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Meeting Abstracts
SCEC Annual Meeting participants are invited to share recent results and activities relevant to SCEC priorities and initiatives during the poster sessions. The SCEC collaboration emphasizes the connections between information gathering by sensor networks, fieldwork, and laboratory experiments; knowledge formulation through physics-based, system-level modeling; improved understanding of seismic hazard; and actions to reduce earthquake risk and promote resilience.
Use the search form to view abstracts of presentations that have been accepted for this meeting.
| SCEC ID | Category | Title and Authors | SCEC Award |
|---|---|---|---|
Group B |
GM |
Exploring Basin Amplification within the Reno Metropolitan Area in Northern Nevada Using 3D Scenarios
John Louie, Eric Eckert, Lauren Lewright, Michelle Scalise, Aditya Prathap, Ken Smith The Reno metropolitan area (located within the Truckee Meadows in northern Nevada) is subjected to significant seismic risk, primarily resulting from the region’s proximity to the Mount Rose fault system and the urban area’s presence within a large... more Themes: Ground Motion Simulation | Probabilistic Seismic Hazard Analysis | Velocity and Rheology of Basin Sediments |
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Group B Poster 180 |
FARM |
Using dynamic rupture simulations to explore fault segmentation and rupture length on the Sierra Madre Fault Zone
Julian Lozos, David Velador, Jose Tepal The Sierra Madre Fault Zone (SMFZ) is a 125 km-long, north to northeast-dipping thrust fault which arcs along the southern edge of the San Gabriel and Santa Susana Mountains in Los Angeles and San Bernardino counties, southern California. Based on... more Themes: Special Fault Study Areas: Focus on Earthquake Gates | Modeling Earthquake Source Processes |
22158
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Group A Poster 193 |
SDOT |
Stress Constraints on Cajon Pass Fault Segments Informed by Focal Mechanism Inversion, Fault Loading, and Topography
Karen Luttrell, Elliott Helgans, Liliane Burkhard, Bridget Smith-Konter Earthquake processes along active faults are strongly influenced by the in situ crustal stress field, which itself is comprised of multiple geophysical processes acting simultaneously at different spatial and temporal scales. We model the in situ... more Themes: Community Models |
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Group A |
FARM |
Dynamic off-fault failure and tsunamigenesis at strike-slip restraining bends: Fully-coupled models of dynamic rupture, ocean acoustic waves, and tsunami in a shallow bay
Shuo Ma Inelastic off-fault deformation can lead to large tsunamigenesis in different tectonic settings. Here a mechanism for tsunami generation by strike-slip earthquakes that involves dynamic off-fault failure at restraining bends is presented. Dynamic... more Themes: Beyond Elasticity | Modeling Earthquake Source Processes | Risk to Distributed Infrastructure |
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Group A |
CS |
Improving the Sustainability of SCEC Scientific Software using Software Best Practices
Philip Maechling, Scott Callaghan, Kevin Milner, Edric Pauk, William Savran, Fabio Silva, Mei-Hui Su SCEC’s earthquake system science program uses scientific software to translate interdisciplinary research advances into predictive models of earthquake processes and to deliver broad impact seismic hazard information to the research community and... more Themes: Probabilistic Seismic Hazard Analysis | Operational Earthquake Forecasting | Risk to Distributed Infrastructure |
21080
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Group A Poster 073 |
Geodesy |
The indirect triggering of a normal faulting earthquake sequence in the Ibaraki-Fukushima prefectural border, Japan by Mw9.0 Tohoku-Oki megathrust: the elusive role of low-angle normal fault slow-slip
Yohai Magen, Asaf Inbal, Alo Ziv, Gidon Baer, Roland Bürgmann, Axel Periollat, Takeshi Sagiya Deep-seated normal faults are common in subduction environments. Although these faults occasionally break with large megathrust, the strain they induce within the crust are poorly constrained. A month-long shallow normal faulting sequence in Ibaraki... more Themes: Stress and Deformation Over Time | Modeling Earthquake Source Processes |
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Group B |
Geodesy |
Inferring the effective rheology of the lithosphere and heterogeneities in rheological properties using geodetic observations of earthquake sequences
Rishav Mallick, Valere Lambert, Brendan Meade, Mark Simons The solid Earth displays both elastic and viscous behaviors, with their relative contribution depending on the observational time window and the details of stress evolution. While studies of elastic wave propagation can estimate spatially varying... more Themes: Stress and Deformation Over Time | Beyond Elasticity |
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Group B Poster 192 |
SDOT |
Space-time monitoring of groundwater fluctuations with passive seismic interferometry
Shujuan Mao, Albanne Lecointre, Robert van der Hilst, Michel Campillo Historic levels of drought, globally, call for sustainable freshwater management. Under pressing demand is a refined understanding of the structures and dynamics of groundwater systems. Here we present an unconventional, cost-effective approach to... more Themes: Stress and Deformation Over Time | Risk to Distributed Infrastructure | Velocity and Rheology of Basin Sediments |
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Group A Poster 143 |
FARM |
Using Dynamic Rupture Simulations to Investigate the Effects of Topography on Rupture Propagation along Branch Faults: Implications for the San Andreas and Garlock Faults
Evan Marschall, Roby Douilly The San Andreas (SAF) and Garlock (GAF) fault intersection in Southern California represents the juncture of California's two longest faults. Paleoseismic studies have revealed that this section of the SAF has hosted some of the largest... more Themes: Special Fault Study Areas: Focus on Earthquake Gates |
22144
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Group A Poster 091 |
Geology |
Active Tectonics of Central Asia
Neill Marshall, Ian Pierce, Richard Walker, Tamarah King, Shengsue Lei, Zakeria Shnizai, Chia-Hsin Tsai, Roberta Wilkinson, Ben Johnson Our efforts are focused on solving earthquake and tectonic problems from Mongolia and China in the east, through to Iran and the Caucasus. We work with local partners, combining research with capacity building efforts and support for early career... more Themes: Stress and Deformation Over Time | Experiential Learning and Career Advancement |
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Group B Poster 260 |
CXM |
The SCEC Community Paleoseismic Database (CPD)
Scott Marshall, Sinan Akciz, Alex Hatem, Mei-Hui Su, Philip Maechling, Tran Huynh, Edric Pauk Paleoseismic observations provide critical information for seismic hazard assessments, geophysical/geodetic modeling, earthquake simulators, geologic studies, and many other efforts in earthquake research. These observations include dates and rates... more Themes: Community Models |
22047
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Group A Poster 173 |
FARM |
Rate & state dependent friction and the nucleation of long runout landslides: Application to the Marysvale Gravity Slide Complex, Utah
Danika Mayback, William Griffith, Michael Braunagel, Robert Biek, David Hacker, David Malone, Tiffany Rivera Subaerial long-runout landslides are among Earth’s most catastrophic natural hazards due to the volume of landslide material and transport distance; however, the factors that lead to the initiation of runaway unstable long-runout landslides are... more Themes: Stress and Deformation Over Time |
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Group B Poster 048 |
Seismology |
Earthquake Phase Association with Graph Neural Networks: Application to Seismicity in Northern California
Ian McBrearty, Gregory Beroza We describe our Graph Neural Network based associator that is trained to both detect (determine the origin time, and location of) seismic sources, and associate picks to these sources from streaming discrete pick datasets recorded on arbitrary... more Themes: Data-Intensive Computing | Earthquake Early Warning |
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Group B Poster 092 |
Geology |
Revised Earthquake Recurrence Intervals in California, USA: New Paleoseismic Sites and Application of Event Likelihoods
Devin McPhillips Recurrence intervals for ground rupturing earthquakes are critical data for assessing seismic hazard. Recurrence intervals are presented here for 38 paleoseismic sites in California. Eleven of these include new or updated data; the remainder use... more Themes: Stress and Deformation Over Time | Probabilistic Seismic Hazard Analysis |
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Group A Poster 067 |
Seismology |
GNSS-based Global Seismic Monitoring
Timothy Melbourne We have developed a global seismic (and, where relevant, tsunami) monitoring capability based on low-latency measurements from ~ 1,800 Global Navigational Satellite System (GNSS) receivers to rapidly characterize large earthquakes and, where... more Themes: Stress and Deformation Over Time | Earthquake Early Warning |
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Group B Poster 114 |
Geology |
Slip variability and temporal clustering along the Imperial fault at Mesquite Basin, Imperial Valley, California
Aron Meltzner, Thomas Rockwell, Rebecca Tsang, Paula Figueiredo Paleoseismic trenches across the Mesquite Basin section of the Imperial fault revealed channels that cross the fault at high angle and that are displaced in the subsurface. These channels incised into and are embedded within lacustrine strata... more Themes: Stress and Deformation Over Time |
07007
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Group B Poster 152 |
FARM |
Using a dynamic earthquake simulator to explore whether low velocity structure or conditionally stable fault friction contributes more to tsunami earthquake generation
Qingjun Meng, Benchun Duan Tsunami earthquakes are a type of shallow subduction zone events that rupture slowly (<1.5 km/s) with exceptionally long duration and radiate energy with depleted high frequency content, causing abnormally large tsunami waves than their Ms... more Themes: Modeling Earthquake Source Processes |
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Group A Poster 235 |
GM |
Computing Path Effects of A Large Magnitude Event from Path Effects of Many Small Magnitude Events on The Same Rupture Plane
Xiaofeng Meng, Christine Goulet, Robert Graves The most promising way to improve the accuracy of hazard curve calculation is through the removal of the ergodic assumption. For example, wave propagation path effects between a source location and a site should be considered as repeatable, with... more Themes: Data-Intensive Computing | Ground Motion Simulation | Probabilistic Seismic Hazard Analysis |
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Group B Poster 110 |
Geology |
Time-Space Patterns of Potentially Linked Latest Quaternary Surface Ruptures on the Eastern Pinto Mountain and Southern Mesquite Lake Faults: Implications for Paired Paleoearthquakes on Two Intersecting Conjugate Faults near Twentynine Palms, southern CA
Christopher Menges, Stephanie Dudash, Shannon Mahan Detailed surficial geologic mapping and 21 fault-related luminescence (post-IRSL and OSL) dates provide constraints on latest Quaternary surface ruptures along the eastern Pinto Mountain Fault (PMF) and southern Mesquite Lake Fault (MLF) in the... more Themes: Stress and Deformation Over Time | Modeling Earthquake Source Processes | Risk to Distributed Infrastructure |
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Group A Poster 135 |
FARM |
Off-fault plasticity controls the spectrum of fault slip: from slow to fast and from small to large
Md Shumon Mia, Mohamed Abdelmeguid, Ahmed Elbanna Earthquakes are among nature’s deadliest and costliest hazards. Physics-based simulations are essential to complement the lack of data and elucidating the complex patterns of earthquakes. While significant progress has been made in understanding... more Themes: Stress and Deformation Over Time | Beyond Elasticity | Modeling Earthquake Source Processes |
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Group B |
FARM |
Heterogeneous coseismic stress state describes off-fault fracture orientation in the 2019 Ridgecrest sequence
Enrico Milanese The origins of faults are commonly described by the classical Mohr-Coulomb-Anderson theory: the tectonic regional stress state brings the crust to its shear failure, and a fault forms at an angle from the largest principal stress. This angle depends... more Themes: Stress and Deformation Over Time | Special Fault Study Areas: Focus on Earthquake Gates |
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Group B Poster 068 |
Geodesy |
Constraining the Frictional Strength and State of Stress Along Coseismic Fault Ruptures using 3D Geodetic Imaging Data
Chris Milliner, Saif Aati, Jean-Philippe Avouac Constraining the variation of stress on faults is important for improving our understanding of fault friction and the dynamics of earthquake ruptures. However, we still have little observational constraints on their absolute magnitude, or their... more Themes: Stress and Deformation Over Time | Beyond Elasticity | Risk to Distributed Infrastructure |
19222
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Group B Poster 202 |
EFP |
Updates to the Fault-System Inversion Approach for use in the 2023 U.S. National Seismic Hazard Model
Kevin Milner, Edward Field A 50-state update to the U.S. National Seismic Hazard Model will be released in 2023 (NSHM23). NSHM23 will utilize an inversion-based methodology for active fault systems in the Western U.S., building upon the approach used in the 3rd Uniform... more Themes: Probabilistic Seismic Hazard Analysis |
22096
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Group B Poster 208 |
EFP |
Question-driven ensembles of flexible ETAS models
Leila Mizrahi, Shyam Nandan, William Savran, Stefan Wiemer, Yehuda Ben-Zion We propose a question-driven ensemble (QDE) modeling approach to combine variants of ETAS models. With this approach, we aim to simultaneously address the goals of producing improved earthquake forecasts, and of gaining new insights into the... more Themes: Operational Earthquake Forecasting |
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Group B |
Seismology |
Tsunami source imaging using adjoint-state inversion of data from ocean bottom pressure gauges
SAEED MOHANNA, Yuqing Xie, Lingsen Meng Current frameworks for issuing rapid tsunami warnings rely on point-source models that do not take into account slip distribution or the rupture area and thus can be inaccurate in the immediate aftermath of an earthquake, leading to inaccurate wave... more Themes: Earthquake Early Warning | Post-Earthquake Rapid Response |
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Group B |
Seismology |
Variations in Earthquake Stress Drop on Gofar Transform Fault at the End of the 2008 and 2020 Seismic Cycles
Pamela Moyer, Margaret Boettcher, Jianhua Gong, Wenyuan Fan, Jeffery McGuire, Jessica Warren, Mark Behn, John Collins, Emily Roland, Christopher German, Yajing Liu Mid-ocean ridge transform faults (RTFs) exhibit some of the most systematic and predictable slip behavior known in seismology. Abundant foreshocks precede the largest earthquakes on RTFs, which repeatedly re-rupture the same area of the fault on a... more Themes: Modeling Earthquake Source Processes |
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Group A |
CS |
TerraPINN: solving the seismic wave equation with physics informed neural networks
Jack Muir, Tarje Nissen-Meyer Deep neural networks have revolutionised our ability to process and classify big data. In seismology in particular, neural network solutions now outperform human analysts in accuracy on standard observational tasks, while allowing orders of... more Themes: Data-Intensive Computing | Ground Motion Simulation | Probabilistic Seismic Hazard Analysis |
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Group B |
SAFS |
Imaging Seismic Attenuation across the Northern Los Angeles Basins with Dense Arrays
Chiara Nardoni, Patricia Persaud, Joses Omojola, Robert Clayton In high seismic hazard regions, attenuation imaging is used jointly with velocity tomography to detect highly-fractured volumes and fine-scale crustal heterogeneities. Attenuation is also important for predicting site response and seismic wavefield... more Themes: Beyond Elasticity | Ground Motion Simulation | Probabilistic Seismic Hazard Analysis |
19033
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Group A Poster 059 |
Seismology |
Source Complexity of M 3.5 – 5.5 Earthquakes in the 2019 Ridgecrest Earthquake Sequence
Arjun Neupane, Christine Ruhl, Rachel Abercrombie Stress drop is an important source parameter that is commonly used for estimating ground motion and understanding physics of the earthquake source. However, complexity of earthquake sources often gives rise to a high variability in the measurements... more Themes: Community Models | Modeling Earthquake Source Processes |
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Group B |
Seismology |
A new look into the 2004 M6 Parkfield Earthquake sequence using an updated earthquake catalog
Miguel Neves, Zhigang Peng, Guoqing Lin, Junle Jiang We present the Parkfield Matched filter Relocated (PKD-MR) earthquake catalog, a new high-resolution catalog for the 2004 Mw 6 Parkfield earthquake sequence in Central California, spanning from November 6, 2003, to March 28, 2005. The new catalog... more Themes: Stress and Deformation Over Time | Data-Intensive Computing |
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Group B Poster 166 |
FARM |
Geologic inheritance of the 2019 M7.1 Ridgecrest earthquake source faults and the resulting slip distribution
Johanna Nevitt, Benjamin Brooks, Jeanne Hardebeck, Brad Aagaard Faults typically form through reactivation, growth, and linkage of pre-existing structures, often leading to nonplanar geometries and mechanical properties specific to the system’s geologic inheritance. The competition between fault geometry and... more Themes: Modeling Earthquake Source Processes |
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Group B |
GM |
Low Frequency Non-Ergodic Synthetic Modeling of Earthquake Basin Effects in Wellington, New Zealand
Morgan Newton, John Louie, Tim Stern, Aasha Pancha The 2016 7.8 magnitude Kaikōura earthquake in the South Island of New Zealand consisted of a complex sequence of ruptures, lasting approximately two minutes. During the earthquake, the Wellington capital region experienced unexpected localized zones... more Themes: Ground Motion Simulation | Probabilistic Seismic Hazard Analysis | Velocity and Rheology of Basin Sediments |
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Group B |
CS |
Neural Implicit Compact Representation to Compress Distributed Acoustic Sensing Data
Yiyu Ni, Shaowu Pan, J. Nathan Kutz, Bradley Lipovsky, Marine Denolle Distributed Acoustic Sensing (DAS) is a new seismic observation method. It utilizes repeated laser pulses along optical fibers up to 100 km in length to measure changes in phase changes of backscattered light that occur due to rapid straining rate... more Themes: Stress and Deformation Over Time | Data-Intensive Computing |
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Group A Poster 151 |
FARM |
Velocity- and temperature-dependence of steady-state friction on the Central San Andreas Fault controlled by competing healing mechanisms
Shiying Nie, Sylvain Barbot The empirical rate- and state-dependent friction law is widely used to explain the frictional resistance of rocks within a narrow range of temperature and sliding velocity. However, the constitutive parameters are often found to vary with... more Themes: Modeling Earthquake Source Processes |
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Group C Poster 184 |
SDOT |
Analytical Joint inversion of the 1982-1999 surface deformations and gravity changes at Long Valley caldera
Mehdi Nikkhoo, Eleonora Rivalta Pressurization of magma chambers, due to magmatic intrusions or magma degassing, may lead to surface displacements and gravity changes, which can be measured by geodetic instruments. The gravity changes are caused by 1) the net mass of the intrusion... more Themes: Stress and Deformation Over Time |
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Group A Poster 183 |
SDOT |
Sharp Changes of Crustal Seismic Anisotropy across the Central Tanlu Fault Zone in East China
Fenglin Niu, Wenpei Miao, Haichao Chen We measured crustal and upper mantle seismic anisotropy using P-to-S converted waves at the Moho (Pms) and core-mantle boundary (SKS) recorded by broadband arrays deployed across the Weifang segment of the Tanlu fault zone. We gathered Pms... more Themes: Stress and Deformation Over Time |
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Group B Poster 232 |
GM |
Implications from the study of ambient noise velocity drop on the footwall and hanging wall of the M5.7 Magna earthquake on the Wasatch fault
Shankho Niyogi, Abhijit Ghosh, Alexander Yates, David Oglesby We report ambient noise analysis results from single and multiple stations around the M5.7 Magna earthquake epicenter in Utah, which was generated by the Wasatch fault system. This earthquake took place on 18th March, 2020 at a depth of... more Themes: Stress and Deformation Over Time | Probabilistic Seismic Hazard Analysis | Risk to Distributed Infrastructure |
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Group A Poster 119 |
CS |
Separation and Denoising of Seismic Sources
Artemii Novoselov Seismologists have to deal with overlapping and noisy signals. Techniques such as source separation can be used to solve this problem. Over the past few decades, signal processing techniques used for source separation have advanced significantly for... more Themes: Community Models | Data-Intensive Computing | Probabilistic Seismic Hazard Analysis |
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Group A Poster 223 |
GM |
An evaluation of empirical earthquake record-based versus array-based site characterization
Tara Nye We compare site empirical transfer functions (ETFs) estimated from earthquakes recorded at stations of interest with active, array-based theoretical transfer functions (TTFs) to evaluate the value of including less-intensive studies for... more Themes: Velocity and Rheology of Basin Sediments |
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Group C |
EFP |
Prediction and validation of short- to long-term earthquake probabilities in inland Japan using the hierarchical space-time ETAS and space-time Poisson process models
Yosihiko Ogata A hierarchical space-time version of the epidemic-type aftershock sequence (HIST-ETAS) model was constructed for an optimally adapted fit to diverse seismicity features characterized by anisotropic clustering as well as regionally distinct... more Themes: Data-Intensive Computing | Probabilistic Seismic Hazard Analysis | Operational Earthquake Forecasting |
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Group B |
FARM |
The effects of pre-stress assumptions on dynamic rupture with complex fault geometry in the San Gorgonio Pass, California, region
David Oglesby, Christodoulos Kyriakopoulos, Jennifer Tarnowski, Michele Cooke The San Andreas Fault passes through the Western San Gorgonio Pass region of Southern California taking the form of a complex structure with multiple strike-slip and thrust segments. The ability of an earthquake to propagate through this structural... more Themes: Special Fault Study Areas: Focus on Earthquake Gates | Modeling Earthquake Source Processes |
13130
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Group A Poster 097 |
Geology |
Rupture History of the Himalayan Frontal Thrust near Bagmati River crossing in Central Nepal
Koji Okumura, Prakash Pokhrel, Hisao Kondo, Tomoru Yamanaka, Soma Sapkota The 2015 Golkha earthquake raised concern about the future large earthquake in south of the 2015 source area. The Golkha earthquake ruptured 10 to 20 km deep portion of the plate boundary interface ~50 km away from the surface trace of the Himalayan... more Themes: Probabilistic Seismic Hazard Analysis |
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Group B Poster 014 |
Seismology |
Utilizing Automated Picks from the 2020 Mw 6.5 Monte Cristo Range Earthquake Sequence to Image the Aftershock Region
Joses Omojola, Patricia Persaud, Chiara Nardoni, Rufus Catchings The 2020 Mw 6.5 Monte Cristo Range earthquake is the largest earthquake to occur in Nevada in 66 years. It ruptured a previously unmapped Quaternary fault in the ~80-km wide Mina Deflection region. This zone of complex faulting is interpreted to... more Themes: Beyond Elasticity | Probabilistic Seismic Hazard Analysis | Velocity and Rheology of Basin Sediments |
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Group A |
FARM |
The role of sediments and fault damage on the 2019 Ridgecrest earthquake: a rupture impediment and/or ground motion amplifier?
Elif Oral, Jean-Paul Ampuero, Domniki Asimaki Observations of the 2019 M 7.1 Ridgecrest earthquake reveal a slow rupture (~ <= 2 km/s) and near-field ground motions with high spatial variability. The area is well characterized with sedimentary layers and low-velocity fault damage zones, but... more Themes: Modeling Earthquake Source Processes | Beyond Far-Field Approximations | Ground Motion Simulation |
22108
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Group A Poster 149 |
FARM |
Evolution of distributed folding over multiple earthquake cycles
Michael Oskin, Alba Rodriguez Padilla Advances in geodesy have enabled detailed characterization of the coseismic distribution of inelastic processes at the surface, including imaging of very subtle, distributed strains near the elastic limit of rock. Measuring subtle, finite... more Themes: Stress and Deformation Over Time | Beyond Elasticity |
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Group B Poster 142 |
FARM |
Mainshock and Aftershock Sequence Simulation in Geometrically Complex Fault Zones
So Ozawa, Ryosuke Ando Aftershocks seem to be located along the trace of the mainshock fault; however, due to the location error, we do not know their exact location relative to the mainshock fault. Here, we hypothesize that most aftershocks occur on small subsidiary... more Themes: Modeling Earthquake Source Processes |
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Group A Poster 019 |
Seismology |
Linking fault roughness and earthquake behavior
Morgan Page, Elizabeth Cochran, Nicholas van der Elst, Zachary Ross, Daniel Trugman It remains an open question how earthquake behavior may be influenced by the physical properties of a fault. The 2016-2019 Cahuilla, California earthquake swarm allows for high-resolution mapping of fault roughness, b-values, and stress drop. The... more Themes: Stress and Deformation Over Time | Modeling Earthquake Source Processes | Operational Earthquake Forecasting |
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Group B |
Seismology |
Caution: The prediction inconsistency of neural phase pickers should not be overlooked
Yongsoo Park, Gregory Beroza, William Ellsworth Neural phase pickers – neural networks that are designed and trained to pick seismic phase arrivals – have shown to be a powerful tool for developing earthquake catalogs. However, these pickers suffer from what we refer to as prediction... more |
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Group A Poster 225 |
GM |
Ground-Motion Variability from Kinematic Rupture Models on the Wasatch Fault Zone, with Implications for Probabilistic Seismic Hazard Analysis
Grace Parker, Morgan Moschetti, Eric Thompson We consider the effect of changing kinematic rupture parameters on simulated ground motion variability for M7 earthquakes on the Salt Lake City segment of the Wasatch Fault Zone. We use a mixed-effects analysis to estimate the contribution to ground... more Themes: Ground Motion Simulation | Probabilistic Seismic Hazard Analysis |
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Group A Poster 215 |
GM |
Ground-Motion Predictions for Salton Trough Using Cross-Pollinated Earth Models
Patricia Persaud, Rasheed Ajala Strategies for improving Earth models to better predict the seismic wavefield are an active research topic in earthquake hazard studies. Such models should include realistic representations of fault zones, sedimentary basins, and other small-scale... more Themes: Community Models | Ground Motion Simulation | Probabilistic Seismic Hazard Analysis |
19014, 20023, 21059
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