Researchers from Canada's Western University used data from Cassini's Visible and Infrared Mapping Spectrometer to look at both visible light and infrared images of Titan, allowing them to peer beneath the moon's thick atmosphere to discover more about this strange location.


"It's wild. There's no other place like Titan in the solar system," assistant professor of planetary sciences, Catherine Neish said in a statement. "There's more sand on Titan per area than anywhere else. And Titan has weather. It's not unlike the Earth in that way."


The sand forms desert-like regions around the equator of the moon, but at higher latitudes toward the poles it becomes wetter, with surface streams which cut through the sand. However, despite the similarities of weather patterns, there are some stark differences between Earth and Titan in terms of the composition of that weather, as Neish explained: "It's just that the ingredients are all wrong. It has methane rain and streams cutting through the surface and organic sand getting blown around. It's still very active just like it is here on Earth."


The study found that when the moon is impacted, the craters expose fresh water ice from the crust which sits beneath the sand. This is a valuable source of information as they could potentially show whether there was ancient life frozen at the bottom of the craters. This encourages researchers to look in new locations for potential signs of ancient life.


"I think more and more, we're seeing a false equivalency between life and Mars. The recent findings about Venus and all the new things we're learning about it once being an ocean world is another game-changer," said Neish. "Finally, people are saying, in our search for life in the universe, we really need to focus on a lot more places, and not just Mars. And that includes NASA sending the Dragonfly mission to Titan."


Resource: digitaltrends.com


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Saturn's moon Titan could have the ingredients for life

Researchers from Canada's Western University used data from Cassini's Visible and Infrared Mapping Spectrometer to look at both visible light and infrared images of Titan, allowing them to peer beneath the moon's thick atmosphere to discover more about this strange location.


"It's wild. There's no other place like Titan in the solar system," assistant professor of planetary sciences, Catherine Neish said in a statement. "There's more sand on Titan per area than anywhere else. And Titan has weather. It's not unlike the Earth in that way."


The sand forms desert-like regions around the equator of the moon, but at higher latitudes toward the poles it becomes wetter, with surface streams which cut through the sand. However, despite the similarities of weather patterns, there are some stark differences between Earth and Titan in terms of the composition of that weather, as Neish explained: "It's just that the ingredients are all wrong. It has methane rain and streams cutting through the surface and organic sand getting blown around. It's still very active just like it is here on Earth."


The study found that when the moon is impacted, the craters expose fresh water ice from the crust which sits beneath the sand. This is a valuable source of information as they could potentially show whether there was ancient life frozen at the bottom of the craters. This encourages researchers to look in new locations for potential signs of ancient life.


"I think more and more, we're seeing a false equivalency between life and Mars. The recent findings about Venus and all the new things we're learning about it once being an ocean world is another game-changer," said Neish. "Finally, people are saying, in our search for life in the universe, we really need to focus on a lot more places, and not just Mars. And that includes NASA sending the Dragonfly mission to Titan."


Resource: digitaltrends.com


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