Tides Have Major Impact on Planet Habitability

Tides Have Major Impact on Planet Habitability
NASA images of Jupiter's moon, Io, (left) Earth (center) and Mars (right), respectively, illustrate worlds with too much, just enough and too little tidal heating to favor life. Internal heating can dramatically affect the suitability of a planet for life. Internal heating produced by tides in Io is so strong the moon undergoes powerful global-scale volcanism. Earth's moderate internal heating drives plate tectonics that create a surface suitable for life. The negligible tidal heating of Mars may be why the planet is so geophysically dormant at present, possibly making it too cold for life.

(PhysOrg.com) -- Astronomers searching for rocky planets that could support life in other solar systems should look outside, as well as within, the so-called "habitable zone," University of Arizona planetary scientists say.

Planets too close to their stars are roasted. Planets too far from their stars are frozen. In between, research models show, there's a habitable zone where planet temperatures approximate Earth's. Any rocky planets in this just-right Goldilocks zone could be awash in liquid water, a requisite for life as we know it, theorists say.

New research by Brian Jackson, Rory Barnes and Richard Greenberg of UA's Lunar and Planetary Laboratory shows that tides can play a major role in heating terrestrial planets, creating hellish conditions on rocky alien worlds that otherwise might be livable. And just the other way, tidal heat can also create conditions favorable to life on planets that would otherwise be unlivable.

Jackson presented the research Saturday at the 40th annual meeting of the Division of Planetary Sciences in Ithaca, N.Y. His talk is titled "Tidal Heating of Extrasolar Terrestrial-scale Planets and Constraints on Habitability." The research will be published soon in the Monthly Notices of the Royal Astronomical Society.

Our own solar system is something of an anomaly, in that its planets move in relatively quiescent, circular orbits around the sun. Most extrasolar planets found to date have highly elongated orbits. During each orbit, the planet is stretched most by tides when it is near the star, and less when the planet is farther from its star. The resulting friction generates internal heat, which drives the planet's geophysical processes.

If the recently discovered "super-Earths" – extrasolar planets only 2-to-10 times as massive as Earth – are indeed terrestrial, tidal heating may be great enough to melt them, or at least produce volcanism on par with Jupiter's moon, Io, "dimming their prospects for habitability," Jackson said. So some of the recently discovered super-Earths may be more like "super-Ios," he said. The lo moon is the most volcanically active body in our solar system.

"Tidal heating scales with planet mass, so we expect that most easily detectable super-Earths will be dominated by volcanic activity," Jackson said. "That's one of our first conclusions from this work, that the first Earth-like planets found are probably going to be strongly heated and have big volcanoes. Even if Earth-like planets are found within the habitable zone, they may not be habitable because they will be overwhelmed by this tidal heating."

Tidal heating may also create habitable conditions on planets that otherwise are too small or too cold to support life, Jackson said. Tidal heating can enhance outgassing of volatiles that contribute or replenish a planet's atmosphere through volcanism. Tidal heating also can generate sub-surface liquid oceans on water-rich rocky planets that would otherwise be frozen, just as tidal heating is believed to warm a sub-surface liquid water ocean on Jupiter's moon Europa.

Also, tidal heating can drive plate tectonics, a mechanism that checks excessive carbon dioxide from accumulating in a planetary atmosphere, producing the kind of deadly greenhouse atmosphere found on Venus.

"Our study shows that tidal heating could produce enough heat to drive plate tectonics for billions of years, long enough for life to appear and flourish," Jackson said.

Provided by University of Arizona

Explore further

Exoplanet orbits its star every 18 hours

Citation: Tides Have Major Impact on Planet Habitability (2008, October 13) retrieved 15 October 2019 from https://phys.org/news/2008-10-tides-major-impact-planet-habitability.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Feedback to editors

User comments

Oct 13, 2008
Another nail in the coffin of the "we are nothing special" school of thought....

Oct 13, 2008
That was an awsome game...played it till my trigger finger and thumbs bled.

Oct 14, 2008
Modernmystic: Well technically speaking we still are nothing special. The only ones who decided that living sentient matter is more special than unanimate one (also true for the terms) are us. The humans that is. Anyway.. There're still so many solar systems that the probability should be covered for at least two such planets as Earth. At least..

Oct 14, 2008
" There're still so many solar systems that the probability should be covered for at least two such planets as Earth. At least.."

Where do you get that from, SmartK8?

Oct 14, 2008
Lol @ the people who are constantly on the lookout for anything that can support their religiously weighted (i.e. not scientific or objective) perspective that we HAVE to be special.

Oct 14, 2008
Lol @ the people who are constantly on the lookout for anything that can support their religiously weighted (i.e. not scientific or objective) perspective that we HAVE to be special.

What's REALLY funny is that you don't realize you're doing the exact same thing. In fact all the SCIENTIFIC data we've collected so far shows us that the vast majority of other solar systems are not like ours at all, and probably not friendly to the development of complex life.

Oct 14, 2008

Not enough data to say anything in either direction.

We don't even have a full understanding of what life is or can be beyond our philosophical views.

Put this discussion in the "not enough data" pile and call it a day.

Ok point taken and conceded, however I will say that the data we have collected so far is pointing in an "non-Copernican" fashion.

Oct 14, 2008
The really funny part here is I'm a "convert". I used to think that there were at least several hundred thousand planets in the galaxy (everyone has their own estimates on the subject) with complex life and at least a few of those had intelligent life, and perhaps even technological civilizations.

After reading "Rare Earth" and seeing the data come in from our observations I became more and more beaten down by the data (with a dash of the Fermi paradox thrown in).

Hey, I don't want us to be alone. I'd like nothing better than an advanced civilization to swoop down (or us to "tune in") and have problems like war, poverty, etc solved overnight. Fact is I'm pretty pessimistic about it all now.

Who knows, maybe the terrestrial planet finder (why the heck that mission is having trouble getting funding when we're planning on sending an SUV to a planet we've ACTUALLY been to a dozen times before and not seen life I'll never know) will prove me wrong. If it does NO ONE will be more pleased than me.

Oct 14, 2008
If it does NO ONE will be more pleased than me.

I'd arm-wrestle you for that.

The thing is, no matter how much we argue, we're still basing it all on a sample of one. And even the exoplanetary discoveries are only the closest and biggest ones, which are all we can detect, which is going to produce *some* kind of sample bias.

There are 4 different scenarios that I can think of: 1) we are alone or nearly so, 2) There are lots of ETs but they communicate by hyperwave relay, 3) There are lots of ETs and they use radio, and 4) There are some ETs out there, but given the size of the galaxy, they're probably not close.

All are possible. Only #3 disagrees with observations. Therefore we can't settle this by logical analysis. More facts needed.

Oct 14, 2008
Well don't forget Sagan's caveat:

We could be 1 of millions risen at the wrong time, too late or too early and we'd appear to be alone.

Interesting take by Stephen Baxter in some of his books... His main character argues that humanity is about to bite it because either we're at the end of humanity's lifespan or we're not; if the former, we're in the largest group of currently living people; if the latter, then we're part of the very small fraction of the beginning of humanity's lifespan. Since we're more likely to be in the big group than in the littler group, humanity must be about to tank.

I have to keep reminding myself that this is fiction he's writing, so I can't hold this against him. But some of the pseudo-logical contortions that people go through when arguing one side or the other of this subject are just as awful.

Oct 20, 2008
So what, the physics of planets is more complicated than we thought. Big surprise! I don't understand the implications of that study besides "it's not so simple to say whether a planet is or isn't habitable". Because it works in both directions.
I just would like to point out that in our Solar system, there aren't many "rocks" showing off signs of active volcanism. So I think it's kind of premature to judge for other systems so quickly.

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more