When you buy through links on our articles, Future and its syndication partners may earn a commission.Jupiter’s ocean moon Europa, as seen by NASA’s Galileo probe. | Credit: NASAJupiter’s icy moon Europa may have a previously unrecognized way of delivering life-supporting chemicals to its vast subsurface ocean, according to new research.Europa, one of the dozens of moons orbiting Jupiter, has long intrigued scientists as one of the most promising places in the solar system to search for extraterrestrial life, thanks to a hidden global ocean beneath its fractured, frozen surface that may contain twice as much salty water as all of Earth’s oceans combined. Unlike Earth, however, Europa’s ocean is deprived of oxygen and sealed off from sunlight, ruling out photosynthesis and requiring any potential life to rely on chemical energy instead. A key unanswered question has been how ingredients for that energy — such as life-supporting oxidants created on the moon’s surface by intense radiation from Jupiter — could be transported through Europa’s thick ice shell to the ocean below. Now, a new study by researchers at Washington State University suggests the answer may lie in a slow but persistent geological process that causes portions of Europa’s surface ice to sink, carrying those chemicals downward.AdvertisementAdvertisementAdvertisementAdvertisement”This is a novel idea in planetary science, inspired by a well-understood idea in Earth science,” study lead author Austin Green, now a postdoctoral researcher at Virginia Tech, said in a statement. “Most excitingly, this new idea addresses one of the longstanding habitability problems on Europa and is a good sign for the prospects of extraterrestrial life in its ocean.”Scientists know from images taken during spacecraft flybys that Europa’s surface is highly geologically active due to Jupiter’s powerful gravitational pull. However, most of this motion appears to occur horizontally rather than vertically, according to the new study, which limits opportunities for surface materials to migrate downward, except during extreme events such as the formation of large fractures.Additionally, the Jovian moon’s near-surface ice is thought to behave as a rigid “stagnant lid,” further restricting the delivery of oxidants to the subsurface ocean, the study notes.Using computer models, the researchers found that pockets of salt-rich ice near Europa’s surface can become both denser and mechanically weaker than surrounding, purer ice. Under the right conditions, these denser patches can detach and slowly sink, or “drip,” through the ice shell, eventually reaching the ocean below in as little as 30,000 years, according to the study.AdvertisementAdvertisementAdvertisementAdvertisementThe process, known as lithospheric foundering, resembles a geological process on Earth in which portions of the planet’s outermost layer sink into the mantle. In 2025, researchers identified this process unfolding beneath the Sierra Nevada mountain range.To test …
