Topographic Changes, Surface Deformation and Movement Process before, during and after a Rotational Landslide

The deformation characteristics and instability patterns of rotational landslides are complicated. Such landslides are large and occur continuously, seriously threatening people’s lives. We used interferometry synthetic aperture radar (InSAR), digital elevation models of difference (DODs), numerical...

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Published in	Remote sensing (Basel, Switzerland) Vol. 15; no. 3; p. 662
Main Authors	Ma, Shuyue, Qiu, Haijun, Zhu, Yaru, Yang, Dongdong, Tang, Bingzhe, Wang, Daozheng, Wang, Luyao, Cao, Mingming
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.02.2023
Subjects	Accuracy Aquifers Basins Deformation Digital Elevation Models Displacement Evolution failure mode Geomorphology InSAR Interferometric synthetic aperture radar Interferometry Kinematics landscapes Landslides Landslides & mudslides people Precipitation rain Rainfall Remote sensing Rill erosion rotational landslide Simulation synthetic aperture radar time series analysis Topography Unmanned aerial vehicles Tibetan Plateau Yellow River
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ISSN	2072-4292 2072-4292
DOI	10.3390/rs15030662

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Abstract	The deformation characteristics and instability patterns of rotational landslides are complicated. Such landslides are large and occur continuously, seriously threatening people’s lives. We used interferometry synthetic aperture radar (InSAR), digital elevation models of difference (DODs), numerical simulations, and other techniques for analyzing the topographic changes, surface deformation and movement process before, during and after a landslide. Based on the high-resolution terrain data before and after the landslide, the topographic changes were analyzed, and the active zone of the landslide was identified. The areas of the topographic changes were mainly located on the main scarp, toe and secondary landslides. The topographic changes were influenced by rainfall and rill erosion. The geomorphologically-guided InSAR interpretation method was applied to explore the displacement pattern. The deformation area in the middle of the landslide coincided with the secondary landslides. A time-series InSAR analysis revealed the dynamic evolution of the deformation before and after the landslide. Based on its evolution, the simulated landslide process included the main landslide and three secondary landslides. Based on the displacement of the longitudinal ground surface profiles, the displacement characteristics and kinematic behavior were summarized and compared with those of a single rotational landslide and multiple rotational landslides. The single rotational landslide had obvious secondary and progressive characteristics, developing into multiple rotational landslides triggered by conditions such as rainfall.
AbstractList	The deformation characteristics and instability patterns of rotational landslides are complicated. Such landslides are large and occur continuously, seriously threatening people’s lives. We used interferometry synthetic aperture radar (InSAR), digital elevation models of difference (DODs), numerical simulations, and other techniques for analyzing the topographic changes, surface deformation and movement process before, during and after a landslide. Based on the high-resolution terrain data before and after the landslide, the topographic changes were analyzed, and the active zone of the landslide was identified. The areas of the topographic changes were mainly located on the main scarp, toe and secondary landslides. The topographic changes were influenced by rainfall and rill erosion. The geomorphologically-guided InSAR interpretation method was applied to explore the displacement pattern. The deformation area in the middle of the landslide coincided with the secondary landslides. A time-series InSAR analysis revealed the dynamic evolution of the deformation before and after the landslide. Based on its evolution, the simulated landslide process included the main landslide and three secondary landslides. Based on the displacement of the longitudinal ground surface profiles, the displacement characteristics and kinematic behavior were summarized and compared with those of a single rotational landslide and multiple rotational landslides. The single rotational landslide had obvious secondary and progressive characteristics, developing into multiple rotational landslides triggered by conditions such as rainfall.
Author	Ma, Shuyue Zhu, Yaru Cao, Mingming Tang, Bingzhe Qiu, Haijun Yang, Dongdong Wang, Luyao Wang, Daozheng
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SubjectTerms	Accuracy Aquifers Basins Deformation Digital Elevation Models Displacement Evolution failure mode Geomorphology InSAR Interferometric synthetic aperture radar Interferometry Kinematics landscapes Landslides Landslides & mudslides people Precipitation rain Rainfall Remote sensing Rill erosion rotational landslide Simulation synthetic aperture radar time series analysis Topography Unmanned aerial vehicles
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Title	Topographic Changes, Surface Deformation and Movement Process before, during and after a Rotational Landslide
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