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Hot Topic Solar System Meteorites, Comets and Asteroids Could Life on Earth Have Come From Ceres?
Could Life on Earth Have Come From Ceres?
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Meteorites, Comets and Asteroids
Posted:   03/05/09
Author:    Lee Pullen

Summary: The dwarf planet Ceres is rarely mentioned as a candidate for habitability, but the possible presence of an ocean and hydrothermal vents suggests it is plausible. If life developed on Ceres long ago, could it have seeded the young Earth?


The Hubble Space Telescope can only make out vague surface features on Ceres.
Image credit: NASA, ESA, J. Parker (Southwest Research Institute), P. Thomas (Cornell University), and L. McFadden (University of Maryland, College Park).
Astrobiologists hope to find life elsewhere in the universe, or possibly even in our own cosmic neighborhood, the solar system. Their efforts are usually concentrated on worlds such as the planet Mars, or icy moons like Europa. However, there are other, less conventional locations in the solar system where scientists think life may be found.

Ceres: an unusual choice

At the International Society for the Study of the Origin of Life conference in Florence, Italy, Joop Houtkooper from the University of Giessen divulged a theory that life could have originated on an object in the asteroid belt named Ceres. Ceres was considered to be a planet when it was discovered in 1801, but it was later downgraded to asteroid status. With the latest planet definition from the International Astronomical Union, the round object is now considered a dwarf planet. Is there a chance that this exotic world is home to extraterrestrial organisms?

“This idea came to me when I heard a talk about all the satellites in the solar system that consist of a large part of ice, much of which is probably still in a liquid state,” says Houtkooper. “The total volume of all this water is something like 40 times greater than all the oceans on Earth.”

This reminded Houtkooper of a theory about how life originated. Organisms may have first developed around hydrothermal vents, which lie at the bottom of oceans and spew hot chemicals. Many icy bodies in our solar system have rocky cores, so they may have had or still have hydrothermal vents. Houtkooper realized, “if life is not unique to the Earth and could exist elsewhere, then these icy bodies are the places where life may have originated.”

Looking at the evidence

Early in the history of the solar system was a period known as Late Heavy Bombardment, a turbulent time when cataclysmic asteroid impacts were common. If there was life on Earth before this dangerous era, it was most likely eradicated and had to begin again after much of this cosmic debris had cleared out of the inner solar system. Interestingly, evidence indicates that Ceres avoided being pummelled by devastating impacts during this time. If it had been bombarded, it would have completely and forever lost its water mantle, as its gravitational force is too weak to recapture it. This is probably what happened to the asteroid Vesta, which has a very large impact crater and no water.

Ceres is a varied world which could host life.
Image credit: NASA, ESA, and A. Feild (STScI)
“The evidence points to Ceres having remained relatively unscathed during the Late Heavy Bombardment,” states Houtkooper. He says this means Ceres still could have “a water ocean where life could have originated early in the history of the solar system.”

This leads to an interesting hypothesis. If the Earth was sterilized by colossal impacts, but Ceres hosted life which survived, could the dwarf planet have reseeded our world with life, via rock fragments that chipped off Ceres and then crashed into Earth? Are all organisms on Earth, including humans, descendants of Ceres? This is an idea that Houtkooper had to pursue.

“I looked at the different solar system bodies which either had or currently have oceans,” he explains. “The planet Venus probably had an ocean early in its history, but the planet’s greater mass means that more force is needed to chip off a piece of the planetary crust and propel it in the direction of the Earth. Smaller objects like Ceres have lower escape velocities, making it easier for parts of it to be separated.”

Houtkooper then calculated the orbital paths of candidate planets, moons and asteroids to see which were in the best positions to have pieces successfully reach the Earth, without being intercepted by other objects. Ceres fared favourably in these calculations.

Life on Ceres

Relative sizes of the Earth, our Moon, and Ceres.
Finally, Houtkooper considered the possibility of organisms still being present on Ceres. “In the ocean, there could be life,” he suggests. “On the surface, it would be more difficult. But there are some possibilities. There could be hydrogen peroxide-based life, able to withstand the low temperatures.” It’s not currently known whether hydrogen peroxide is present on Ceres, but nothing rules it out, either.

The thought of Earth being seeded with life from Ceres and creatures existing there today is certainly fascinating, but Houtkooper admits that it is more science fiction than science fact until evidence can be provided. This is naturally difficult to obtain, as Ceres is a small and distant world. Even the best current images contain very little detail, and just show that there are some surface features; what these features are exactly is a mystery. Spectral analyses indicate the presence of clay-like minerals, and Ceres’ slightly flattened shape is what we would expect from a world with a rocky core below a layer of water or ice. Ceres is a dwarf planet with many secrets.

Fortunately, this will soon change thanks to NASA’s DAWN mission. Launched in 2007, the probe is due to arrive at Ceres in 2015. Once there it will shed light on the mysterious world, and perhaps take photographs of geysers of water erupting from the surface. Its close-up view could indicate whether Ceres really does have the potential for life.


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