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Does alien life need a planet to survive? Scientists propose intriguing possibility


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 An illustration of the Kuiper belt beyond which a hypothetical ninth planet has been suggested to dwell.  An illustration of the Kuiper belt beyond which a hypothetical ninth planet has been suggested to dwell.

Credit: NASA/SOFIA/Lynette Cook

What if we dropped the “terrestrial” from “extraterrestrial”? Scientists recently explored the intriguing possibility that alien life may not need a planet to support itself.

At first glance, planets seem like the ideal locations to find life. After all, the only known place life is known to exist is Earth’s surface. And Earth is pretty nice. Our planet has a deep gravitational well that keeps everything in place and a thick atmosphere that keeps surface temperatures in the right ranges to maintain liquid water. We have an abundance of elements like carbon and oxygen to form the building blocks of biological organisms. And we have plenty of sunlight beaming at us, providing an essentially limitless source of free energy.

It’s from this basic setup that we organize our searches for life elsewhere in the universe. Sure, there might be exotic environments or crazy chemistries involved, but we still assume that life exists on planets because planets are so naturally suited to life as we know it.

In a recent pre-paper accepted for publication in the journal Astrobiology, researchers challenge this basic assumption by asking if it’s possible to construct an environment that allows life to thrive without a planet.

Related: Alien life may not be carbon-based, study suggests

This idea isn’t as crazy as it sounds. In fact, we already have an example of creatures living in space without a planet: the astronauts aboard the International Space Station. Those astronauts require tremendous amounts of Earth-based resources to be constantly shuttled to them, but humans are incredibly complex creatures.

Perhaps simpler organisms could manage it on their own. At least one known organism, the tiny water-dwelling tardigrades, are able to survive in the vacuum of space.

Any community of organisms in space needs to tackle several challenges. First, it needs to maintain an interior pressure against the vacuum of space. So a space-based colony would need to form a membrane or shell. Thankfully, this isn’t that big of a deal; it’s the same pressure difference as that between the surface of water and a depth of about 30 feet (10 meters). Many organisms, both microscopic and macroscopic, can handle these differences with ease.

The next challenge is to maintain a warm enough temperature for liquid water. Earth achieves this through the atmosphere’s greenhouse effect, which won’t be an option for a smaller biological space colony. The authors point to existing organisms, like the Saharan silver ant (Cataglyphis bombycina), that can regulate their internal temperatures by varying which wavelengths of light they absorb and which they reflect — in essence, creating a greenhouse effect without an atmosphere. So the outer membrane of a free-floating colony of organisms would have to achieve the same selective abilities.

Next, they would have to overcome the loss of lightweight elements. Planets maintain their elements through the sheer force of gravity, but an organic colony would struggle with this. Even optimistically, a colony would lose lightweight elements over the course of tens of thousands of years, so it would have to find ways to replenish itself.

Lastly, the biological colony would have to be positioned within the habitable zone of its star, to access as much sunlight as possible. As for other resources, like carbon or oxygen, the colony would have to start with a steady supply, like an asteroid, and then transition to a closed-loop recycling system among its various components to sustain itself over the long term.

Related Stories:

—How exotic alien life could thrive in the giant molecular clouds of deep space

—These tiny indestructible tardigrades will reveal how to survive in extremes of space

—Life beyond Earth may form in the coldest depths of space, Ryugu asteroid samples reveal

Putting this all together, the researchers paint the portrait of an organism, or colony of organisms, floating freely in space. This structure could be up to 330 feet (100m) across, and it would be contained by a thin, hard, transparent shell. This shell would stabilize its interior water to the right pressure and temperature and allow it to maintain a greenhouse effect.

While such organisms may or may not exist in the universe, the research has important implications for future human endeavors in space. Whereas we currently construct habitats with metal and supply our stations with air, food and water transported from Earth, future habitats may use bioengineered materials to create self-sustaining ecosystems.



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