D. Stamps receives NSF CAREER grant to study role of volcanism in continental rifting
The Earth’s surface is composed of more than 56 tectonic plates that are constantly in motion. They fit together like puzzle pieces to form a hard shell around the Earth’s interior. After billions of years of slowly moving, the interactions between tectonic plates created the geologic formations we see today, such as volcanoes, mountain ranges, valleys, and faults.
D. Sarah Stamps, an assistant professor in the Department of Geosciences in the College of Science, has received a five-year Faculty Early Career Development (CAREER) Program grant worth $625,000 from the National Science Foundation (NSF) to investigate the role of volcanism in early phase continental rifting — the process in which two plates move apart and stretch the continental crust — at the Natron Rift in Tanzania.
“The Natron Rift is the best place in the world to study volcano-tectonic interactions during early phase rifting. You can’t find another place on Earth where you have early phase rifting and a volcano right next to a border fault,” Stamps said. “The main reason we haven’t understood the role of volcanism in early phase rifting is because the Natron Rift has yet to be studied with the techniques that we’re going to use.”
Due to a lack of observations specific to volcano-tectonic interactions, the role of volcanoes in early phase continental rifting remains unclear. Stamps and Elifuraha Saria, a collaborator at Ardhi University in Tanzania, hope to fill in these knowledge gaps.
The CAREER award is the National Science Foundation’s most prestigious awards in support of early-career faculty who have the potential to serve as academic role models in research and education.
Next summer, Stamps and her team of researchers will travel to the Natron Rift in the East African Rift System in Tanzania to collect GPS field data. By using GPS to measure surface motions, they will quantify how the Earth’s surface is moving both vertically and horizontally on the volcano and on the surrounding areas within the rift valley.
In addition to taking measurements, Stamps will employ a suite of datasets comprising geochemical data, seismic data, and gas measurements. She will also use open access data from a network of GPS stations she deployed between 2016 to 2018 to observe the volcano and develop computational models to better understand how a deformation of the volcano influences movement along the border fault. These models will also further the understanding of volcanic eruptive processes.
This grant will partially fund Joshua R. Jones, a current Ph.D. student in Stamps’ lab at Virginia Tech, as well as a new Ph.D. student beginning in the spring of 2021. Jones will create some of the geodynamic models of the volcano-tectonic interactions.
“Part of the broader impacts will be using real-time GPS data that comes from the volcano,” Stamps said. “Scientifically, we expect these results to inform volcanic eruptive processes and early phase continental rifting processes. We’ll be using independent data to compare with model predictions of volcanic eruptions.”
The grant will also fund an outreach component designed to engage students, especially underrepresented groups, in geosciences. Stamps will reach K-12 students by working with existing summer camps at Virginia Tech, such as the Black College Institute, to teach students about volcanic hazards and how to use GPS measurements to study earth sciences.
Stamps will also provide training and research opportunities for both undergraduate and graduate students. Part of the outreach components involves training undergraduate students from Hampton University in data analysis.
“I’m thrilled about the entire project. It builds upon a project I started in 2015 to develop a volcano observatory in Tanzania, so I’m excited about continuing that project and really expanding it to encompass more scientific investigations and education,” said Stamps.
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