Mars Terraforming Debate

blackhelicopter writes "This Guardian article describes the implications of terraforming Mars - the subject of NASA's forthcoming debate. Quote from Dr Lisa Pratt, a Nasa astrobiologist, concerning life probably already on Mars: 'We simply cannot risk starting a global experiment that would wipe out the precious sensitive evidence we are seeking'."

Already debated in Sci-Fi

[Nomihn0]

The issue of terraforming has been argued extensively in science fiction for years. The most notable books on the topic are by Kim Stanley Robinson, author of Red Mars, Blue Mars, and Green Mars (a hard-sci-fi trilogy on the terraforming of Mars and its consequences).

Re:Terraforming - why?

[Scorillo47]

I wouldn't be too much worried... we just need to provide around 10^19 kg of nitrogen (or some inert gas) and 0.3 x 10^19 kg of oxygen.

These are absolutely huge numbers. Even if we take all oxygen from all our water from the Earth this won't be enough to fill out the Mars atmosphere...

BTW, some facts about Martian Atmosphere (from http://nssdc.gsfc.nasa.gov/planetary/factsheet/mar sfact.html)

Surface pressure: 6.36 mb at mean radius (variable from 4.0 to 8.7 mb depending on season)
[6.9 mb to 9 mb (Viking 1 Lander site)]
Surface density: ~0.020 kg/m3
Scale height: 11.1 km
Total mass of atmosphere: ~2.5 x 10^16 kg
Average temperature: ~210 K (-63 C)
Diurnal temperature range: 184 K to 242 K (-89 to -31 C) (Viking 1 Lander site)
Wind speeds: 2-7 m/s (summer), 5-10 m/s (fall), 17-30 m/s (dust storm) (Viking Lander sites)
Mean molecular weight: 43.34 g/mole
Atmospheric composition (by volume):
Major : Carbon Dioxide (CO2) - 95.32% ; Nitrogen (N2) - 2.7%
Argon (Ar) - 1.6%; Oxygen (O2) - 0.13%; Carbon Monoxide (CO) - 0.08%
Minor (ppm): Water (H2O) - 210; Nitrogen Oxide (NO) - 100; Neon (Ne) - 2.5;
Hydrogen-Deuterium-Oxygen (HDO) - 0.85; Krypton (Kr) - 0.3;
Xenon (Xe) - 0.08

Re:Interesting.

[SmackCrackandPot]

See the problem here? These are religiously inspired buildings.

Very true. I did a Google search for various time lengths (five/ten/twenty year plan). Anything less than ten years was commercial/industrial, ten to thirty years was regional government, and anything over thirty years was religious/fanatical.

Re:Not So Bad

[PlazMan]

People tend to forget that one solid volcanic eruption puts out more CFCs than all of human industry ever has.

I don't think that's quite accurate. Volcanos can emit quite a bit of HCl and sulfate aerosols. The latter tend to amplify the effects of human-generated CFCs. Check out this link

Re:It's a futile effort...

[dossen]

Despite this being /. I decided to perform a bit of research, so here are a few links to pages that I think support my point, that terraforming as far as a more hospitable atmosphere on Mars is possible:

• http://quest.arc.nasa.gov/mars/background/terra2.h tml
• http://ganymede.nmsu.edu/tharriso/ast301/class23.h tml
• http://spacescience.com/headlines/y2000/ast22jun_2 .htm?list
• http://www.users.globalnet.co.uk/~mfogg/zubrin.htm

They may be wrong, I may be wrong, but simply claiming the fact that the current Martian atmosphere is very thin as proof that no sustainable atmosphere is possible on Mars, that does not cut it. I will grant you that a 99% earth-like biosphere is unlikely, but a lot less is needed for it to be of use to a colony. Even a slight increase in temperature and pressure would make it easier to live on Mars, some plants might be able to grow (genetically modified mountain plants), the domes (or whatever it might be) needed for habitation might have to handle a smaller difference in pressure, or the time an astronaut might survive in an accident might increase.

And besides, even if it only lasts a few thousand years, an atmosphere might still prove useful. Not that I think we should do something like this without considering the consequenses, but once we have the technology, the trade-offs and risks might prove to be small enough for us to attempt terraforming Mars.