Data from: Using network science to evaluate vulnerability of landslides on Big Sur Coast, California, USA
Data files
Aug 13, 2024 version files 714.34 MB
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Coords_01.csv
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Coords_02.csv
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Coords_03.csv
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Coords_04.csv
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Coords_05.csv
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Coords_06.csv
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Coords_07.csv
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Coords_08.csv
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Coords_09.csv
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Coords_10.csv
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Coords_11.csv
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Coords_12.csv
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Coords_13.csv
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Coords_14.csv
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Coords_15.csv
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Coords_16.csv
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Coords_17.csv
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EdgeList_SubRegion01.csv
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EdgeList_SubRegion02.csv
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EdgeList_SubRegion03.csv
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EdgeList_SubRegion04.csv
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EdgeList_SubRegion05.csv
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EdgeList_SubRegion06.csv
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EdgeList_SubRegion07.csv
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EdgeList_SubRegion08.csv
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EdgeList_SubRegion09.csv
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EdgeList_SubRegion10.csv
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EdgeList_SubRegion11.csv
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EdgeList_SubRegion12.csv
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EdgeList_SubRegion13.csv
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EdgeList_SubRegion14.csv
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EdgeList_SubRegion15.csv
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EdgeList_SubRegion16.csv
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EdgeList_SubRegion17.csv
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InSAR.csv
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InterferogramList.csv
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Landslides.zip
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README.md
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SlopeWeightedEdges_SubRegion01.csv
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SlopeWeightedEdges_SubRegion02.csv
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SlopeWeightedEdges_SubRegion03.csv
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SlopeWeightedEdges_SubRegion04.csv
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SlopeWeightedEdges_SubRegion05.csv
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SlopeWeightedEdges_SubRegion06.csv
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SlopeWeightedEdges_SubRegion07.csv
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SlopeWeightedEdges_SubRegion08.csv
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SlopeWeightedEdges_SubRegion09.csv
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SlopeWeightedEdges_SubRegion10.csv
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SlopeWeightedEdges_SubRegion11.csv
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SlopeWeightedEdges_SubRegion12.csv
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SlopeWeightedEdges_SubRegion13.csv
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SlopeWeightedEdges_SubRegion14.csv
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SlopeWeightedEdges_SubRegion15.csv
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SlopeWeightedEdges_SubRegion16.csv
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SlopeWeightedEdges_SubRegion17.csv
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SubRegions.zip
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VelocityWeightedEdges_SubRegion01.csv
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VelocityWeightedEdges_SubRegion02.csv
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VelocityWeightedEdges_SubRegion03.csv
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VelocityWeightedEdges_SubRegion04.csv
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VelocityWeightedEdges_SubRegion05.csv
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VelocityWeightedEdges_SubRegion06.csv
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VelocityWeightedEdges_SubRegion07.csv
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VelocityWeightedEdges_SubRegion08.csv
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VelocityWeightedEdges_SubRegion09.csv
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VelocityWeightedEdges_SubRegion10.csv
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VelocityWeightedEdges_SubRegion11.csv
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VelocityWeightedEdges_SubRegion12.csv
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VelocityWeightedEdges_SubRegion13.csv
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VelocityWeightedEdges_SubRegion14.csv
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VelocityWeightedEdges_SubRegion15.csv
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VelocityWeightedEdges_SubRegion16.csv
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VelocityWeightedEdges_SubRegion17.csv
Abstract
Landslide events, ranging from slips to catastrophic failures, pose significant challenges for prediction. In this study, a physically inspired framework is employed to assess landslide vulnerability at a regional scale (Big Sur Coast, California). Our approach integrates techniques from the study of complex systems combined with multivariate statistical analysis to identify unstable areas vulnerable to landslide events. We successfully apply a technique originally developed on the 2017 Mud Creek landslide, Big Sur, and refine our statistical metrics to characterize landslide vulnerability within a larger geographical area. Our results successfully classify four landslide events that occurred in the winter year of 2022-2023 as areas that are vulnerable to slope failure. The performance of our methods is compared to factors such as landslide location, slope, cumulative displacement, precipitation, and InSAR coherence, via a multivariate statistical analysis. We conclude that our network analyses, which provide a natural way to incorporate spatiotemporal dynamics, perform better as a monitoring technique than traditional methods. Our method has the potential for monitoring multiple landslide sites in real time, and evaluating which landslide sites are more vulnerable.
Methods
Open-source code R is used to create the networks and Matlab to run the community detection algorithm. The code can be found on https://github.com/vddesai-97/networkLandslide.git, which uses the community detection algorithim from https://github.com/GenLouvain/GenLouvain. The dataset contains 17 sub-regions with corresponding edge lists, spatial grids, and edge weights. In addition, the interferogram list for the InSAR data used for analysis and the shapefiles for the 44 landslide polygons are included.