Member Since 2012
Courtney Jean Sprain
Assistant Professor, University of Florida
Professional Experience
University of Florida
Assistant Professor
2019 - Present
University of Liverpool
Postdoctoral Research Associate
2017 - 2019
Berkeley Geochronology Center
PhD student
2012 - 2017
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Education
University of California Berkeley
Doctorate
Honors & Awards
William Gilbert Award
Received December 2022
Citation
We recognize Prof. Courtney Sprain for “outstanding contributions to geochronology including radiometric and paleomagnetic methods to solve persistent problems in the Earth sciences.” Her research focuses on a better understanding of important aspects of Earth’s evolution, ranging from the origin and nature of deep interior processes to ones that have affected Earth’s surface and life on it. She represents the best of us in her highly integrative and creative research and her generous and collegial approach to science. As a graduate student, Sprain knit together paleomagnetic and radiometric approaches to geochronology, working on the famous Hell Creek Formation in Montana. This formation has the last traces of dinosaurs and the first sniff of mammals spanning the Cretaceous/Paleogene boundary. Magnetostratigraphic constraints provide only the crude estimate that the extinction happened in a reverse polarity chron (C29r), which is over a million years long. Sprain analyzed many tephra layers intercalated with the fossiliferous sediments, providing the highest-resolution look to date at what happened during this fascinating period of time. The benefit of combining magnetostratigraphy and Ar-Ar dating was further illustrated in her work on the Deccan Traps in India. Sprain was able, through high-resolution dating, to demonstrate that most of the Deccan Traps really blasted off (literally) in response to the Chicxulub impact. She further argued that Late Cretaceous records of climate change coincided with the eruption of the early phases of the traps (before the boundary) and that the Deccan was not the source of Late Cretaceous climate change. During her postdoctoral years, Sprain added more to her tool kit in a groundbreaking new analysis of a challenging subject in paleomagnetism/geomagnetism: numerical geodynamo simulations. This is a tricky business, because the domain in which the numerical models operate cannot (yet) achieve Earth-like conditions. Nonetheless, Sprain and coauthors found models that do produce Earth-like field behavior, allowing us to simulate long-term geomagnetic field behavior and gain a greater understanding of Earth’s core and its evolution. Moreover, Courtney expanded the opportunities for providing high-quality paleointensity records by demonstrating the potential of clinker deposits. This kind of investigation is critical to the future study of the behavior of Earth’s ancient field strength, as the current database is dominated by results from materials that are less than ideal. In summary, Prof. Courtney J. Sprain is a superb candidate for the William Gilbert Award, and the community celebrates her recognition. —Lisa Tauxe, Scripps Institution of Oceanography, La Jolla, Calif.; and John Geissman, University of Texas at Dallas
Response
I am extremely honored to receive the 2022 William Gilbert Award. Over the past 10+ years, the Geomagnetism, Paleomagnetism, and Electromagnetism (GPE) community has felt like a second family. I know I would not be where I am today without the community’s continued support, mentorship, and friendship. I have so many people to thank, starting with all the members of the Institute for Rock Magnetism (IRM). I was extremely fortunate to get involved with IRM as an undergraduate student through a research position with Josh Feinberg (in collaboration with John Geissman). Josh was a wonderful adviser, and he’s continued to be a great mentor. Other IRM members also provided substantial support, including Julie Bowles, Bruce Moskowitz, Mike Jackson, Peter Solheid, Beck Strauss, Max Brown, Dario Bilardello, and Nick Swanson-Hysell, among others. Since my time as an undergraduate, IRM has welcomed me back on numerous occasions, and I am beyond grateful for their continued support and guidance. I’d also like to thank my Ph.D. adviser, Paul Renne, who has been a great mentor and allowed me to continue my passion for paleomagnetism while teaching me the fundamentals of 40Ar/39Ar geochronology. In addition, I’d like to thank Nick Swanson-Hysell, who during my time at Berkeley welcomed me into his group where I was surrounded by others, like Nick, Sonia Tikoo-Schantz, and Sarah Slotznick, who shared my enthusiasm for paleomagnetism. I also need to thank everyone from the Geomagnetism Laboratory at the University of Liverpool, including Andy Biggin, Greig Paterson, Richard Bono, Annique van der Boon, Yael Engbers, Daniele Thallner, Michael Grappone, Louise Hawkins, Simon Lloyd, Ben Handford, Domenico Meduri, Elliot Hurst, and honorary member Chris Davies, among others. Andy, thank you so much for hiring me as your postdoc—I loved my time in Liverpool. At the University of Florida (UF), I’m very fortunate to have been hired into a legacy of excellence in paleomagnetism following in the footsteps of Neil Opdyke, Jim Channell, and Joe Meert. I’m so grateful to be here and to continue the tradition of UF paleomagnetic research with Joe Meert and Rob Hatfield. Finally, I need to thank my nominators and the committee for this award. Lisa, you have been a mentor to so many of us and an inspiration to many early-career paleomagnetists. John, I very literally owe my beginnings in paleomagnetism to you. Your kindness and support over the years have been greatly appreciated. —Courtney J. Sprain, University of Florida, Gainesville
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Outstanding Reviewer Award - Geochemistry, Geophysics, Geosystems
Received December 2017
Publications
A Global Paleosecular Variation Database for the Paleogene: Stationary Secular Variation Behavior Si...

Paleosecular variation analysis is a primary tool for characterizing ancient geomagnetic behavior and its evolution through time. This study presen...

June 16, 2024
AGU Abstracts
Mantle Plumes and Geomagnetic Intensity Variations: Insights from the Deccan Traps
AGU 2024
geomagnetism, paleomagnetism and electromagnetism | 12 december 2024
Katie E. Bristol, Courtney J. Sprain, Tushar Mitta...
Studying the long-term behavior of the geomagnetic field is crucial for understanding the planets evolution, including its internal dynamics, surface ...
View Abstract
Rock Magnetic Characterization of Marine Sediments Across the Cretaceous-Paleogene Boundary
AGU 2024
geomagnetism, paleomagnetism and electromagnetism | 11 december 2024
Gabriela Gaarder, Courtney J. Sprain
With a wealth of geologic evidence and widespread, permanent impacts on marine and terrestrial ecosystems, the Cretaceous-Paleogene (KPg) boundary mas...
View Abstract
The effect of spatially heterogeneous core-mantle boundary heat flux pattern variations on paleomagnetic observables
AGU 2024
study of earth's deep interior | 10 december 2024
Daniele Thallner, Courtney J. Sprain, Juliane Dann...
The geomagnetic field, generated by convective processes in the Earths outer core, has likely been a fundamental feature of our planet for at least 3....
View Abstract
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