Detection and assessment of potential landslides in the Xiaojiang River Basin using SBAS-InSAR

Detection and assessment of potential landslides in the Xiaojiang River Basin using SBAS-InSAR

Abstract The Xiaojiang River Basin is susceptible to debris flows and landslides due to its unique geological environment and historically frequent human activities. For large-scale landslide identification, traditional ground-based surveying techniques are insufficient due to limitations in data ac...

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Bibliographic Details
Main Authors: Jianming Zhang, Xiaoqing Zuo, Yongfa Li, Mengyao Shi, Chao Shi, Cheng Huang, Xiongfei Tang
Format: Article
Language:English
Published: Nature Portfolio 2025-05-01
Series:Scientific Reports
Subjects:
SBAS-InSAR
Multi-directional deformation
Potential landslide detection
Rainfall impact
Xiaojiang River Basin
Online Access:https://doi.org/10.1038/s41598-025-00490-9
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Summary:Abstract The Xiaojiang River Basin is susceptible to debris flows and landslides due to its unique geological environment and historically frequent human activities. For large-scale landslide identification, traditional ground-based surveying techniques are insufficient due to limitations in data acquisition and operation capabilities. Interferometric Synthetic Aperture Radar (InSAR) is an advanced technology for wide-area ground deformation monitoring and has proven to be highly effective in detecting subtle surface deformations. To better understand the distribution and activity characteristics of landslides in the Xiaojiang River Basin, the ascending and descending SAR images from the Sentinel-1 A satellite between 2014 and 2018 were processed with SBAS-InSAR. Through multi-directional deformation analysis, 59 potential landslides were identified, with a total area of approximately 55.91 km2. By collating previous studies and field surveying results, we found that 25 of these landslides had been previously recorded, while 34 were newly detected. Analysis of the impact of rainfall on landslide deformation indicated that prolonged precipitation was a primary driving factor for landslide destabilization. Additionally, we assessed the accuracy of the InSAR measurements using geometric distortions and the monitoring sensitivity model. This research could advance our understanding of landslide dynamics in the Xiaojiang River Basin, providing crucial insights for future mitigation and research strategies.
ISSN:2045-2322

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