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Monoken3 t1_j97gw8m wrote

Just heat up those poles and after some time you will have green house gas with thick atmosphere, it will bring back the rain and regulate the temperature

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jdippey t1_j98lrzc wrote

It’s not that simple, unfortunately.

Mars lacks a magnetosphere, causing its atmosphere to be slowly stripped away by ionizing radiation from the solar wind. Even if you could provide the energy required to melt the ice caps on Mars, any resulting atmosphere would essentially be lost to space.

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_kempert t1_j9a5vue wrote

The atmospheric loss is negligible on a human timescale though.

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jdippey t1_j9a9vy6 wrote

Is that true? I’m not aware of any planets lacking a magnetosphere that we’ve been able to actively observe losing an earth-like atmosphere to solar wind.

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danielravennest t1_j9c1bpa wrote

The MAVEN spacecraft was sent to Mars to specifically measure the atmospheric loss rate. It is pretty low. The half-life of the Martian atmosphere is hundreds of millions of years. That's why it still has some atmosphere, and not vacuum.

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jdippey t1_j9ch7m3 wrote

Can those results be extrapolated to a hypothetical Mars with an Earth-like atmosphere though? The atmospheric composition is quite different between Mars and Earth, after all.

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danielravennest t1_j9fp3ni wrote

An Earth-like atmosphere would need to mass 27 tons per square meter on Mars vs 10 tons on Earth, due to the lower Martian gravity. That would be 3900 trillion tons total. Current loss rate is 95,000 tons a year. If the loss rate increased a thousand times to about 100 million tons/year. that still gives a half life of 20 million years, which is long by human standards.

There are several ways to reduce the losses. One is to put a magnetic shield "upwind" of the solar wind, and deflect it off the planet. That's effectively what Earth's magnetic field does.

Another is to dome the planet. Surface pressure depends on the weight of what is above the surface. It doesn't matter what that weight is made of. 27 tons is a lot per square meter. It would be more than 10 meters of glass thickness. So you can build a greenhouse the size of a planet and keep the atmosphere from leaking out.

Just because the top of an atmosphere being exposed to space is natural doesn't mean it is required. You can have several km of air below the dome to get an outdoor feeling, and leave the taller mountains sticking out into space if you want.

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jdippey t1_j9fpimy wrote

Definitely interesting, but unfortunately I doubt we will ever get the point of turning mars into a habitable planet. If anything, I think we will just make habitable shelters.

Thanks for the explanation!

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danielravennest t1_j9fryin wrote

WE won't do anything substantial to Mars. The Martians will, once there are millions of them, if they have enough desire for it.

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djellison t1_j98mkgm wrote

Many have advocated for that via a variety of different means.....and it's simply not enough

https://lasp.colorado.edu/home/maven/files/2018/08/Inventory-of-CO2-available-for-terraforming-Mars.pdf

There is not enough CO2 left on Mars in any known, readily accessible reservoir, if mobilized and emplaced into the atmosphere, to produce any significant increase in temperature or pressure. Even if enough CO2 were to be available, it would not be feasible to mobilize it; doing so would require processing a major fraction of the surface (analogous to regional- or planet-scale strip mining) to release it into the atmosphere, which is beyond present-day technology. Terraforming Mars is therefore not possible in the foreseeable future by utilizing CO2 resources available on the planet.

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danielravennest t1_j9c1w7w wrote

Fortunately there are plenty of volatiles in the outer Solar System.

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