Room: Ballroom
Date: 4/20/2023
Session Time: 8:00 AM to 5:45 PM (local time)
Opportunities and Challenges in Source Modeling for Seismic Hazard Analysis
Evaluating earthquake rates is critical to assess seismic hazards for a variety of applications including national building codes, catastrophe risk modeling and site-specific studies for critical facilities. To accomplish this, recent national and regional seismic hazard models have used interdisciplinary approaches that combine geological, geodetic and seismological models. Often, fault-based models are complemented with distributed (or smoothed) seismicity models derived from earthquake catalogs, especially in regions where knowledge of the fault network is largely incomplete. Some efforts have begun to incorporate physics-based (dynamic) earthquake models, which produce synthetic catalogs spanning hundreds of thousands of years. In active areas, there are complicated cases where different seismotectonic regimes are present, such as subduction zones (interface and intraslab sources) juxtaposed with crustal sources. Some other frontiers include complex multi-fault ruptures, models for earthquake occurrences (Poissonian versus non-Poissonian rates) and region-specific source scaling properties.
In this context, there is an impetus for integrated approaches that take advantage of different datasets to deliver a consistent model of earthquake rates, their spatial distribution and potential rupture mechanisms. In this session, we welcome contributions that are focused on the advancements in the development of source models, with new methods, datasets and/or hypotheses. Research topics pertinent to this session include but are not limited to: distributed seismicity models, magnitude-frequency distributions, models for earthquake occurrences, time-dependent seismicity, active fault models, region-specific source scaling properties, inversion of slip-rates, simulated seismicity and synthetic catalogs and subduction sources. We also look forward to region-specific investigations that provide useful case studies.
Conveners
Kiran Kumar S. Thingbaijam, GNS Science (k.thingbaijam@gns.cri.nz)
Chris Rollins, GNS Science (c.rollins@gns.cri.nz)
Matt C. Gerstenberger, GNS Science (m.gerstenberger@gns.cri.nz)
Andrea L. Llenos, U.S. Geological Survey (allenos@usgs.gov)
Marco Pagani, GEM Foundation (marco.pagani@globalquakemodel.org)
Delphine Fitzenz, Risk Management Solutions, Inc (delphine.fitzenz@rms.com)
Andrew J. Michael, U.S. Geological Survey (ajmichael@usgs.gov)
Andy Nicol, University of Canterbury (andy.nicol@canterbury.ac.nz)
Poster Presentations
| Participant Role | Details | Action |
|---|---|---|
| Submission | Advancing the SRCMOD Database | View |
| Submission | Complex Ruptures for Hazard and Risk: Case Studies for El Salvador and Ecuador | View |
| Submission | Recalibrating Earthquake Rupture Forecasts Using Long Catalogs From Multi-Cycle Earthquake Simulators | View |
| Submission | Predicting Ongoing Induced Seismicity in the Groningen Gas Field After Shut-in Using Rate-Dependent Compaction | View |
| Submission | Interactions Between Megathrust and Adjacent Crustal Faults | View |
| Submission | Modeling the Seismogenic Slab Sources in New Zealand | View |
| Submission | The Rates of Large and Moderate Earthquakes in Aotearoa New Zealand | View |
| Submission | The Rise and Fall of Earthquake-Size Distribution With Depth: Insights From the Calabrian Subduction Zone | View |
| Submission | Proposal of a New Method for Combining Seismological and Geological Information Aimed at Seimsic Hazard Analysis: Fams Method- Fault and Area Zone Moment Shearing. | View |
| Submission | Review of Hybrid Methods for the Characterization of Seismic Hazard in Central America | View |
| Submission | Estimation of Seismic Hazard in Northern Argentina, Combining Faults and Zones Hazard Estimations (PSHA). Validation of Proximity Factors to Active Faults of the Argentine Seismic Code Inpres-Cirsoc 103 | View |
| Submission | Capturing the Uncertainty of Seismicity Observations in Earthquake Rate Logic Tree Branches | View |
Opportunities and Challenges in Source Modeling for Seismic Hazard Analysis [Poster]
Description