4.7 Article

Formation and Hazard Analysis of Landslide Damming Based on Multi-Source Remote Sensing Data

Journal

REMOTE SENSING
Volume 15, Issue 19, Pages -

Publisher

MDPI
DOI: 10.3390/rs15194691

Keywords

rainfall-induced landslide; barrier lake; hazard chain; hazard prediction

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Remote sensing is of great importance in the study of natural hazards. This research examines the formation and potential outburst scenarios of a small-scale landslide hazard chain event through the comprehensive use of remote sensing data, InSAR technology, ERT, and numerical simulations. The findings provide valuable insights for analyzing and managing similar hazard chains.
Remote sensing plays an increasingly important role in the investigation of natural hazards, not only by obtaining specific data related to hazards, but also by realizing targeted research by combining with other data and/or technologies. Small-scale landslide hazard chain events occur frequently in mountainous areas with fragile geological environments and have strong destructive effects, yet have been somewhat understudied. This paper analyzes the Zhoujiaba (ZJB) landslide hazard chain that occurred in Longnan City on 18 August 2020. On the basis of the comprehensive application of multi-source remote sensing data, combined with time-series InSAR technology, electrical resistivity tomography (ERT), and numerical simulations, we studied the formation mechanism, damming characteristics, and potential outburst scenarios of this event. Our research suggests that geological structure and strong natural weathering are the preconditions for landslide development, which is eventually induced by extreme rainfall. Specific topographic conditions determine the rapid sliding and accumulation of landslide materials, and ultimately result in river damming. Our simulation results showed that a flood, rather than a debris flow, will be the result of dam outburst. When the simulated upstream inflow is 1.5 times that when the landslide occurred, 68% of the downstream village area will be flooded. The artificial spillway can effectively reduce the scale of the potential outburst flood, but there remains a risk of dam failure owing to the shallow depth. Our study of the hazard chain of a small-scale landslide using a combination of methods will provide a valuable reference for the analysis and treatment of similar hazard chains.

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