An important chapter in our exploration of the solar system concludes tomorrow, when NASA’s Cassini probe makes its final close flyby of Enceladus, an icy moon orbiting Saturn with a global ocean
beneath its surface. Cassini has already collected samples
to determine if Enceladus’ seawater might be habitable-but we still have some unfinished business with this tiny Saturnian satellite.
On December 19th at 9:49 a.m. PST (12:49 p.m. EST), Cassini will zip within 3,106 miles (4,999 km) of Enceladus’ south polar terrain, where curtains of ocean spray
surge into space at a rip-roaring 800 miles per hour, feeding Saturn’s E-ring
. It’ll be the 22nd time Cassini has flown by Enceladus since entering Saturn’s orbit in 2004. While it isn’t our closest pass by a long-shot-we sailed within 16 miles of the moon’s surface in 2008, and took another deep dive
thorough its south polar plume this past October-tomorrow’s flyby distance was carefully selected to answer a critical question: how much heat is emanating from Enceladus’ ocean?
“Measuring the heat from the south pole is a very important constraint on how much heat there is in the interior,” Linda Spilker, Cassini project scientist at NASA’s Jet Propulsion Laboratory, told a phone interview. And determining how hot the moon’s core is will help astrobiologists figure out whether Enceladus really can support life.
A mere 301 miles (484 km) in diameter, Enceladus is a complex, geologically active moon with thick outer ice shell and a rocky core kept warm through the gravitational tug of Saturn and another moon, Dione. Sandwiched between icy crust and rocky interior is a globe-spanning ocean that’s become one of the most interesting places to hunt for life beyond Earth.
Best of all, cracks in the moon’s south pole ice sheet are shooting jets of frozen saltwater into space-free samples for any curious space probes who happen to be in the neighborhood. In October, Cassini took a deep plunge through that south pole plume
, passing within 30 miles (48 km) of Enceladus’ surface to collect a droplet of alien ocean water.
Scientists are hard at work analyzing the October sample’s chemistry, and hope to announce their findings within the coming months. “We’re really looking forward to completing the mass spec analysis of molecular hydrogen,” Spilker said. Molecular hydrogen, or H2, is a simple energy source that feeds microbial communities living in deep sea vents on Earth today, and if we find it on Enceladus, that’d be a big deal.
Conceptual model of Enceladus’ south pole. A hot, rocky core maintains a liquid ocean layer beneath the moon’s thick outer ice sheet. Cracks in that ice sheet release pressurized material from the interior. Image Credit: NASA / JPL-Caltech
Tomorrow’s flyby will add another piece to the habitability puzzle. Life doesn’t just need a chemical energy source, it needs heat. “We now have evidence of nanosilica grains that could only be generated in very hot water, leading us to discuss hydrothermal vents,” Spilker said.
And of all the places to look for hydrothermal activity, the south pole is most promising. For one, it’s currently in the darkness of a years-long Saturnian winter. Without the Sun’s rays striking Enceladus’ surface, scientists will have an easier time detecting heat from the interior. What’s more, recent modeling work indicates that the crust over the south pole is particularly thin. “Maybe that thinner crust means we have a warmer region in the south,” Spilker said.
By angling its Composite Infrared Spectrometer (CIRS) instrument at the south pole during tomorrow’s flyby, Cassini should be able to construct a good picture of heat flow across the moon’s splintered surface. “The distance of this flyby is in the sweet spot for us to map the heat coming from within Enceladus-not too close, and not too far away,” said Mike Flasar, CIRS team lead at NASA’s Goddard Space Flight Center in a statement. “It allows us to map a good portion of the intriguing south polar region at good resolution.”
With the data Cassini collects tomorrow, and all the other science it’s accomplished this past year, we can expect to have a much better picture of Enceladus’ habitability prospects in the near future. One way or another, our discoveries about this little ice moon have been an incredible, and unexpected, outcome of Cassini’s decade-long exploration of Saturn’s rings.
Plume jets rise from Enceladus’ south pole in this Cassini image taken in 2014. In the foreground, you can see the textured, crater-free terrain that’s characteristic of the south polar region. Image Credit: Cassini Imaging Team/SSL/JPL/NASA/ESA
“What’s amazing is when we first planned our mission, we had three flybys of Enceladus,” Spilker said. “After the first, when we detected the plume, we essentially reshaped the mission around getting as many as we could.”
“I think over the course of the Cassini mission, we’ve really changed our paradigm of where we might look for life,” she continued. “It’s not just about finding that zone for liquid water on its surface-but finding the right conditions for a liquid ocean, a source of energy, contact with a rocky core.”
Who knows-maybe first contact won’t involve an rocky planet in the habitable zone of a sun-like star, but a weird, alien moon, nestled in the shadows of a monstrous gas giant in the frigid reaches of space.
Top image: Artist’s concept of Cassini zipping past Enceladus’ south pole, via NASA/JPL-Caltech