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Kyle R. Anderson, Ph.D.

I use monitoring data to better understand and forecast volcanic processes and hazards.

I work to understand volcanic systems by developing mathematical models which relate magma physics with monitoring data such as ground deformations and eruption rates. Model predictions can be compared with real-world observations using probabilistic statistical approaches, making it possible to constrain properties of volcanic systems such as the composition and volume of stored magma. These techniques can also be used in some cases to forecast future eruptive activity. I've worked most extensively at Mount St. Helens and Kīlauea volcanoes, but I'm interested in volcanoes and eruptions around the world.

I have a particular interest in volcanic caldera collapses and in episodic/cyclic eruptive behavior. Other interests include the physics governing magma ascent; the role of magmatic volatiles on eruptive processes; uncertainty quantification in volcanological inverse problems; quantifying rates of magma supply, storage, and eruption; ground deformation caused by magmatic processes; the application of machine learning to volcanology problems; and volcanic hazards assessments.

See the “Publications” tab below for more information.

Professional Experience

  • Research Geophysicist, USGS Volcano Science Center (California Volcano Observatory) (2015-present)

  • Visiting Research Fellow, University of Tokyo (January – March 2016)

  • USGS Exchange Scientist, Observatoire Volcanologique du Piton de la Fournaise (February 2015)

  • Mendenhall Postdoctoral Research Fellow, USGS Hawaiian Volcano Observatory (2012-2015)

Education and Certifications

  • Stanford University: PhD in geophysics (2012)

  • Stanford University: MS in geophysics

  • Whitman College: BA in geology-physics

Affiliations and Memberships*

  • USGS-CONVERSE Hawai‘i Science Advisory Committee (2021–present)

  • Modeling Collaboratory for Subduction Research Coordination Network steering committee (2017-2022)

  • Phi Beta Kappa (academic honor society)

  • Sigma Xi (scientific research honor society)

Honors and Awards

  • Indiana University Daniel S. Tudor Commemorative Lecture

  • Stanford – USGS Fellowship

  • Stanford University Centennial Teaching Assistant Award

  • Stanford University ARCS Foundation Scholar

  • National Science Foundation East Asia and Pacific Summer Institutes

  • Whitman College graduation with honors

  • Whitman College Leeds Prize in Geology

  • Lamont-Doherty Earth Observatory of Columbia University undergraduate summer internship

Science and Products

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Filter Total Items: 52

Coordinating science during an eruption: Lessons from the 2020–2021 Kīlauea volcanic eruption

Data collected during well-observed eruptions can lead to dramatic increases in our understanding of volcanic processes. However, the necessary prioritization of public safety and hazard mitigation during a crisis means that scientific opportunities may be sacrificed. Thus, maximizing the scientific gains from eruptions requires improved planning and coordinating science activities among...
Authors
Kari M Cooper, Kyle R. Anderson, Kathy Cashman, Michelle L. Coombs, Hannah R. Dietterich, Tobias P. Fischer, Bruce F. Houghton, Ingrid A. Johanson, Kendra J. Lynn, Michael Manga, Christelle Wauthier
By
Volcano Hazards Program, Volcano Science Center

Calibration of imperfect geophysical models by multiple satellite interferograms with measurement bias

Model calibration consists of using experimental or field data to estimate the unknown parameters of a mathematical model. The presence of model discrepancy and measurement bias in the data complicates this task. Satellite interferograms, for instance, are widely used for calibrating geophysical models in geological hazard quantification. In this work, we used satellite interferograms to...
Authors
Mengyang Gu, Kyle R. Anderson, Erika McPhillips
By
Volcano Hazards Program, Volcano Science Center

Optimizing satellite resources for the global assessment and mitigation of volcanic hazards—Suggestions from the USGS Powell Center Volcano Remote Sensing Working Group

A significant number of the world’s approximately 1,400 subaerial volcanoes with Holocene eruptions are unmonitored by ground-based sensors yet constitute a potential hazard to nearby residents and infrastructure, as well as air travel and global commerce. Data from an international constellation of more than 60 current satellite instruments provide a cost-effective means of tracking...
Authors
M. E. Pritchard, Michael P. Poland, Kevin Reath, B. J. Andrews, Marco Bagnardi, J. Biggs, Simon Carn, D. Coppola, S.K. Ebmeier, Maria Furtney, Társilo Girona, Julia P. Griswold, T. Lopez, P. Lundgren, Sarah E. Ogburn, Michael J. Pavolonis, M. Elise Rumpf, R. Greg Vaughan, Christelle Wauthier, Rick Wessels, R. H. Wright, Kyle R. Anderson, M.G. Bato, A. Roman
By
Natural Hazards Mission Area, Volcano Hazards Program, Astrogeology Science Center, Volcano Science Center

Incremental caldera collapse at Kīlauea Volcano recorded in ground tilt and high-rate GNSS data, with implications for collapse dynamics and the magma system

Ground deformation during caldera collapse at Kīlauea Volcano in 2018 was recorded in unprecedented detail on a network of real-time GNSS (Global Navigation Satellite System) and tilt instruments. Observations informed hazard assessments during the eruption and now yield insight into collapse dynamics and the magma system. The caldera grew in size over 78 days in a series of repeating...
Authors
Kyle R. Anderson, Ingrid A. Johanson
By
Volcano Hazards Program, Volcano Science Center

Could Kı̄lauea's 2020 post caldera-forming eruption have been anticipated?

In 2018 Kīlauea volcano erupted a decade’s worth of basalt, given estimated magma supply rates, triggering caldera collapse. Yet, less than 2.5 years later Kīlauea re-erupted. At the 2018 eruption onset, pressure within the summit reservoir was ~20 MPa above magmastatic. By the onset of collapse this decreased by ~17 MPa. Analysis of magma surges at the 2018 fissures, following collapse...
Authors
Paul Segall, Kyle R. Anderson, Taiyi A. Wang
By
Volcano Hazards Program, Volcano Science Center

Earthquake-derived seismic velocity changes during the 2018 caldera collapse of Kīlauea volcano

The 2018 Kīlauea caldera collapse produced extraordinary sequences of seismicity and deformation, with 62 episodic collapse events which significantly altered the landscape of the summit region. Despite decades of focused scientific studies at Kīlauea, detailed information about the internal structure of the volcano is limited. Recently developed techniques in seismic interferometry can...
Authors
Alicia J. Hotovec-Ellis, Brian Shiro, David R. Shelly, Kyle R. Anderson, Matt Haney, Weston A. Thelen, Emily K. Montgomery-Brown, Ingrid A. Johanson
By
Volcano Hazards Program, Volcano Science Center

Non-USGS Publications**

P. Segall and K. Anderson (2014), Look up for magma insights, Nature Geoscience, 7 (3), 2 pp., doi:10.1038/ngeo2064
Anderson, K. and P. Segall (2011), Physics-based models of ground deformation and extrusion rate at effusively erupting volcanoes, Journal of Geophysical Research, 116 (B7), 20 pp., doi:10.1029/2010JB007939
Anderson, K., M. Lisowski, and P. Segall (2010), Cyclic ground tilt associated with the 2004-2008 eruption of Mount St. Helens, Journal of Geophysical Research, 115 (B11), 29 pp., doi:10.1029/2009JB007102

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Science and Products

*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government

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