“This doesn’t necessarily mean the water vapor is coming from an ocean,” says NASA planetary scientist Lucas Paganini. “But it does seem like this detection is connected to liquid water under the surface.”A lot of what we know about Europa was gleaned from data collected by the Galileo spacecraft on its tour of Jupiter in the late ’90s. One of the most remarkable findings from that mission was that something was messing with Jupiter’s magnetic field. Based on this finding, planetary scientists hypothesized Europa might be home to an electrically conductive fluid, like salt water, that was causing the magnetic disturbances.
To collect more data, scientists have been studying the Jovian satellite using telescopes—no small feat considering Europa is smaller than Earth’s moon and about 500 million miles away. In 2016, scientists used the Hubble Space Telescope to detect what appeared to be water plumes erupting from Europa’s surface. The plumes were sporadic, and Hubble only detected a few of them. Yet they were a clue.Over the course of 17 nights starting in late 2016, a team of scientists led by Paganini used Keck, the world’s second largest telescope, to study Europa’s atmosphere. If they detected water vapor, they would have to contend with two leading theories for how it got there. The first theory is that either a subsurface global ocean or pockets of liquid water in Europa’s crust ejected it into the atmosphere. The other is that charged particles from Jupiter are bombarding the moon and turning the water ice on the surface into water vapor.
Balneario Camboriu view from the bay with partial watershed © Timm Kroeger/TNC In the first rigorous, peer-reviewed study on water fund Return on Investment (ROI) for cities in Brazil’s Atlantic Forest, TNC scientists examine the Camboriú Water Fund and show that nature can be a cost-effective solution for improving urban water supplies and reducing treatment costs.
In the latter case, Paganini and his team would expect to see roughly the same amount of water vapor throughout Europa’s atmosphere, reflecting a constant bombardment of charged particles. But they only detected water vapor once during their two and a half weeks of observation, and there was a lot of it. The water vapor spewing into Europa’s atmosphere would have filled an Olympic-size swimming pool in just minutes.
Because they only saw the vapor once, the scientists felt confident this water came from a plume. Where there are plumes, there’s a good chance there’s liquid water.
The next step, Paganini says, is to determine what is producing the plumes and if they’re indicative of large amounts of liquid water on Europa. A plume might come from the outgassing of liquid water deep beneath Europa’s surface or friction caused by shifting ice or impacts. But to resolve the mystery, we’ll have to send some robots to see for ourselves. “If we want to get more knowledge about this ocean world, we really need to get closer,” Paganini says.NASA’s working on it. Its Europa Clipper mission, expected to launch in 2025, will be the first dedicated trip to the Galilean moon. The largest deep space probe ever made, Clipper will be outfitted with a suite of radiation-hardened instruments designed to peer beneath Europa’s icy shell. If Clipper finds evidence of life, it might finally justify a Europa lander—Arthur C. Clarke be damned.
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