Scientists have uncovered new types of organics in icy geysers spouting from Saturn’s moon Enceladus, bolstering the likelihood that the ocean world may harbor conditions suitable for life.
Their findings, reported Wednesday, are based on observations made by NASA’s Cassini spacecraft in 2008 during a close and fast flyby of Enceladus. The small moon, one of 274 orbiting Saturn, has long been considered a prime candidate in the search for life beyond Earth because of its hidden ocean and plumes of water erupting from cracks near its south pole.
While Enceladus may be habitable, no one is suggesting that life exists.
“Being habitable and being inhabited are two very different things. We believe that Enceladus is habitable, but we do not know if life is indeed present,” said the University of Washington's Fabian Klenner, who took part in the study.
An international team decided to launch a fresh analysis of tiny grains of ice encountered as Cassini flew through the moon's geysers. The grains were young compared with the much older geyser particles that ended up in one of Saturn’s outermost rings.
These new grains collided with Cassini’s cosmic dust analyzer at 40,000 mph (64,800 kph), faster than the old ones. The increased speed provided a clearer view of the chemical compounds present, the scientists noted.
Organic molecules already had been spotted in the old geyser grains, but their age raised questions as to whether they had been altered over the years by space radiation.
Scientists found some of the same molecules in the fresh grains, confirming they came from the moon’s underground sea, as well as new chemical compounds. The findings were published in Nature Astronomy.
An ice-encapsulated water world barely 310 miles (500 kilometers) across with a rocky core, Enceladus is suspected of having hydrothermal vents on its ocean floor, quite possibly like those in the Arctic. The moon's jets of water vapor and frozen particles can stretch thousands of miles (kilometers) into space.
“We are confident that these molecules originate from the subsurface ocean of Enceladus, enhancing its habitability potential,” the Free University of Berlin’s Nozair Khawaja, the lead author, said in an email.
The scientists favor new missions to further explore Enceladus. Launched in 1997, Cassini is long gone; the spacecraft was deliberately plunged into Saturn in 2017 following its joint mission by NASA, the European Space Agency and the Italian Space Agency.
“Having a variety of organic compounds on an extraterrestrial water world is simply phenomenal,” Klenner said in an email.
The European Space Agency is in the early planning stages of a mission to land on Enceladus decades from now. China also has proposed a landing mission.
NASA has a spacecraft en route to another enticing target to hunt for the ingredients of life: Jupiter's moon Europa. The Europa Clipper is expected to begin orbiting Jupiter in 2030 with dozens of Europa flybys. ESA also has a spacecraft, Juice, that's headed to Jupiter to explore Europa and two other icy moons that could hold buried oceans.
Underground oceans on moons “are perhaps the best candidates for the emergence of extraterrestrial life in our solar system. This work only confirms the need for further studies,” said University of Kent physics professor Nigel Mason, who was not involved in the latest findings.
