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Cassini spies Titan’s tallest peaks

Titan's tallest peak is 10,948 feet high and is found within a trio of mountainous ridges called the Mithrim Montes.
RELATED TOPICS: SOLAR SYSTEM | TITAN | SATURN
Titan's peaks, Mithrim Montes
The trio of ridges on Titan known as Mithrim Montes is home to the hazy Saturnian moon's tallest peak.
NASA/JPL-Caltech/ASI
Scientists working on NASA's Cassini mission have identified the highest point on Saturn's largest moon, Titan.

Titan's tallest peak is 10,948 feet (3,337 meters) high and is found within a trio of mountainous ridges called the Mithrim Montes. The researchers found that all of Titan's highest peaks are about 10,000 feet (3,000 meters) in elevation. The study used images and other data from Cassini's radar instrument, which can peer through the obscuring smog of Titan's atmosphere to reveal the surface in detail.

"It's not only the highest point we've found so far on Titan, but we think it's the highest point we're likely to find," said Stephen Wall, deputy lead of the Cassini radar team at NASA's Jet Propulsion Laboratory in Pasadena, California.

Most of Titan's tallest mountains appear to be close to the equator. The researchers identified other peaks of similar height within the Mithrim Montes, as well as in the rugged region known as Xanadu and in collections of more isolated peaks called "ridge belts" located near the landing site of the European Space Agency’s Huygens probe.

The investigation was originally motivated by a search for active zones within Titan's crust — places where dynamic forces have shaped the landscape, perhaps in the relatively recent past.

"As explorers, we're motivated to find the highest or deepest places, partly because it's exciting. But Titan's extremes also tell us important things about forces affecting its evolution," said Jani Radebaugh from Brigham Young University in Provo, Utah.

Mountains and cliffs on Earth usually are found in locations where forces have shoved the surface upward from underneath. Forces of erosion, including wind, rain, and runoff, slowly wear them down over time. The Himalaya and Andes Mountains are examples of places where interior forces are at work today. The Appalachian Mountains represent much more ancient activity that produced similarly gigantic peaks long ago, which have since eroded.

Cassini has found that Titan also has rain and rivers that erode its landscape. According to Radebaugh, the process probably proceeds much more slowly on Titan than on Earth, because at 10 times Earth's distance from the Sun there is less energy to power erosive processes in the moon's atmosphere.

Titan's icy crust sits atop a deep ocean of liquid water that probably acts much like Earth's upper mantle — the layer of hot high-pressure rock below the crust that can slowly flow and deform over time. Once a period of mountain-building ends, these fluid layers — Earth's upper mantle and Titan's liquid ocean — allow the crust to relax, like a person settling into a waterbed. Also, at great depth, the water-ice bedrock of Titan is softer than rock on Earth. Because of these characteristics, scientists didn't expect mountains on Titan would tower quite as high as those on Earth, which can rise to more than 5 miles (9 kilometers) tall.

The fact that Titan has significant mountains at all suggests that some active tectonic forces could be affecting the surface, for example related to Titan's rotation, tidal forces from Saturn, or cooling of the crust. The next step for the researchers will be trying to figure out what could produce such tall peaks on an icy ocean world.

"There is lot of value in examining the topography of Titan in a broad global sense, since it tells us about forces acting on the surface from below as well as above," said Radebaugh.
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