U of I Researcher, Cassini Team Spot Dust Storms on Titan
September 24, 2018
MOSCOW, Idaho — Sept. 24, 2018 — Data from the international Cassini spacecraft, which explored Saturn and its moons between 2004 and 2017, has revealed what appear to be giant dust storms in the equatorial regions of Titan, Saturn’s largest moon. A team of scientists, including University of Idaho astrophysicist Jason Barnes, published their findings today in the journal .
“We now know that Titan has active dust transport, making it only the third place in our solar system where we’ve seen this. Until now, it’s been Earth and the global dust storms on Mars,” said Barnes, an associate professor in the Department of Physics. “This information is essential for anyone, like myself, who wants to send a probe to Titan.”
Titan is the only moon in our solar system with a substantial atmosphere and the only celestial body other than Earth known to have stable bodies of surface liquid. Titan’s rivers, lakes and seas are filled primarily with methane instead of water, however. Around the equinox — when the sun crosses Titan’s equator — massive clouds can form in tropical regions and cause powerful methane storms.
Graham Vixie, who was working on his doctorate under Barnes, and Jacob Bow, a U of I undergraduate at the time, originally noticed short-lived bright spots around Titan’s northern equinox while studying infrared images taken by Cassini in 2009. Modelling by the research team suggested the bright features were a thin layer of tiny, solid, organic particles in the atmosphere. The analyses indicated the bright spots were most likely clouds of dust raised from dune fields around Titan’s equator.
“For the moment, the only satisfactory explanation for these strong surface winds is that they might be related to the powerful gusts that may arise in front of the huge methane storms we observe in that area and season,” said Sebastien Rodriguez, lead scientist on the study and an astronomer at the University Paris Diderot, France.
The existence of such strong winds and the generation of massive dust storms implies the underlying sand can be set in motion and the giant dunes covering Titan’s equatorial regions are still active and continually changing, according to researchers. The winds could be transporting the dust raised from the dunes across large distances, contributing to a global cycle of organic dust on Titan similar to cycles observed on Earth and Mars.
Barnes is a member of a research team that hopes to send a to Titan. The team is one of two finalists for funding from .
This project was funded under the National Aeronautics and Space Administration grant No. NNX09AP34G. The total amount of federal funds received by the University of Idaho is $174,144, which amounts to 100 percent of the total cost of the project.
University of Idaho
University Paris Diderot, France
Planetary and Space Science Group, Institut de Physique du Globe de Paris
Science and Content Writer
University of Idaho
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