MENU
  • Home

  • Monitoring

    • Monitoring

    • Recent Earthquakes

    • Live Seismograms

      • Webicorder Archives

    • Did You Feel It?

    • Quarterly Seismicity Reports

    • Regional Seismic Network

    • Urban Strong-Motion Network

    • Station Map

    • Earthquakes Around the World

  • Products

    • Earthquake Information Products

    • ShakeMap

    • Earthquake Catalogs

    • Intermountain Seismic Belt Historical Earthquake Project

    • Liquefaction Maps

    • Quaternary Faults

    • Earthquake FAQ

    • Earthquake Glossary

  • Research

    • Research

    • Abstracts

    • Journal Articles

    • Conference Papers

    • Reports

    • FORGE

    • 2020 Magna Earthquake Sequence

    • Sulphur Peak Earthquake Sequence

  • Outreach

    • Outreach

    • Earthquake Information Center Tours

    • Traveling Earthquake Exhibit

    • Utah’s Earthquake Threat

    • Yellowstone’s Threat

    • Rio Tinto Earthquake Information Center

  • About Us

    • About Us

    • Mission Statements

    • Annual Reports

    • Historical Background

    • Mission Partners

    • UUSS Staff Directory

    • Funding & Acknowledgments

    • Directions to UUSS

    • Contact Us

U of U Seismograph Stations

Reducing the risk from earthquakes in Utah through research, education, and public service
Home » Journal » A fluid-driven earthquake swarm on the margin of the Yellowstone caldera

A fluid-driven earthquake swarm on the margin of the Yellowstone caldera

Posted on January 1, 2014June 20, 2017 by Paul Roberson

Shelly, D. R., D. P. Hill, F. Massin, J. Farrell, R. B. Smith, T. Taira, 2014, A fluid-driven earthquake swarm on the margin of the Yellowstone caldera, J. Geophys. Res., doi:10.1029/2013JB010481.

This entry was posted in Journal and tagged earthquake swarm, Farrell, JGR, Massin, Smith, Yellowstone. Bookmark the permalink.

Post navigation

← Splitting of the double‐frequency microseismic peak at landbased seismometers in North America
Tomography from 26 years of seismicity revealing that the spatial extent of the Yellowstone crustal magma reservoir extends well beyond the Yellowstone caldera →

Recent Posts

  • M 4.2 in eastern Yellowstone National Park May 11, 2022
  • M 3.5 near Sevier, UT February 19, 2022
  • M 3.6 near Zion National Park December 21, 2021
  • 2020 Annual Report September 13, 2021
  • M 3.6 in Yellowstone National Park July 19, 2021
Tweets by @UUSSquake
QUICK LINKS
  • Quick Links

    • Did you Feel it?

    • Worldwide Earthquakes

    • Contact Us

    • Directions to UUSS

    • UUSS Staff Directory

  • Partners

    • Utah Earthquake Program

    • ANSS

    • Utah Geological Survey

    • Yellowstone Volcano Observatory

    • Department of Geology & Geophysics

  • The Fine Print

    • Nondiscrimination & Accessibility

    • Disclaimer

    • Privacy



  • facebook
  • twitter
  • youtube

115 South 1460 East, Room 211 FASB
SLC UT 84112-0102
801.581.6274

© 2022 The University of Utah