Icy ExoWorlds Unlikely to Transform Into Habitable Planets –“Bad News for Enceladus and Europa?”

 

Europa_48_bkg_700

 

Scientists dealt a blow Monday to the quest for organisms inhabiting worlds besides Earth, including Jupiter's moon Europa and Saturn's moon Enceladus within our own solar system, saying our planet was unusual in its ability to host liquid water—the key ingredient for life. It was thought likely that distant worlds orbiting stars similar to our Sun would go through water-rich phases. This would happen when the young, dim star of an icy, lifeless planet—such as early Earth—starts warming, becomes Sun-like, and melts the ice on planets orbiting it at just the right distance—the so-called "Goldilocks" zone.


Icy orbs in our own Solar System, including Jupiter's moon Europa and Saturn's Enceladus, or "exoplanets" in other star systems, may become habitable in this way, the theory goes.

But a team wrote in the journal Nature Geoscience on Monday that this was unlikelier than had been imagined.
Led by Jun Yang, an assistant professor of Atmospheric and Oceanic Sciences at Peking University, the authors used the research software 3D Community Atmospheric Model (CAM3) to simulate the climatic shifts of snowball worlds orbiting different types of stars.

Without atmospheric greenhouse gases—a feature of Earth—the energy required to thaw an icy planet would be so high that it would transit from frozen to inferno without an intermediate, liveable phase, they found. "We find that the stellar fluxes that are required to overcome a planet's initial snowball state are so large that they lead to significant water loss and preclude a habitable planet," the team wrote in the paper. "We suggest that some icy planetary bodies may transition directly to a moist or runaway greenhouse without passing through a habitable Earth-like state."

"Europa and Enceladus will have no habitable period," Yang and his colleagues predict. "They will transit to a moist or runaway greenhouse state when the Sun becomes a red giant in six to seven billion years, at which time the stellar flux at the location of Europa will reach the snowball-melting threshold."

Earth was an example of an icy world that thawed just enough, some 600-800 million years ago, thanks to planet-warming atmospheric greenhouse gases emitted by volcanic eruptions during its snowball phase, the team said. This meant that less solar heat would have been required for the ice to melt, enabling our planet to achieve a temperate middle ground.

Greenhouse gases, which are naturally present in the atmosphere but also released by humans burning coal, oil and gas, are what has kept our planet warm enough for humans, animals and plants to inhabit. But humankind's addition of mainly CO2 since the Industrial Revolution has caused the atmosphere to retain ever more solar heat, to a point that scientists say we are harming Earth's perfectly-balanced climate beyond repair.

More information: Goldilocks climate bypassed when icy planets thaw (N&V). Nature Geoscience (2017). DOI: 10.1038/ngeo2994

Journal reference: Nature Geoscience

The Daily Galaxy via 2017 AFP  and Motherboard

Image credit: NASA

"The Galaxy" in Your Inbox, Free, Daily