Strategic Communications and Marketing News Bureau

Watching rocks grow: Theory explains landscape of geothermal springs

Simulation rendered by John Veysey and Nicholas Guttenberg

Simulation rendered by John Veysey and Nicholas Guttenberg

CHAMPAIGN, Ill. – Scientists at the University of Illinois at Urbana-Champaign have successfully modeled the spectacular landscapes seen at geothermal hot springs.

In work reported in Physical Review Letters on June 27, physics professor Nigel Goldenfeld and graduate students Pak Yuen Chan and John Veysey present a theoretical model that describes how hot spring water flows over the landscape, depositing calcium-carbonate minerals in the form of travertine. These deposits then dam and divert the water.

“The nonlinear feedback between these two effects inexorably leads to the visually striking landscapes seen throughout the world’s hot spring formations,” Goldenfeld said. “Remarkably, the resulting geological structures don’t depend on the rock structure or the mineral content – the statistical properties of the landscapes can be computed precisely.”

The Illinois team was able to analyze such complex landscapes by using novel computational tools that they related to more standard mathematical approaches.

Composed of a nested series of ponds and terraces, hot spring landscapes are not sculpted by the forces of erosion. Instead, the rocks actually grow at a rate of about 1 millimeter per day. The Illinois group’s model correctly simulates the way in which the landscape changes over time.

Hot springs comprise a complex ecosystem of interacting microbes, geochemistry and mineralogy. The rapid precipitation of calcium carbonate results in shifting flows, and in the sealing off of some springs and the eruption of new vents.

“Now that we understand the physical processes involved in how these rocks grow, we can address the way in which heat-loving microbes populate and influence the hot springs,” Veysey said.

This work was part of a multi-disciplinary project funded by the National Science Foundation to explore the geology and microbiology of the Mammoth Hot Springs complex.

Located near the northern boundary of Yellowstone National Park, Mammoth Hot Springs is one of the world’s largest sites of travertine accumulation, and is seen by 3 million visitors every year. The travertine deposits at Mammoth Hot Springs are approximately 8,000 years old, 73 meters thick and cover more than 4 square kilometers.

Editor’s note: More information can be found online.

To reach Nigel Goldenfeld, e-mail: nigel@uiuc.edu.

To reach John Veysey, e-mail: veysey@uiuc.edu.

To reach Pak Yuen Chan, e-mail: pakchan@uiuc.edu.

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