Alien Life Could Exist on Worlds Overflowing with Water, New Research Suggests


An artist’s concept of a planet covered in water. New research suggests such worlds could be more likely to support life than thought. Credit: NASA/JPL-Caltech
Even on alien worlds covered by water, a new study shows that there’s a chance for life to survive for a long time — despite previous research showing that’s unlikely.

By Elizabeth Howell | SPACE.com

Past research has said that these so-called „water worlds“ could be unfriendly to life because they would not allow for mineral and gas cycling that stabilizes the climate on Earth. A new study, however, counters that ocean planets could sustain habitability for quite a long time after formation, although how long depends on the individual planet.

Scientists have found thousands of exoplanets in the past two decades, with a good percentage of them being rocky and in the „habitable zone“ of their parent stars — where water could exist on the planet’s surface. However, scientists still aren’t sure about all the conditions for habitability, because so far we know of only a single world with life: Earth. [10 Exoplanets That Just Might Support Life]

On Earth, scientists often look to our own climate to better understand how planets in general could keep their conditions steady for millions or billions of years, long enough for life to get a toehold, according to a statement on the new work. Our planet warms up by releasing greenhouse gases into the atmosphere, through volcanoes, and then cools down by dissolving those gases into minerals in the crust.

The new research, based on more than 1,000 simulations of exoplanets under formation, suggests that water worlds could be habitable if they meet certain conditions, researchers said in the statement. Specifically, these planets would need to have a certain amount of carbon — the element on which Earth’s life is based. The exoplanet would need a lot of water early in its formation, and the ability to cycle carbon between the atmosphere and the ocean to stabilize the system.

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