Europa has an unlimited, salty ocean lined by a thick shell of ice
Claudio Caridi / Alamy
Europa’s liquid ocean could also be sealed off from the floor underneath a frozen sheet six occasions thicker than the deepest Antarctic ice, making it more durable for any life there to be detected.
Due to the abundance of liquid water, Jupiter’s moon Europa is seen as a high-priority goal within the seek for extraterrestrial life.
Earlier estimates of the thickness of the ice protecting the ocean vary from lower than 10 kilometres to almost 50. But it surely was additionally thought that cracks, fissures, pores and different imperfections within the frozen sheet would possibly make it attainable for vitamins to be transported between the floor and the ocean.
Now, a crew led by Steven Levin on the California Institute of Expertise has studied knowledge collected by the Juno spacecraft, which has been in orbit round Jupiter since 2016.
On 29 September 2022, the probe flew inside 360 kilometres of Europa and scanned the floor with its microwave radiometer, offering the primary direct measurements of the ice. This instrument measured the warmth emitted by Europa’s frozen shell, says Levin, successfully measuring the temperature of the ice at numerous depths. It was additionally in a position to detect modifications in temperature ensuing from imperfections within the ice sheet.
The crew estimated probably the most possible thickness of the ice sheet was about 29 kilometres – thicker than most earlier estimates – however it could possibly be as skinny as 19 kilometres or as thick as 39 kilometres.
Crucially, the cracks, pores and different imperfections in all probability lengthen solely to depths of tons of of metres into the ice, and the pores have a radius of only a few centimetres, they discovered.
“It implies that the imperfections which we see with the microwave radiometer don’t go deep sufficient, and aren’t large enough, to hold a lot of something between the ocean and the floor,” says Levin.
However this doesn’t essentially imply the possibilities of life present on Europa are decreased. “The pores or cracks which we see are too small and shallow to hold vitamins to and from the ocean, however there could possibly be different mechanisms of transport,” he says.
There may be areas of the moon, not but explored, the place the scenario is completely different, he provides.
Ben Montet on the College of New South Wales in Sydney, Australia, says the thickness of the ice may make it tougher to search for life. “That safety may assist life persist for lengthy durations of time, however it makes the ocean more durable for us to achieve and research,” he says.
Whereas there doesn’t have to be “communication” between Europa’s floor and the ocean underneath the ice for all times to exist, a transport hyperlink would possibly improve the probability, says Helen Maynard-Casely at Australia’s Nuclear Science and Expertise Organisation. With out such connections, “you’ll be primarily saying you’re trapped with what was there within the ocean at first,” she says.
NASA launched the Europa Clipper probe in 2024, and it is because of attain Jupiter’s moon in 2030. That mission ought to reply the query of the character of Europa’s ice extra definitively, says Maynard-Casely.
Spend a weekend with among the brightest minds in science, as you discover the mysteries of the universe in an thrilling programme that features an tour to see the enduring Lovell Telescope. Subjects:
Mysteries of the universe: Cheshire, England
