Space.com Water on Jupiter
Observations from the Jovian king’s companion spacecraft have turned up an astounding result
Newly released data from NASA’s Juno probe shows that water may make up about 0.25 per cent of the molecules in the atmosphere over Jupiter’s equator. While that doesn’t sound like much, the calculation is based on a prevalence of water’s components, hydrogen and oxygen, three times more than at the Sun. The new measurements Juno obtained are much higher than a previous mission suggested.
The surprise result has scientists delving deep into results from NASA’s Galileo mission to Jupiter, which obtained drier results in 1995 when engineers deliberately threw the spacecraft into Jupiter’s atmosphere. Galileo was low on fuel and NASA didn’t want to take the chance, even if it was a slight one, of the spacecraft accidentally crashing on a potentially habitable icy moon.
Reconciling the results from Galileo and Juno is key for scientists to better understand how our Solar System came together. Since Jupiter was probably the first planet to form, it could have sucked up most of the gas and dust that the Sun’s formation left behind. How much water Jupiter soaked up should help scientists identify the most plausible theories to explain its formation.
And understanding Jupiter’s birth would in turn help scientists understand how the planet’s wind currents move and what its insides are made of. Scientists should also be able to generalise findings at Jupiter to certain kinds of large exoplanets to learn how other solar systems formed.
Galileo’s results were a puzzle, even back in the 1990s. The spacecraft sent back data showing tentimes less water than scientists predicted and, more weirdly, the amount of water appeared to increase the deeper Galileo went into Jupiter’s atmosphere. Scientists had expected that by the time it stopped transmitting data at a depth of about 120 kilometres (75 miles), the atmosphere around it should have been well mixed with an unchanging composition. A ground-based infrared telescope was able to measure water concentrations at Jupiter at the same time as Galileo’s plunge and showed that Galileo may have hit a dry spot, meaning water is not well mixed deep in Jupiter’s atmosphere.
Juno’s first eight flybys also showed a lack of atmospheric mixing. Its radiometer obtained data even deeper than Galileo’s measurements at 150 kilometres (93 miles) down, and found more water at the equator than Galileo did. Scientists are now waiting to compare Juno’s equatorial measurements with observations at the north of the planet; Juno’s 53-day orbit is gradually moving northward to examine more of that hemisphere with each flyby.
“Just when we think we have things figured out, Jupiter reminds us how much we still have to learn,” said Scott Bolton, Juno principal investigator at the Southwest Research Institute.
“How much water Jupiter soaked up should help scientists explain its formation”