NASA / ESA / CSA-ASC - James Webb Space Telescope (JWST) patch.
May 19, 2023
The huge watery cloud spurting from Enceladus could carry the ingredients for life farther into space than previously known.
Image above: The Cassini spacecraft swoops through plumes issuing from Saturn’s moon Enceladus (artist’s impression). Image Credits: NASA/JPL-Caltech/ESA.
The James Webb Space Telescope (JWST) has spotted Saturn’s moon Enceladus spraying out a huge plume of water vapour, far bigger than any previously seen there. This enormous cloud might contain the chemical ingredients of life, escaping from beneath the moon’s icy surface.
In 2005, a NASA spacecraft called Cassini discovered icy particles squirting from Enceladus’s subsurface ocean through cracks in the moon’s surface. But JWST shows that material is spraying much farther than previously thought — many times deeper into space than the size of Enceladus itself.
“It’s immense,” said Sara Faggi, a planetary astronomer at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, on 17 May at a conference at the Space Telescope Science Institute in Baltimore, Maryland. She declined to provide further details, citing a scientific paper that will be published soon.
Rare ocean world
Enceladus excites astrobiologists because it is one of the few ‘ocean worlds’ in the Solar System, making it one of the best places to look for extraterrestrial life. The salty ocean that lies beneath Enceladus’s outer covering of ice is a possible haven for living organisms, which could be sustained by chemical energy at hydrothermal vents on the ocean floor.
Image above: Illustration of the interior of Saturn's moon Enceladus showing a global liquid water ocean between its rocky core and icy crust. Thickness of layers shown here is not to scale. Image Credits: NASA/JPL-Caltech.
The material that squirts out of Enceladus, primarily through fractures known as tiger stripes around the moon’s south pole, is a direct link to that potential extraterrestrial ecosystem. The plumes seen by Cassini contained silica particles that were probably carried up from the sea floor by churning fluids (1). Cassini flew many times through Enceladus’s plumes, measuring ice grains and life-friendly chemicals such as methane, carbon dioxide and ammonia.
But it took JWST, a telescope located 1.5 million kilometres from Earth, to discover something that Cassini could not see from its ringside seat. Whereas Cassini could spot ice grains that do not travel far from the surface, JWST has a wider perspective and sensitive instruments that can capture faint gas signals around Enceladus.
Enceladus at a glance
On 9 November 2022, JWST peeked briefly at Enceladus. Just 4.5 minutes’ worth of data revealed the enormous, very cold plume of water vapour. The forthcoming paper will quantify how much water is spraying out and its temperature, Faggi said. But the plume is likely to be of low density, more like a diffuse, cold cloud than a damp spray. That’s not great news for anyone looking to grab samples from the plume and hoping to find life, as the signs of life may be too sparse to detect (2). Ice grains seen by Cassini much closer to Enceladus are more likely to have high concentrations of organic particles, says Shannon MacKenzie, a planetary scientist at the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland.
Image above: Though the northern hemisphere of Enceladus is pockmarked with impact craters, the southern hemisphere (especially near the pole) is almost entirely crater-free. Instead, this region is carpeted with countless house-sized ice boulders, as well as long, winding crevasses known as “tiger stripes.” From these relatively warm stripes, fissures form and disappear, creating huge geysers of water vapor fueled by a deep, subsurface ocean. Image Credits: NASA/JPL-Caltech/SSI/ESA.
JWST also analysed the spectrum of sunlight reflecting off Enceladus and found evidence of many chemicals, including water and possibly other compounds that could hint at geological or biological activity in the moon’s ocean. “We have many more surprises,” Faggi said.
James Webb Space Telescope (JWST). Animation Credits: NASA/ESA
Researchers are already planning how to follow up on the discovery. Last week, JWST organizers released a list of the observations to be taken in the telescope’s second round of operations — and it includes another project to study Enceladus. That work will look at Enceladus for six times longer than the first JWST study, and will aim to find chemical compounds associated with habitability, such as organic compounds and hydrogen peroxide. “The new observation will give us our best shot yet at searching for habitability indicators on the surface,” says project lead Christopher Glein, a geochemist at the Southwest Research Institute in San Antonio, Texas.
Moon-scouting snake robot
JWST’s findings provide more grist for a possible NASA mission to Enceladus to search for signs of life there. Proposals under consideration include an ‘orbilander’ mission that would orbit the moon for a year and a half before landing at its south pole. Another proposal calls for the development of an autonomous snake robot that could slither beneath Enceladus’s ice to explore the ocean.
Image above: Team members from JPL test a snake robot called EELS at a ski resort in the Southern California mountains in February. Designed to sense its environment, calculate risk, travel, and gather data without real-time human input, EELS could eventually explore destinations throughout the solar system. Image Credits: NASA/JPL-Caltech.
Other icy moons in the Solar System are also getting attention from JWST. At the conference, Geronimo Villanueva, a planetary scientist at Goddard, reported that the telescope had detected carbon dioxide on Jupiter’s moon Europa. That excites scientists because carbon and oxygen are key building blocks for life on Earth. NASA is launching a mission to Europa next year that will explore that ocean world in more detail. “This is definitely a new era in the exploration of the Solar System,” Villanueva said.
doi: https://doi.org/10.1038/d41586-023-01666-x
References:
1. Schoenfeld, A. M. et al. Comm. Earth Environ. 4, 28 (2023).
https://doi.org/10.1038%2Fs43247-023-00674-z
2. Affholder, A., Guyot, F., Sauterey, B., Ferrière, R. & Mazevet, S. Planet. Sci. J. 3, 270 (2022). https://doi.org/10.3847%2FPSJ%2Faca275
Related article (JPL):
JPL’s Snake-Like EELS Slithers Into New Robotics Terrain
https://www.jpl.nasa.gov/news/jpls-snake-like-eels-slithers-into-new-robotics-terrain
Related link:
James Webb Space Telescope (JWST): https://esawebb.org/ and https://www.nasa.gov/mission_pages/webb/main/index.html
Images (mentioned), Animation (mentioned), Text, Credits: NASA/JPL-Caltech/Nature/Alexandra Witze/Orbiter.ch Aerospace.
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