Map of seismicity (red circles) in the Yellowstone region during 2021. Gray lines are roads, black dashed line shows the caldera boundary, Yellowstone National Park is outlined by black dot-dashed line, and gray dashed lines denote state boundaries. (Illustration by Michael Poland of Yellowstone Caldera Chronicles | Public Domain).
It was business as usual in 2021 at Yellowstone—earthquakes, ground deformation, geyser eruptions, and lots of field work! As is tradition, this first Caldera Chronicles of the new year takes a look back at what happened in Yellowstone during the previous 12 months.
Yellowstone is a very active place in terms of seismicity. Typically the University of Utah Seismograph Stations, which are responsible for the operation of the Yellowstone Seismic Network and analysis of seismic data, locates 1500–2500 earthquakes every year in the region. The past three years have seen earthquake activity on the lower end of that spectrum, with fewer than 2000 located earthquakes in 2018, 2019, and 2020 (in 2019 there were only about 1200 located seismic events).
In 2021, Yellowstone saw a return to the higher end of that average, with 2,773 located earthquakes. The largest event of the year was an M3.6 earthquake that occurred beneath Yellowstone Lake on July 16. That event was part of an earthquake swarm beneath Yellowstone Lake that included 825 located quakes. A swarm is a sequence of earthquakes that occur in roughly the same place in rapid succession, and on average about 50% of all earthquakes in Yellowstone occur as part of swarms. In 2021, there were a total of 27 earthquake swarms, and these accounted for about 65% of located earthquakes during the year.
The vast majority of Yellowstone earthquakes are very small—more than 90% are in the range of M0–2. In 2021, there were 10 M3 events located in the Yellowstone region, and more than 150 M2 events. These numbers are pretty typical for Yellowstone in a given year. The abundant seismicity is caused in large part by groundwater interacting with existing faults—two things that the Yellowstone region has in abundance.
GPS data did not detect any significant changes in surface deformation during the course of the year. Data from the caldera showed that the region continues to subside, as it has since 2015. Each summer, that subsidence pauses and may even turn to a slight amount of uplift as runoff from spring snowmelt percolates into the ground, which soaks up the water like a sponge.
No deformation was detected by a GPS station near Norris Geyser Basin, but there may be some slight uplift occurring to the south of Norris, along the northern boundary of the caldera. That area is a site of historic uplift, which last occurred during the late 1990s. The possible uplift was detected by interferometric synthetic aperture radar (InSAR)—a satellite technique that uses radar images from different dates to “see” the deformation that occurred over the time spanned. Comparison of data collected in September 2020 and September 2021 reveal about 1–1.5 cm (less than 1 inch) of uplift along the north rim of the caldera, just south of Norris Geyser Basin, during that time period, in addition to the known subsidence of the caldera. InSAR cannot be used when there is snow on the ground, so the next opportunity to explore that signal will be in June 2022.
Geyser activity was relatively muted in 2021 compared to previous years. Steamboat Geyser, the world’s tallest active geyser, had 20 major water eruptions during the year. While impressive given that the geyser often experiences years to decades of very few eruptions, this number pales in comparison to 2018, when there were 32 eruptions, and 2019 and 2020, each of which had 48 eruptions. The decrease in the rate of Steamboat Geyser eruptions may reflect a gradual waning in activity. Hopefully the geyser will continue to put on a show in 2022.
Yellowstone Volcano Observatory scientists remained busy throughout the year, conducting experiments, analyzing data, deploying new instruments, and mapping geologic deposits. Of special note was the installation of a continuous gas-monitoring station in the Mud Volcano area in July 2021. This new station—the first of its kind in Yellowstone, and with real-time data available on the YVO website—continuously measures the concentrations of the four gases most commonly emitted by volcanoes: water, carbon dioxide, hydrogen sulfide and sulfur dioxide. Initial results show that the gases in the area are dominated by water vapor (approximately 92-93%) and carbon dioxide( approximately 7-8%, at concentrations about twice the level of normal air), with only about 0.02% hydrogen sulfide and no sulfur dioxide. This is consistent with results from other areas of Yellowstone.
Other field work included the seasonal deployment of GPS stations, mapping hydrothermal explosion and glacial deposits, maintaining and upgrading monitoring stations, collecting samples for geologic age determinations, sampling water and gas chemistry, and measuring seismicity associated with geyser activity in the Norris Geyser Basin and Upper Geyser Basin.
YVO scientists and agencies will continue to monitor activity in Yellowstone National Park and report noteworthy activity and new research results in future editions of Yellowstone Caldera Chronicles.
Yellowstone Caldera Chronicles is a weekly column written by scientists and collaborators of the Yellowstone Volcano Observatory. This week’s contribution is from Michael Poland, geophysicist with the U.S. Geological Survey and Scientist-in-Charge of the Yellowstone Volcano Observatory.
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