Earthquake Science Center

The Earthquake Science Center has been the flagship research center of the USGS in the western United States for more than 50 years. It is the largest USGS research center in the West and houses extensive laboratories, scientific infrastructure, and research facilities.

Job Opportunities

Earthquake Science Center Seminars

Seminars typically take place at 10:30 AM Wednesdays in the Rambo Auditorium (main USGS Conference Room). The USGS Campus is located at 345 Middlefield Road, Menlo Park, CA.

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Earthquake Science Center Campus Video

This short, 7-minute video gives an overview of the USGS Earthquake Science Center in Menlo Park, California. It briefly introduces you to the San Francisco Bay Area, shows the campus and facilities, and includes interviews with scientists.

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Handbooks to Help You Prepare for an Earthquake

USGS handbooks that describe the threat posed by earthquakes in the San Francisco Bay region and explain how you can prepare for, survive, and recover from these inevitable events.

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News

April 14, 2025

Even small lakes can tell big earthquake stories in the Yellowstone region

March 21, 2025

USGS Seeks Earthquake Hazards Research Proposals

October 15, 2024

(Some) Assembly Required: How to sign your organization up for the Great ShakeOut

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Publications

June 11, 2025

High-pass corner frequency selection and review tool for use in ground-motion processing High-pass corner frequency selection and review tool for use in ground-motion processing

Raw seismological waveform data contain noise from the instrument’s surroundings and the instrument itself that can dominate recordings at low and high frequencies. To use these data in ground‐motion modeling, the effects of noise on the signals must be reduced and the signals’ usable frequency range identified. We present automated procedures to efficiently reduce low‐frequency noise...

Authors

Maria E. Ramos-Sepulveda, Scott J. Brandenberg, Tristan E. Buckreis, Grace Alexandra Parker, Jonathan P. Stewart

Natural Hazards Mission Area, Earthquake Hazards Program, Earthquake Science Center

June 6, 2025

An empirical Green’s function approach for isolating directivity effects in earthquake ground-motion amplitudes An empirical Green’s function approach for isolating directivity effects in earthquake ground-motion amplitudes

In this study, we apply an empirical Green’s function (eGf) method within a ground‐motion modeling framework to mitigate trade‐offs between source, path, and site effects. Many physical processes contribute to spatial variations in observed ground motions, including earthquake radiation pattern, directivity, variable path attenuation, and site effects. Current nonergodic ground‐motion...

Authors

Grace Alexandra Parker, Annemarie S. Baltay Sundstrom, Evan Tyler Hirakawa

Natural Hazards Mission Area, Earthquake Hazards Program, Earthquake Science Center

May 21, 2025

Bayesian ETAS modeling for the Pacific Northwest: Uncovering effects of tectonic regimes, regional differences, and swarms on aftershock parameters Bayesian ETAS modeling for the Pacific Northwest: Uncovering effects of tectonic regimes, regional differences, and swarms on aftershock parameters

The Pacific Northwest (PNW) of North America has high seismic hazard due to numerous earthquake sources under populated areas. It hosts several tectonic regimes and subregional seismic zones that are hypothesized to have different patterns of earthquake and aftershock occurrence. It is also predisposed to earthquake swarms, which can complicate the statistical modeling of these patterns...

Authors

Max Schneider, Michael Barall, Peter Guttorp, Jeanne L. Hardebeck, Andrew J. Michael, Morgan T. Page, Nicholas van der Elst

Natural Hazards Mission Area, Earthquake Hazards Program, Earthquake Science Center

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