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Titan’s darkish dunes may very well be produced from comets


THE WOODLANDS, TEXAS — The darkish dunes of Titan, Saturn’s largest moon, may have fallen from house.

Greater than sufficient cometary materials might have struck Titan to have fashioned its huge dune fields, planetary scientist William Bottke reported March 12 on the Lunar and Planetary Science Convention. Pc simulations recommend that the enigmatic drifts fashioned from objects hailing from the primordial Kuiper Belt, a contemporary supply of comets past the orbit of Neptune. The proposed situation may additionally clarify the presence of comparable materials noticed on different worlds, stated Bottke, of the Southwest Analysis Institute in Boulder, Colo.

The character of Titan’s sand has lengthy been contemplated. Beneath the moon’s tangerine skies drift some 10 million sq. kilometers of dusky dunes (SN: 5/23/06). These waves of sand are about as huge as the large dunes discovered within the United Arab Emirates, says planetary geologist Jani Radebaugh of Brigham Younger College in Provo, Utah. These earthbound mounds are additionally the place the latest Dune movies have been shot (SN: 3/1/24).

The favored speculation contends that Titan’s undulating sands encompass natural particles produced by photo voltaic irradiation of its hazy ambiance (SN: 2/1/19). After these micron-sized particles fall to the floor, they someway develop bigger into sand-sized grains that may type dunes. However it’s not clear how precisely that development happens. What’s extra, laboratory checks present that the natural particles might break aside too simply to endure being buffeted into dunes, Bottke stated.

He and his colleagues suggest one other situation, one which begins early within the historical past of the photo voltaic system, roughly 4 billion years in the past.

One of the fashionable theories for the photo voltaic system’s evolution says that the enormous planets migrated from the place they fashioned to their present positions (SN: 10/20/23). Throughout this time, these planets are thought to have handed by means of the Kuiper Belt. That grand reshuffling would have led to the bombardment of Titan and different moons by comets. However many comets would have additionally smashed collectively, pulverizing them into tiny particles.

We all know a stunning quantity about these particles, Bottke stated, as a result of many have struck spacecraft and Earth. They’re resilient sufficient to outlive passing by means of our ambiance. They usually’re darkish and infrequently round 200 microns extensive, simply the correct measurement to construct darkish dunes on Titan.

Black and white radar image of dunes on Saturn’s moon Titan
This radar picture of dunes on Saturn’s moon, Titan, was captured in 2009 by NASA’s Cassini spacecraft.JPL/NASAThis radar picture of dunes on Saturn’s moon, Titan, was captured in 2009 by NASA’s Cassini spacecraft.JPL/NASA

Bottke and his colleagues ran pc simulations on how Saturn, Jupiter and their moons advanced throughout this chaotic interval, monitoring how a lot pulverized comet mud and what number of giant impactors fell on Titan and different moons of Saturn and Jupiter.

Each the mud and the impactors may have delivered greater than sufficient materials to account for Titan’s dunes, the group discovered. “We now have two sources that may doubtlessly do that,” Bottke stated.

What’s extra, the simulations confirmed that a lot of the fabric additionally struck Jupiter’s moons Callisto and Ganymede and the Saturnian moon Iapetus, all of that are identified to have giant patches of darkish materials.

The darkish materials on Iapetus is believed to have hailed from elsewhere, notes Radebaugh, who was not concerned within the analysis. So it’s believable that Titan’s sands may have otherworldly origins too, she says.

Nonetheless, it’s unclear whether or not the fabric would stay on Titan’s floor after falling. Ice volcanoes could also be erupting, or have erupted, on Titan, Radebaugh says. “For those who’re resurfacing by means of volcanism, that will create an issue for this [story].” Eruptions would subsume and bury the previous, fallen particles over time.

NASA’s Dragonfly mission to Titan, slated for launch in 2028, may clear up the thriller (SN: 6/27/19). “It’s a testable speculation,” says Melissa Coach, a planetary scientist at NASA’s Goddard House Flight Heart in Greenbelt, Md., who works on the mission. Devices onboard the rotorcraft will have the ability to take measurements of the compositions of the dune particles, she says.

And so in the future, maybe, a flying machine will verify that seas of shattered comets ripple on a distant moon.


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