Life Beneath the Ice. Why We Should Focus on Ocean Worlds to Find Life in the Universe | Summary and Q&A

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January 6, 2018
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Fraser Cain
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Life Beneath the Ice. Why We Should Focus on Ocean Worlds to Find Life in the Universe

TL;DR

Scientists are increasingly focusing on icy worlds like Europa and Enceladus as potential candidates for finding life in the Universe due to their abundance of liquid water and potential for protected ecosystems.

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Key Insights

  • 💦 Icy worlds like Europa and Enceladus have a high potential for supporting life due to their abundant liquid water and protected environments.
  • 🤩 There could be hundreds or even thousands of times more of these icy worlds than terrestrial planets within the habitable zone of stars.
  • 🖤 The lack of sunlight on these worlds may result in fewer organisms and simpler life forms, such as single-celled bacteria.
  • 🌊 New missions and technologies are needed to explore and observe the hidden oceans on these icy worlds, including methods to penetrate the thick ice and sample the water.

Transcript

Forget rocky worlds like Earth and Mars. New discoveries about icy worlds like Europa and Enceladus make them the ideal candidates for the search for life in the Universe. In fact there could be hundreds, or even thousands of times more worlds out there with ability to support life. Of course, there’s a problem, how do we search for life when it’s ... Read More

Questions & Answers

Q: Why are icy worlds like Europa and Enceladus considered prime candidates for finding life?

These icy worlds have large amounts of liquid water beneath their icy crust, which is a crucial requirement for life as we know it. The presence of liquid water increases the likelihood of finding life forms.

Q: How do icy worlds protect life from harmful radiation and other external factors?

The thick layer of ice on these worlds acts as a protective shield, preventing harmful radiation and other external factors from reaching the potential ecosystems below. It creates a safe and isolated environment for life to thrive.

Q: How do scientists plan to explore these icy worlds and search for signs of life?

Future missions, like NASA's Europa Clipper, will be equipped with advanced instruments, including an ice penetrating radar, to study the ice shell and search for pockets of liquid water closer to the surface. They will also sample the chemicals in Europan geysers to gather more data.

Q: Can life on these icy worlds be sustained even without a nearby star?

Yes, these worlds can continue to support life even without a nearby star. The tidal interactions with their parent planets, such as Jupiter, can generate enough heat to keep the world melted and allow life to survive for long periods. These worlds could potentially float through interstellar space, supporting life for millions or even billions of years.

Summary & Key Takeaways

  • Icy worlds like Europa and Enceladus are considered ideal candidates for finding life in the Universe due to their abundance of liquid water hidden beneath kilometers of ice.

  • These worlds have the potential to support life for billions of years, protected from harmful radiation and other external factors.

  • Scientists are planning future missions, such as NASA's Europa Clipper, to further study these icy worlds and potentially discover signs of life.

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