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Orbital variations can trigger 'snowball states' on exoplanets
by Staff Writers
Seattle WA (SPX) May 15, 2018

Barnes said Deitrick "has essentially shown that ice ages on exoplanets can be much more severe than on Earth, that orbital dynamics can be a major driver of habitability and that the habitable zone is insufficient to characterize a planet's habitability." The research also indicates, he added, "that the Earth may be a relatively calm planet, climate-wise."

Aspects of an otherwise Earthlike planet's tilt and orbital dynamics can severely affect its potential habitability - even triggering abrupt "snowball states" where oceans freeze and surface life is impossible, according to new research from astronomers at the University of Washington.

The research indicates that locating a planet in its host star's "habitable zone" - that swath of space just right to allow liquid water on an orbiting rocky planet's surface - isn't always enough evidence to judge potential habitability.

Russell Deitrick, lead author of a paper to be published in the Astronomical Journal, said he and co-authors set out to learn, through computer modeling, how two features - a planet's obliquity or its orbital eccentricity - might affect its potential for life. They limited their study to planets orbiting in the habitable zones of "G dwarf" stars, or those like the Sun.

A planet's obliquity is its tilt relative to the orbital axis, which controls a planet's seasons; orbital eccentricity is the shape, and how circular or elliptical - oval - the orbit is. With elliptical orbits, the distance to the host star changes as the planet comes closer to, then travels away from, its host star.

Deitrick, who did the work while with the UW, is now a post-doctoral researcher at the University of Bern. His UW co-authors are atmospheric sciences professor Cecilia Bitz, astronomy professors Rory Barnes, Victoria Meadows and Thomas Quinn and graduate student David Fleming, with help from undergraduate researcher Caitlyn Wilhelm. Other co-authors are Benjamin Charnay, a former UW post-doctoral researcher now with the LESIA Observatoire de Paris; and John Armstrong of Weber State University, who earned his doctorate at the UW.

The Earth hosts life successfully enough as it circles the Sun at an axial tilt of about 23.5 degrees, wiggling only a very little over the millennia. But, Deitrick and co-authors asked in their modeling, what if those wiggles were greater on an Earthlike planet orbiting a similar star?

Previous research indicated that a more severe axial tilt, or a tilting orbit, for a planet in a Sun-like star's habitable zone - given the same distance from its star - would make a world warmer. So Deitrick and team were surprised to find, through their modeling, that the opposite reaction appears true.

"We found that planets in the habitable zone could abruptly enter 'snowball' states if the eccentricity or the semi-major axis variations - changes in the distance between a planet and star over an orbit - were large or if the planet's obliquity increased beyond 35 degrees," Deitrick said.

The new study helps sort out conflicting ideas proposed in the past. It used a sophisticated treatment of ice sheet growth and retreat in the planetary modeling, which is a significant improvement over several previous studies, co-author Barnes said.

"While past investigations found that high obliquity and obliquity variations tended to warm planets, using this new approach, the team finds that large obliquity variations are more likely to freeze the planetary surface," he said. "Only a fraction of the time can the obliquity cycles increase habitable planet temperatures."

Barnes said Deitrick "has essentially shown that ice ages on exoplanets can be much more severe than on Earth, that orbital dynamics can be a major driver of habitability and that the habitable zone is insufficient to characterize a planet's habitability." The research also indicates, he added, "that the Earth may be a relatively calm planet, climate-wise."

This kind of modeling can help astronomers decide which planets are worthy of precious telescope time, Deitrick said: "If we have a planet that looks like it might be Earth-like, for example, but modeling shows that its orbit and obliquity oscillate like crazy, another planet might be better for follow-up with telescopes of the future."

The main takeaway of the research, he added, is that "We shouldn't neglect orbital dynamics in habitability studies."

Research Report: "Exo-Milankovitch Cycles II: Climates of G-dwarf Planets in Dynamically Hot Systems," Russell Deitrick et al., 2018, to appear in the Astronomical Journal


Related Links
University Of Washington
Lands Beyond Beyond - extra solar planets - news and science
Life Beyond Earth


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The Cheops ccience instrument arrives in Madrid
Madrid, Spain (ESA) May 04, 2018
Members of the CHEOPS consortium could be proud of their achievement as the science instrument of the upcoming exoplanet mission left Bern on its journey to Madrid last month. The science instrument and its tailor-made handling equipment left Switzerland by truck in six containers, designed to provide protection from shock, moisture and dust, on 10 April 2018. Its safe arrival in Spain the following day marked a key milestone for the CHEOPS project and enabled Airbus Defence and Space Spain, the p ... read more

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