naturally relies heavily on long-term field observations. A field monitoring system was developed for observing sediment failure, which successfully recorded the wave-induced seabed deformation in the subaqueous Yellow River Delta for the first time. Once sediment failure is initiated, the shallow soil undergoes periodic and reciprocating oscillations under alternating action of wave crests and troughs. The evolution of the maximum deformation depth interface moves from shallow to deep, and then migrates upward from deep to shallow layers (the shallow-deep-shallow pattern), which indicates a stability recovery process following the wave-induced seabed failure, and these processes were found to occur multiple times within one storm event. Laboratory wave flume experimental results reproduced and verified the field observations, while also providing pore pressure data which explains the initiation of sediment failure and the deformation process. Finally, a development pattern of the seafloor instabilities in the subaqueous Yellow River Delta is proposed. The in situ observation methods proposed and the knowledge acquired by field monitoring and flume testing could benefit the investigation of costal seafloor instabilities.
Databáze:	OpenAIRE
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