E-Mail IMAGE: The outline of the Steamboat and Cistern plumbing systems with two viewing angles. The structure, color-coded by the depth, delineates the observed seismically active area during the eruption cycles. The... view more Credit: Courtesy of Sin-Mei Wu/University of Utah When Steamboat Geyser, the world's tallest, started erupting again in 2018 in Yellowstone National Park after decades of relative silence, it raised a few tantalizing scientific questions. Why is it so tall? Why is it erupting again now? And what can we learn about it before it goes quiet again? The University of Utah has been studying the geology and seismology of Yellowstone and its unique features for decades, so U scientists were ready to jump at the opportunity to get an unprecedented look at the workings of Steamboat Geyser. Their findings provide a picture of the depth of the geyser as well as a redefinition of a long-assumed relationship between the geyser and a nearby spring. The findings are published in the