This giant crater on Ceres with bright spots may be the most fascinating place in the solar system
For a few months in 2018, as NASA's Dawn spacecraft used up its last drops of fuel, it gave scientists an incredibly detailed look at one of the strangest places in the solar system: Occator Crater.
That's the name of a massive impact site on the dwarf planet Ceres, tucked away in the asteroid belt. In the mission's last months, Dawn flew just 22 miles (35 kilometers) above the dwarf planet's surface and focused its energies on Occator Crater. Earlier observations from the mission had suggested that some sort of geological activity was bringing saltwater to the surface, and scientists wanted a closer look.
Now, initial analysis of those final months of science suggest that Ceres may have been active much more recently than scientists had dared to imagine, according to an article summarizing seven different research papers published today (Aug. 10) in the journals Nature Communications, Nature Geoscience and Nature Astronomy.
In Photos: The changing bright spots of dwarf planet Ceres
Ceres: A strange dwarf planet
"Dawn accomplished far more than we hoped when it embarked on its extraordinary extraterrestrial expedition," Mission Director Marc Rayman of NASA's Jet Propulsion Laboratory in California said in a NASA statement. "These exciting new discoveries from the end of its long and productive mission are a wonderful tribute to this remarkable interplanetary explorer."
The new research papers focus on a host of different intriguing findings about Occator Crater, which is about 22 million years old and about 57 miles across (92 km), as well as about Ceres more generally.
One of the new papers, for example, constructs a detailed timeline of geological events at the crater, hypothesizing that cryovolcanism began just 9 million years ago and continued for several million years. A series of bright deposits formed over that time from brine seeping out from Ceres' mantle through the upper layer of rock, with activity continuing as recently as a million years ago.
Get the Space.com Newsletter
Breaking space news, the latest updates on rocket launches, skywatching events and more!
And this volcanism, the authors argue, is unlike any other in the solar system, since it occurs on a relatively small object that isn't subject to the gravitational tugs experienced by places like Jupiter's ultra-volcanic moon Io.
Another paper identifies a specific form of salt found so far only on Earth and now on Ceres that is particularly short-lived, on the scale of centuries, according to a statement. The combination suggests that the brines that deposited them on the surface must have done so very recently and perhaps continue to move through the asteroid today. These salts could also solve the puzzle of what's keeping Ceres relatively warm without gravitational tugging and could be responsible for maintaining pockets of liquid within the asteroid.
And the impact that created Occator Crater itself may have brought enough heat to the dwarf planet to trigger the brine seepage that left bright deposits at the surface by forcing the brine through older cracks in the rock.
Another paper attempts to identify where the brine in different patches of the crater came from, suggesting that certain areas come from water in the melted subsurface pool created by the impact itself and some from an older and deeper, more global reservoir on Ceres.
Other papers in the new batch of research analyze how Ceres' crust differs in different locations, how the mounds and hills inside the crater may have formed and how the salty deposits compare to activity on the moon and on Mars.
Although Dawn's final months revolutionized scientists' view of the dwarf planet and its large crater, the new research doesn't satisfy curiosity about this ocean world asteroid and may lay the groundwork for a new mission to Ceres, according to an overview paper released with the new findings.
Email Meghan Bartels at mbartels@space.com or follow her on Twitter @meghanbartels. Follow us on Twitter @Spacedotcom and on Facebook.
Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: community@space.com.
Meghan is a senior writer at Space.com and has more than five years' experience as a science journalist based in New York City. She joined Space.com in July 2018, with previous writing published in outlets including Newsweek and Audubon. Meghan earned an MA in science journalism from New York University and a BA in classics from Georgetown University, and in her free time she enjoys reading and visiting museums. Follow her on Twitter at @meghanbartels.
-
rod The space.com article stated "The new research papers focus on a host of different intriguing findings about Occator Crater, which is about 22 million years old and about 57 miles across (92 km), as well as about Ceres more generally."Reply
Here is another link on the age dating at Ceres and young surface age encountered. 'Recent cryovolcanic activity at Occator crater on Ceres', https://www.nature.com/articles/s41550-020-1146-8, "Abstract NASA’s Dawn mission revealed a partially differentiated Ceres that has experienced cryovolcanic activity throughout its history up to the recent past. The Occator impact crater, which formed ~22 Myr ago, displays bright deposits (faculae) across its floor whose origins are still under debate: two competing hypotheses involve eruption of brines from the crust–mantle transition boundary (remnants of an ancient ocean) or alternatively from a shallow impact melt chamber. Here we report new constraints on the history of Occator that help in testing the hypotheses of its formation..."
I find this report on Ceres young surface age in places, interesting in view of a recent report on Ganymede impact age, https://forums.space.com/threads/jupiters-huge-moon-ganymede-may-have-the-largest-impact-scar-in-the-solar-system.32802/
Perhaps there is a complete database published showing all the young vs. old ages uncovered in different locations for the solar system and the different methods used to reconcile all the different ages reported. Such a database would show the cosmic ray exposure ages for various meteorites as well as meteorite radiometric years. And there is the young ring ages reported at Saturn. What about Jupiter's ring age, Uranus, Neptune?
At home, I setup a database using MS ACCESS and keep track of as much as I can. -
Catastrophe https://commons.wikimedia.org/wiki/File:pIA20694-Ceres-DwarfPlanet-OccatorCrater-Carbonates-20160629.jpg#/media/File:pIA20694-Ceres-DwarfPlanet-OccatorCrater-Carbonates-20160629.jpgReply