Abstract
Identification and classification of landslides is a preliminary and crucial work for landslide risk assessment and hazard mitigation. The exploitation of surface deformation velocity derived from satellite synthetic aperture radar interferometry (InSAR) is a consolidated and suitable procedure for the recognition of active landslides over wide areas. However, the calculated displacement velocity from InSAR is one-dimensional motion along the satellite line of sight (LOS), representing a major hurdle for landslide type and failure mechanism classification. In this paper, different velocity datasets derived from both ascending and descending Sentinel-1 data are employed to analyze the surface ground movement of the Huangshui region (Northwestern China). With global warming, precipitation in the Huangshui region, geologically belonging to the loess basin in the eastern edge of Qing-Tibet Plateau, has been increasing, often triggering a large number of landslides, posing a potential threat to local citizens and natural and anthropic environments. After processing both SAR data geometries, the surface motion was decomposed to obtain the two-dimensional displacements (vertical and horizontal E–W). Thus, a classification criterion of the loess landslide types and failure mode is proposed, according to the analysis of deformation direction, velocities, texture, and topographic characteristics. With the support of high-resolution images acquired by remote sensing and unmanned aerial vehicle (UAV), 14 translational slides, seven rotational slides, and 10 loess flows were recognized in the study area. The derived results may provide solid support for stakeholders to comprehend the hazard of unstable slopes and to undertake specific precautions for moderate and slow slope movements.
Highlights
Chinese loess landslides, mainly located in the upper and middle sectors of the Yellow River in Northwest China, are recurrent and prevalent phenomena on the Loess Plateau [1]
Of large-scale landslides estimated estimated have a direct relationship with rainfall [2,3]; in addition, more extreme rainfall events have haverise a direct relationship with rainfall
[2,3]; in addition, moreto extreme rainfall events have given rise given to increasing occurrence of landslides as feedback environmental fluctuation, especially to increasing of landslides feedback environmental especially since the since the recent occurrence climate-change context as
Summary
Mainly located in the upper and middle sectors of the Yellow River in Northwest China, are recurrent and prevalent phenomena on the Loess Plateau [1]. Of large-scale landslides estimated estimated have a direct relationship with rainfall [2,3]; in addition, more extreme rainfall events have haverise a direct relationship with rainfall [2,3]; in addition, moreto extreme rainfall events have given rise given to increasing occurrence of landslides as feedback environmental fluctuation, especially to increasing of landslides feedback environmental especially since the since the recent occurrence climate-change context as [4,5].
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.