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Dwarf planet Ceres might have right stuff for life

NASA hopes Dawn mission can answer the big question: could life lurk in icy volcanoes on Ceres, the asteroid belt's biggest resident?
Dwarf planet Ceres might have right stuff for life

Spot of bother (Image: JPL-Caltech/UCLA/MPS/DLR/IDA/NASA)

CERES is a dwarf planet with giant potential. As NASA鈥檚 Dawn spacecraft gears up for the first in-depth look at this tiny world, speculation is rife. Could Ceres be an overgrown comet? Host an ocean made of mud? Or even possess icy volcanoes that make it an unexpected host for life in the asteroid belt?

鈥淲hen we complete our observations, we will show that Ceres is every bit a planet as its terrestrial neighbours Mars, Earth, Venus and Mercury.鈥 That鈥檚 what , who leads the Dawn mission, told the Lunar and Planetary Science Conference , Texas, last week.

The first signs of excitement came earlier this month when Dawn spotted a mysterious bright spot just 1 pixel wide inside a crater as it pulled into orbit around the dwarf planet. There were suspicions that the spot could be a sign of water spewing into space, and now fresh views, presented for the first time at the LPSC, lend weight to the idea.

In Dawn鈥檚 latest pictures, the bright spot is visible even from the side, meaning it probably protrudes above the crater. 鈥淲hat is amazing is you can see this feature while the rim is very likely in front of the line of sight,鈥 said , who is in charge of the mission鈥檚 camera. 鈥淲e believe this could be some kind of outgassing.鈥

Remote observations using the Herschel space telescope show Ceres spitting water from somewhere on its surface, probably towards the equator. We think other icy bodies in the solar system, like Jupiter鈥檚 moon Europa and Saturn鈥檚 moon Enceladus, spew water in spectacular plumes from subsurface oceans (see diagram). If Ceres also has a buried sea, that could boost its chances of playing host to life 鈥 so astronomers are keen to track the plumes to their source.FIG-mg30143801.jpg

Images taken from dusk until dawn on Ceres seem to indicate something more transient, since the spot brightens throughout the day and completely disappears at night. So the patch could be a pocket of ice on the surface that releases gas as it warms up in the sun, which is similar to how a comet behaves. However, Nathues said only higher resolution data will confirm its true nature. This won鈥檛 come for a while, as Dawn is on the dark side of Ceres and won鈥檛 emerge until mid-April.

Dwarf planet Ceres might have right stuff for life

Dawn probe (Image: NASA/JPL-Caltech/Science Photo Library)

But a model of Ceres presented at the LPSC added a complication, suggesting comet-like behaviour is only possible at the dwarf planet鈥檚 poles, not the lower latitudes where the bright spot has been seen.

of the US Geological Survey in Flagstaff, Arizona, presented a thermal model that considered where ice could remain stable on Ceres鈥檚 surface over the lifetime of the solar system, rather than boiling away more quickly. If Ceres is behaving like a comet, it must have ice patches that can survive for a long time until the sun鈥檚 heat reaches them as the dwarf planet moves into a warmer part of its orbit.

Titus found that long-lasting ice could only be possible in chilly latitudes above 40掳. But the plumes spotted by Herschel seemed to come from nearer the equator. 鈥淭he water ice is just not stable at the latitudes that the plumes are supposedly coming from,鈥 Titus says.

What about cryovolcanism? In this scenario, ice and water are ejected from the surface by processes similar to those that drive magma volcanoes on Earth. Ceres doesn鈥檛 have enough muscle to drive these eruptions, according to a second model presented at the LPSC by of the Planetary Science Institute in Tucson, Arizona.

Let鈥檚 suppose that Ceres has a subsurface ocean covered by an icy shell. As the bottom of the shell freezes, it expands, putting pressure on the ocean and the shell itself. To create a cryovolcano, says O鈥橞rien, the water pressure has to build up enough to shoot up through the shell before the ice cracks and relieves the pressure.

Since we don鈥檛 know exactly how deep the ice is on Ceres, O鈥橞rien modelled a range of plausible depths. None recreated the conditions for spewing cryovolcanoes 鈥 the ice always cracked before enough pressure accumulated. In the best-case scenario, water reached about 90 per cent of the way to the surface.

Dwarf planet Ceres might have right stuff for life

Intriguingly, that might mean water could reach the surface from a deep crater, where there would be less ice to negotiate 鈥 perhaps even from a crater like the one where Dawn saw the bright spot. 鈥淓verybody wants to know what鈥檚 going on there,鈥 says O鈥橞rien. A cryovolcano could be producing enough of a plume to replenish the ice on the surface. So Ceres could be producing comet-like emissions, driven by a weak cryovolcano. 鈥淚t鈥檚 sort of a midpoint between comets and cryovolcanic icy worlds,鈥 says Titus.

聯Ceres could be producing comet-like emissions driven by a weak cryovolcano聰

There is more than one way to make a cryovolcano, though. Some models suggest the core of Ceres may be heated by radioactive isotopes left over from the dwarf planet鈥檚 formation. These could provide enough energy for punchier volcanism, perhaps producing larger plumes 鈥 and heat would be beneficial for any bacteria lurking below the surface. 鈥淎ny place you鈥檝e got the potential for liquid water, you鈥檝e got the potential for life,鈥 says Titus. 鈥淐eres could be an extremely exciting astrobiological target.鈥

聯Any place you鈥檝e got the potential for liquid water, you鈥檝e got potential for life. Ceres could be a target聰

Even if water isn鈥檛 making it to the surface, cracks in the ice shell could give Dawn a way of looking deeper within Ceres. If there are gases dissolved in the ocean, cracks could release them for the spacecraft to sample, says O鈥橞rien. 鈥淚t鈥檚 like shaking up and opening a soda bottle.鈥

And there may be more than water there. , also of the Planetary Society Institute, presented a model of Ceres鈥檚 interior that started out as a mix of ice and silicates, the minerals that make up the majority of Earth鈥檚 crust. Then the mix separated into a silicate core and an ice shell, with a mud ocean sandwiched between the two. Dawn won鈥檛 necessarily be able to see such mud directly, but Thomas Davison of Imperial has a way to distinguish between a mud and water ocean (see 鈥Questions for Dawn鈥).

All of this is to come when Dawn swings back to the day side of Ceres next month. Researchers have already decided to base the names of regions on the surface, such as Yumyum, after harvest deities, but just what they鈥檒l find there remains a mystery. 鈥淲e really don鈥檛 know what to expect for Ceres,鈥 says O鈥橞rien. 鈥淚t鈥檚 pretty much bound to surprise us.鈥

Leader:Planet or not, Ceres rocks

Questions for Dawn

Is Ceres a jumped-up comet or a failed planet?
We think that comets are the building blocks left over from the formation of the rocky planets in our solar system. Ceres, the only dwarf planet in the inner solar system, may have failed to gather enough building blocks to become a proper planet, leaving it somewhere in-between.

Does Ceres have an ocean?
Remote measurements of the dwarf planet鈥檚 density suggest it has a rocky core coated in an icy shell, but it鈥檚 still unclear whether liquid water lurks beneath the two. Even if Dawn doesn鈥檛 spot water at the surface, it might find other indicators, like patches of salty material left behind by water that has boiled away. Such signs can confirm the presence of an ocean.

Is it water or mud?
To figure out whether the internal liquid is water or something sludgier, Dawn will have to take note of Ceres鈥檚 gravitational field. Asteroid impacts deform Ceres鈥檚 core, changing its internal density and thus its gravitational pull. Mud would dampen this effect, so as Dawn flies over Ceres, differences in its pull could reveal deformation in its core and in turn what kind of ocean it has.

Why is Ceres different from Vesta?
Before reaching Ceres, Dawn spent a year hanging out at Vesta, the second largest object in the asteroid belt. Vesta isn鈥檛 round and has no water, but both objects are thought to be examples of the stuff that formed planets like Earth. One of Dawn鈥檚 goals is to figure out why these two bodies are so different, and how others like them built the rest of the inner solar system.

Is there life on Ceres?
Dawn is not equipped to detect life directly, but it can search for signs of habitability, such as an ocean. It could also identify whether Ceres is heated internally by radioactive isotopes by looking for patches of cryovolcanoes on the surface. Both liquid water and heat raise the chances for life.

Topics: Asteroids / Comets / Solar system