Jupiter’s moon Io may have been volcanically active ever since it was born

The fiery moon has been a hellscape for roughly 4.6 billion years

An image showing the dark and light sides of Io, a moon of Jupiter

Jupiter’s moon Io may have been volcanically active throughout its life. In this image of Io, taken by NASA’s Juno spacecraft in 2023, a bright volcanic plume can be seen on the left, just below the boundary between the moon’s light and dark sides.

JPL-Caltech/NASA, SwRI, MSSS

Jupiter’s moon Io has possibly been erupting for a very, very, very long time.

Io is the most volcanically active body in our solar system, with some of its volcanoes shooting magma higher than planes on Earth fly (SN: 5/3/22). And while extreme, it seems that this hellish behavior is no short-lived phase. Io may have been volcanically active throughout its entire 4.57-billion-year existence, researchers report April 18 in Science.

“If Io has been volcanic for its entire history, the amount of material that has to have erupted onto its surface is tens to hundreds of times its entire mantle,” says Caltech planetary scientist Katherine de Kleer. That erupted material must then be repeatedly recycled back into Io’s mantle, she says.

An infrared image of Io, a moon of Jupiter
In 2022, NASA’s Juno spacecraft captured this infrared image of Io that shows hotspots dotting the volcanic moon’s surface. Brighter colors indicate higher temperatures. JPL-Caltech/NASA, SwRI, ASI, INAF, JIRAM

Using data from the ALMA radio observatory in Chile, de Kleer and colleagues determined the concentrations of both heavy and light variants of sulfur and chlorine in Io’s atmosphere. Volcanic processes eject both variants from Io’s mantle into its atmosphere, where the lighter variants are more likely to be lost to space. Over time, the heavier variants should become increasingly concentrated in Io’s atmosphere, acting like a meter of its volcanic activity.

Io has lost somewhere between 94 to 99 percent of its total sulfur, excluding whatever may be stored in its core, the team found. If Io had always been losing sulfur at anywhere from half to five times its current rate, calculations suggest that depletion would have taken all or most of Io’s lifespan.

The longevity of Io’s volcanism could have implications for its sibling moon Europa. The pair are orbitally locked in a gravitational dance that pumps heat into both. If this heat has long sustained Io’s volcanism, it may have also warmed Europa, de Kleer says, perhaps one of our solar system’s most habitable worlds (SN: 4/19/22). And so, as one moon raged in an endless temper, its sibling may have long harbored conditions favorable to life.

Nikk Ogasa is a staff writer who focuses on the physical sciences for Science News. He has a master's degree in geology from McGill University, and a master's degree in science communication from the University of California, Santa Cruz.