MIAMI: Jupiter's largest moon, Ganymede, definitely has an underground ocean, researchers said today after confirming the moon's long-suspected subsurface saltwater body with the help of auroras glimpsed by the Hubble Space Telescope.
The ocean is believed to hold more water than is found on Earth's surface, which broadens the hunt for places in the solar system where life might be able to exist, the US space agency said.
Ganymede, the largest moon in the entire solar system, is larger than the planet Mercury.
The Galileo spacecraft, which arrived at Jupiter in 1995, has already detected a possible magnetic field on Ganymede.
The Hubble Space Telescope has now confirmed that discovery, by establishing the existence of an ocean of water under its crust by observing changes in the aurorae around the celestial body.
These "ribbons of glowing, hot electrified gas" can be seen in regions around the north and south poles of the moon, NASA said in a statement.
Because aurorae are controlled by a moon or a planet's magnetic field, observing changes in the aurorae can lead to better understanding of what exists inside.
Researchers found that Jupiter's own magnetic field interacts with Ganymede's, causing a rocking motion in the aurorae that is reduced by magnetic friction from the presence of Ganymede's underground ocean.
"Since the 1970s, there were speculations and models that Ganymede could possess an ocean," said Joachim Saur of the University of Cologne in Germany.
"We do not have these ambiguities anymore," he told reporters.
The latest findings from Hubble "provide the best evidence to date for the existence of an ocean on Ganymede."
Heidi Hammel, executive vice president of the Association of Universities for Research in Astronomy, said the approach showed that a space telescope could be "a powerful tool" to make inferences about the interior of a moon.
Already, scientists know there are oceans beneath surfaces of Jupiter's moon Europa and Saturn's moon Enceladus. Jupiter's moon Callisto is believed to have subterranean water as well.
"Every mission that we send to various places in the solar system is just taking us one step further to finding that truly habitable environment, a water-rich environment in our solar system."
Now, much more can be learned about the conditions on Ganymede when a European Space Agency mission, called Jupiter's Icy Moons Explorer (JUICE) launches in 2022 and arrives at Jupiter in 2030, she added.
"Hubble observations have now confirmed the presence of a salty, electrically conducting ocean under the crust of Ganymede, and so when the JUICE mission ultimately goes into orbit around Ganymede it will have a very, very rich and exciting science mission," Hammel said.
Much remains to be learned about the temperature and depth of Ganymede's ocean.
As of now, scientists estimate the ocean is 10 times deeper than Earth's oceans and is buried under a 95-mile (150-kilometer) crust made up of mostly ice.
Jupiter is a gas giant, composed mainly of hydrogen and helium, and is the largest planet in the solar system.
Its four largest moons, Ganymede, Io, Europa and Callisto, can be seen with binoculars on a clear night.
The ocean is believed to hold more water than is found on Earth's surface, which broadens the hunt for places in the solar system where life might be able to exist, the US space agency said.
Ganymede, the largest moon in the entire solar system, is larger than the planet Mercury.
The Galileo spacecraft, which arrived at Jupiter in 1995, has already detected a possible magnetic field on Ganymede.
The Hubble Space Telescope has now confirmed that discovery, by establishing the existence of an ocean of water under its crust by observing changes in the aurorae around the celestial body.
These "ribbons of glowing, hot electrified gas" can be seen in regions around the north and south poles of the moon, NASA said in a statement.
Because aurorae are controlled by a moon or a planet's magnetic field, observing changes in the aurorae can lead to better understanding of what exists inside.
Researchers found that Jupiter's own magnetic field interacts with Ganymede's, causing a rocking motion in the aurorae that is reduced by magnetic friction from the presence of Ganymede's underground ocean.
"Since the 1970s, there were speculations and models that Ganymede could possess an ocean," said Joachim Saur of the University of Cologne in Germany.
"We do not have these ambiguities anymore," he told reporters.
The latest findings from Hubble "provide the best evidence to date for the existence of an ocean on Ganymede."
Heidi Hammel, executive vice president of the Association of Universities for Research in Astronomy, said the approach showed that a space telescope could be "a powerful tool" to make inferences about the interior of a moon.
Already, scientists know there are oceans beneath surfaces of Jupiter's moon Europa and Saturn's moon Enceladus. Jupiter's moon Callisto is believed to have subterranean water as well.
"Every mission that we send to various places in the solar system is just taking us one step further to finding that truly habitable environment, a water-rich environment in our solar system."
Now, much more can be learned about the conditions on Ganymede when a European Space Agency mission, called Jupiter's Icy Moons Explorer (JUICE) launches in 2022 and arrives at Jupiter in 2030, she added.
"Hubble observations have now confirmed the presence of a salty, electrically conducting ocean under the crust of Ganymede, and so when the JUICE mission ultimately goes into orbit around Ganymede it will have a very, very rich and exciting science mission," Hammel said.
Much remains to be learned about the temperature and depth of Ganymede's ocean.
As of now, scientists estimate the ocean is 10 times deeper than Earth's oceans and is buried under a 95-mile (150-kilometer) crust made up of mostly ice.
Jupiter is a gas giant, composed mainly of hydrogen and helium, and is the largest planet in the solar system.
Its four largest moons, Ganymede, Io, Europa and Callisto, can be seen with binoculars on a clear night.
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