Using Synthetic Aperture Radar Interferometry, InSAR for short, Charles Wicks, Wayne Thatcher and other U.S. Geological Survey (USGS) scientists mapped the changes in the northern rim of the caldera, or crater, and discovered it had risen about 13 centimetres from 1997 to 2003.
InSAR, a sophisticated version of 'spot the difference', involves mathematically combining different radar images, acquired from as near as possible to the same point in space at different times, to create digital elevation models and reveal otherwise undetectable changes occurring between image acquisitions.
"We know now how mobile and restless the Yellowstone caldera actually is. Ground-based measurements can be more efficiently deployed because of our work," Thatcher said. "The research could not have been done without satellite radar data."
About 640,000 years ago, a massive volcano erupted in Yellowstone, creating the caldera, which measures some 45 kilometres wide and 75 kilometres long, in the centre of Yellowstone National Park.
At the same time the northern rim of the caldera began rising – referred to as the North Rim Uplift Anomaly (NUA) – in 1997, the floor of the caldera began sinking.
According to the article, published on 2 March 2006, the floor sank as the molten rock (magma) flowed out of the caldera into the Yellowstone volcanic system.
The uplift of the caldera's rim is theorised to have occurred even as the floor sank because one of the natural valves, which allow the magma to enter into the volcanic system, was unable to accommodate the increased flow of magma, causing it to accumulate beneath the north caldera boundary.
The magma movement may have also triggered the sudden rise in temperatures at the Norris Geyser Basin and the eruption of the Steamboat Geyser in 2000. The world's largest geyser, Steamboat had been inactive for nine years, but erupted five times between 2000 and 2003.
The disturbances in the geyser during that three-year period are not unique in Yellowstone's history, but, as stated in the article, this is the first time the changes in the deformation field in the park suggests a cause-and-effect relationship – thanks to the use of InSAR data.
Despite the activity in the caldera, Thatcher said the likelihood for a magmatic eruption is extremely low. However, the area poses other potential risks.
"The possibility of a steam-water explosion ('Phreatic eruption') is perhaps the greatest risk. Its effects would be quite local, but still potentially dangerous," he said.
Having access to data over long periods of time is important for scientists to identify and analyse long-term trends and changes. ESA now has a 15-year archive of homogenous data thanks to the continuity of satellites ERS-1, ERS-2 and Envisat. Envisat and ERS-2, with a difference in overpass time of 30 minutes, are continually adding to the archive.
"The complete aerial coverage and frequent repeat satellite passes creates a unique suite of deformation measurements of restless volcanoes worldwide. They are particularly useful in remote and inaccessible areas. We will continue to monitor Yellowstone with InSAR imaging," Thatcher said.
Source: European Space Agency
Related stories:
Yellowstone rising: Volcano inflating with molten rock at record rate
The Yellowstone “supervolcano” rose at a record rate since mid-2004, likely because a Los Angeles-sized, pancake-shaped blob of molten rock was injected 6 miles beneath the slumbering giant, University of Utah scientists report in the journal
Science.
Yellowstone's Quiet Power
A 17-year University of Utah study of ground movements shows that the power of the huge volcanic hotspot beneath Yellowstone National Park is much greater than previously thought during times when the giant volcano is slumbering.
Mega eruption of Yellowstone's southern twin
North America isn't the only continent that's experienced super-colossal volcanic eruptions in the recent geologic past. The massive explosion of the almost unknown Vilama Caldera in Argentina appears to have matched Yellowstone's last continent-blanketing blast. It may, in fact, be just one of several unappreciated supervolcanoes hidden in a veritable mega-volcano nursery called the Eduardo Avaroa Caldera Complex, located in the inhospitable Puna-Altiplano region near the tri-section of Argentina, Bolivia, and Chile.
Map of life on Earth could be used on Mars
A geologist from Washington University in St. Louis is developing new techniques to render a more coherent story of how primitive life arose and diverged on Earth - with implications for Mars.
Carrine Blank, Ph.D., Washington University assistant professor of earth and planetary sciences in Arts & Sciences, has some insight concerning terrestrial microbes that could lead to provocative conclusions about the nature of life on Mars and other planets.
Yellowstone Lake Shore Changing; UA Scientists Investigating Causes
A University of Arkansas researcher has found that, in the past 50 years, the shoreline on a segment of Yellowstone Lake has been changing in complex ways that are not completely understood.
Barbara Pickup, graduate student in the environmental dynamics program at the University of Arkansas, presented her findings at a recent meeting of the Geological Society of America.
World's fastest-growing mud volcano is collapsing, says new research
The world’s fastest-growing mud volcano is collapsing and could subside to depths of more than 140 metres with consequences for the surrounding environment, according to new research.
Dramatic developments at Kilauea Volcano: Scientists work to keep public safe and informed
Explosive eruptions and noxious gas emissions at Kilauea Volcano in Hawaii this week have prompted scientists to work around the clock to understand what will happen next and how to keep the public out of harm’s way.
Kilauea volcano shoots plume of ash
Scientists in Hawaii say they are keeping a close watch on a plume of ash from Kilauea Volcano's Halemaumau Crater.
