Alpha Centauri 2

Community => Recreation Commons => Destination: Alpha Centauri => Topic started by: Buster's Uncle on November 14, 2025, 06:16:54 pm

Title: Why Saturn’s Moon Enceladus Might be the Perfect Place for Alien Life
Post by: Buster's Uncle on November 14, 2025, 06:16:54 pm

SYFY (https://www.syfy.com/)
Why Saturn’s Moon Enceladus Might be the Perfect Place for Alien Life
Cassidy Ward
Thu, November 13, 2025 at 1:54 PM EST
3 min read


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Why Saturn’s Moon Enceladus Might be the Perfect Place for Alien Life


When we imagine alien life in books or on TV, we often think of planets like ours inhabited by extraterrestrial people. The Harry Vanderspeigle’s (Alan Tudyk) of the universe are basically human with a few extra bells and whistles, but the truth about extraterrestrial life might be a whole lot weirder even inside our own solar system.

Outside Earth, some of the most promising places for alien life are frozen ocean worlds like Jupiter’s moon Europa and Saturn’s moon Enceladus. We know that beneath the ice, Enceladus has a salty subsurface ocean, a source of heat energy, and biomolecules crucial for the development of life. Now, a recent study published in the journal Science Advances (https://www.science.org/doi/10.1126/sciadv.adx4338) reveals new insights into the inner workings of Enceladus, strengthening the case for the emergence of life there.


The case for life on Saturn’s moon Enceladus just got stronger

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This illustration shows Cassini diving through the Enceladus plume in 2015


The study relied on data from NASA’s Cassini spacecraft. Launched on Oct. 15, 1997, Cassini spent seven years traveling through space before arriving in the Saturn system on July 1, 2004. It remained in orbit there for the next 13 years.

When the spacecraft was nearly out of fuel, operators sent it plunging into Saturn’s atmosphere. It was sent to die on Saturn in order to keep the potentially life-harboring moons untainted. Now, nearly a decade after the spacecraft sent its last signals, scientists are still analyzing the data it sent back.

Looking through Cassini’s historical data, researchers from Oxford University, Southwest Research Institute and the Planetary Science Institute in Tucson, Arizona have found the first evidence of significant heat flow from the north pole Enceladus. The moon is releasing more heat that it would if it were a passive body, confirming that Enceladus is an active world.

While it has liquid water, heat, and complex chemistry, Enceladus could only support life if its environment is stable long-term. That means it needs to balance energy gains and energy losses.

“Enceladus is a key target in the search for life outside the Earth,” lead author Dr. Georgina Miles explained in a Nov. 7 statement, “and understanding the long-term availability of its energy is key to determining whether it can support life.”

Prior to this study, heat loss had only been observed at the south pole, where massive plumes of water ice and water vapor erupt into space. Those eruptions are responsible for feeding Saturn’s E ring. The heat loss from the south pole isn’t sufficient to balance the heat gained from tidal heating (the gravitational push and pull from the rest of the Saturn system). The new study focuses on the north pole, confirming additional heat loss to balance the moon’s energy budget.


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Diagram showing the interior of Enceladus. A rocky core is surrounded by a liquid water ocean, and then an icy crust. Water erupts from geysers at the south pole. Credit: NASA/JPL-Caltech


Using historical data from Cassini, researchers compared activity at the north polar region between deep winter in 2005 and summer in 2015. They compared the expected surface temperature of the north polar region with direct infrared observations from Cassin’s Composite InfraRed Spectrometer (CIRS) and found it was about 7 Kelvin warmer than expected. That extra heat comes from the comparatively warm subsurface ocean radiating warmth through the ice and out into space.

Based on the observations, researchers estimate conductive heat loss of about 35 gigawatts. When combined with the heat loss at the south pole, the total heat loss equals about 54 gigawatts, roughly equivalent to the predicted heat input from tidal forces.

This balance means the subsurface ocean can be maintained in relative equilibrium over geological timescales, offering plenty of time for life to emerge and evolve beneath the ice. If we’re to meet our very own resident aliens, Enceladus is one of our best opportunities.

https://www.yahoo.com/news/articles/why-saturn-moon-enceladus-might-185450480.html

Title: Re: Why Saturn’s Moon Enceladus Might be the Perfect Place for Alien Life
Post by: Geo on November 15, 2025, 10:13:16 pm

Now this group should do a similar research on the moon Europa.