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Near-Field High-Resolution Maps of the Ridgecrest Earthquakes from Aerial Imagery

Alba M. Rodríguez Padilla, Mercedes A. Quintana, Ruth M. Prado, Brian J. Aguilar, Thomas Shea, M. E. Oskin, Leslie Garcia

2021Seismological Research Letters23 citationsDOI

Abstract

Abstract High-resolution maps of surface rupturing earthquakes are essential tools for quantifying rupture hazard, understanding the mechanics of rupture propagation, and interpreting evidence of past earthquakes in the landscape. We present highly detailed maps of five portions of the surface rupture of the 2019 Ridgecrest earthquakes, derived from 5 cm per pixel aerial imagery and 2–20 cm per pixel unmanned aerial vehicle imagery. Our high-resolution maps cover areas of complexity and distributed deformation, sections in which strain is very localized, and areas where the rupture breaks through sediment and bedrock, ensuring sampling of the diverse rupture styles of this earthquake sequence. These maps reveal the near-field deformation of the surface rupture with a high level of detail, resolving the extent of secondary fracturing, lateral spreading, and liquefaction features that are below the resolution of airborne lidar data, field mapping, and geodesy. These data may serve as a machine learning training dataset, and offer opportunities for detailed kinematic analysis and high-resolution probabilistic displacement hazard analysis.

Topics & Concepts

GeologySeismologyAerial imageryLandslideBedrockRemote sensingLidarEarthquake ruptureHazardHigh resolutionTerrainHazard analysisCartographyGeomorphologyGeographyFault (geology)EngineeringAerospace engineeringOrganic chemistryChemistryearthquake and tectonic studiesLandslides and related hazardsGeological and Geochemical Analysis
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