Poster #044, Ground Motions
Database of Fragile Geologic Features from the Trona Pinnacles National Monument
Poster Image:
Poster Presentation
2021 SCEC Annual Meeting, Poster #044, SCEC Contribution #11542 VIEW PDF
eriments and numerical modeling.
The Trona Pinnacles National Monument, which contains several tufa spires, is located within 5 km of the mapped 2019 M7.1 Ridgecrest earthquake fault trace. Some of the tufa spires sustained variable levels of damage from the Ridgecrest earthquake sequence. Several days after the mainshock, a SCEC team visited the Monument and took photographs of the spires, both damaged and undamaged. A team from the Jet Propulsion Laboratory (JPL) also imaged several of the features from small unmanned aerial systems (sUASs). The Pinnacles have also been heavily photographed by both scientists and tourists over the years, and these photographs can be used to document the state of the spires prior to the Ridgecrest earthquake sequence. We have been developing a database that captures the pre- and post-event conditions of the tufa spires. The database will be made available to researchers working on ground motion estimation methodologies to constrain the ground motion level from nearby earthquakes in the future.
We first collect EXIF information from picture files and populate Google Earth maps with oriented photographs for easy viewing. We then identify and assign numbered IDs to all photographed FGFs taken from the post Ridgecrest reconnaissance activities. This is archived by an interpretation of the photographs themselves, and supported by the Google Earth maps and the 3D images provided by the JPL sUAS team. We then systematically search and catalog pre-event photographs of the FGFs from online resources. Finally, an interactive webpage is created for users to query, view, and print all the information and images associated with each spire. In this presentation, we introduce the prototype webpage and its capabilities.
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The Trona Pinnacles National Monument, which contains several tufa spires, is located within 5 km of the mapped 2019 M7.1 Ridgecrest earthquake fault trace. Some of the tufa spires sustained variable levels of damage from the Ridgecrest earthquake sequence. Several days after the mainshock, a SCEC team visited the Monument and took photographs of the spires, both damaged and undamaged. A team from the Jet Propulsion Laboratory (JPL) also imaged several of the features from small unmanned aerial systems (sUASs). The Pinnacles have also been heavily photographed by both scientists and tourists over the years, and these photographs can be used to document the state of the spires prior to the Ridgecrest earthquake sequence. We have been developing a database that captures the pre- and post-event conditions of the tufa spires. The database will be made available to researchers working on ground motion estimation methodologies to constrain the ground motion level from nearby earthquakes in the future.
We first collect EXIF information from picture files and populate Google Earth maps with oriented photographs for easy viewing. We then identify and assign numbered IDs to all photographed FGFs taken from the post Ridgecrest reconnaissance activities. This is archived by an interpretation of the photographs themselves, and supported by the Google Earth maps and the 3D images provided by the JPL sUAS team. We then systematically search and catalog pre-event photographs of the FGFs from online resources. Finally, an interactive webpage is created for users to query, view, and print all the information and images associated with each spire. In this presentation, we introduce the prototype webpage and its capabilities.
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Citation: Goulet, C. A., Meng, X., & Devine, S. C. (2021, 08). Database of Fragile Geologic Features from the Trona Pinnacles National Monument. Poster Presentation at 2021 SCEC Annual Meeting.
Keywords: fragile geological features, database, ridgecrest
SCEC Award: 20119
Relevant SCEC Themes:
Probabilistic Seismic Hazard Analysis
Post-Earthquake Rapid Response
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