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Mars Sci-Fi

Kim Stanley Robinson Says Colonizing Mars Won't Be As Easy As He Thought 228

Posted by Soulskill from the canceling-my-retirement-vacation dept.
An anonymous reader sends this excerpt from io9: Kim Stanley Robinson's Mars trilogy filled us all with hope that we could terraform Mars in the 21st century, with its plausible description of terraforming processes. But now, in the face of what we've learned about Mars in the past 20 years, he no longer thinks it'll be that easy. Talking to SETI's Blog Picture Science podcast, Robinson explains that his ideas about terraforming Mars, back in the 1990s, were based on three assumptions that have been called into question or disproved:

1) Mars doesn't have any life on it at all. And now, it's looking more likely that there could be bacteria living beneath the surface. 2) There would be enough of the chemical compounds we need to survive. 3) There's nothing poisonous to us on the surface. In fact, the surface is covered with perchlorates, which are highly toxic to humans, and the original Viking mission did not detect these. "It's no longer a simple matter," Robinson says. "It's possible that we could occupy, inhabit and terraform Mars. But it's probably going to take a lot longer than I described in my books."
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Kim Stanley Robinson Says Colonizing Mars Won't Be As Easy As He Thought More

Kim Stanley Robinson Says Colonizing Mars Won't Be As Easy As He Thought

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  • Hard to Imagine (Score:5, Funny)

    by NEDHead ( 1651195 ) on Friday March 13, 2015 @04:48PM (#49252519)

    it could take longer than in his books, which, frankly, were interminable.

    • Re: (Score:2, Interesting)

      by starless ( 60879 )

      it could take longer than in his books, which, frankly, were interminable.

      I agree. After Red Mars I was so put off that, after previously being something of a fan, I never read another one of his books...

      • Shaman [npr.org] is pretty good, if you're into that sort of thing.

      • I found Red Mars a loooooong slog. But after I finished it, Green and Blue were a lot better. Red took so much effort to go through because it's the foundation for the other two.

  • That's why it's called Science Fiction (Score:5, Funny)

    by neo-mkrey ( 948389 ) on Friday March 13, 2015 @04:53PM (#49252551)
    That's why it's called Science Fiction and not Science Nonfiction.

    • The "fiction" is the aspect of science fiction which is the made-up part. The "science" part is, for the most part, not. The rule is, you get one or two freebie made-up items, but the rest has to hang together as science. Or you are doing fantasy, which, while it must obey rules, has rules which are based on the need for entertainment or plot. IE you make it all up.
      KSR doesn't make up science, and SF isn't about making up science. Sci-fi(y), which is the Hollywood version of SF, makes up the science

  • At this point Mars is running before you can walk (Score:5, Insightful)

    by Crashmarik ( 635988 ) on Friday March 13, 2015 @04:57PM (#49252573)

    Imagine if the Roanoke colonists decided Antarctica should be their goal. Well that's where Mars colonization plans are today. Of all the reasonable candidates, (Low earth orbit, the Lagrange points, the Moon, Mars, Asteroids) Mars is about the worst. It's at the bottom of the deepest gravity well outside of earth, except for the asteroids it has the longest travel time, and will have the longest development time before it can return resources to the people that invest in it.

     

    • Imagine if the Roanoke colonists decided Antarctica should be their goal. Well that's where Mars colonization plans are today. Of all the reasonable candidates, (Low earth orbit, the Lagrange points, the Moon, Mars, Asteroids) Mars is about the worst. It's at the bottom of the deepest gravity well outside of earth, except for the asteroids it has the longest travel time, and will have the longest development time before it can return resources to the people that invest in it.

      Hang on there a second. How do you colonize low earth orbit or the Lagrange points? By your analogy, you're saying the Roanoke colonists should have "colonized" the Atlantic on a big floating platform or something. That isn't colonizing. The point in either the moon or mars is to extract and make use of resources to build habitations, create fuel, food, energy, etc. Hanging out in space in a tin can is not "colonizing" anything, no more than sitting in a raft in the middle of the Atlantic.

      • How do you colonize low earth orbit or the Lagrange points?

        Park an ion drive or solar sail on a near Earth asteroid, move it into a convenient orbit, and mine it for colony materials.

    • Re: (Score:2)

      by k6mfw ( 1182893 )

      Of all the reasonable candidates, (Low earth orbit, the Lagrange points, the Moon, Mars, Asteroids) Mars is about the worst.

      Reason everyone loves to talk about Mars is because the task to build hardware is deferred to smucks 20 years into the future (Mars is always 20 years away so it's easy to crank out papers, graphics, PDFs and PPTs). That's why nobody talks about the Moon unless you start building hardware now. Though things like a earth transfer stage and a lunar lander takes time but if you don't have something substantial to demonstrate in 10 years, your credibility will be very low.

    • I'm pretty sure the bit about the gravity well is incorrect: Venus has 3 times the gravity of Mars, so if you're referring to rocky worlds in our solar system, Venus would be the deepest gravity well. Mars I believe is #2.

      However, I do agree that Mars seems rather premature, and that the Lagrange points and the Moon would be better candidates for offworld habitats in the near term, due to their proximity. One big problem with the Lagrange points (and also LEO) is that there's no gravity there, so people c

      • The problem here, however, is that we don't have the technology to build such things yet: we need to be able to mine materials in space, and refine and manufacture things there too, to do such a thing, because the amount of fuel needed to build a big, liveable station (not a puny little thing like the ISS) at a Lagrange point would be prohibitively expensive with current launch technology since we haven't built a space elevator yet.

        We launched enough stuff to build a relatively sizable rotating station in earth orbit, but then we didn't bother: the orbiter main tanks. There was even a plan for doing it, not that anyone planned to implement it.

        In theory, we could design some kind of launch vehicle whose structure itself would provide the bulk of the mass for the station.

      • Venus and Mercury are ruled out for a bunch of reasons. If Mars is running they would be running one minute miles.

        Venus closely resembles hell currently and you would need to remake its atmosphere before even thinking about it. Mercury has heat and radiation problems.

        You are right about the habitat building for LEO and the Lagrange points, but the problems are very similar to what you have to do for the Moon, Asteroids, or Mars so it doesn't differentiate the difficulty.

    • Mars is about the worst. It's at the bottom of the deepest gravity well outside of earth

      What's the problem there, if you're not planning to leave?

    • > and will have the longest development time before it can return resources to the people that invest in it.

      Oh I wouldn't say that. Aside from the Moon, it's the only other option with both decent gravity and a nice solid landmass to build on. Building things in microgravity is very hard compared to on the surface of a planetary body, which is one of the chief draws of Mars. I agree that the moon should be a bigger priority for a large number of reasons, but Mars does have an appeal in the human consc

  • Why terraform? (Score:4, Interesting)

    by Tx ( 96709 ) on Friday March 13, 2015 @05:05PM (#49252625) Journal

    Plenty of people on this planet rarely if ever go outside; people live indoors, work indoors, shop indoors, and take much of their recreation indoors. So I don't really see the reasoning behind the assumption that we can't colonise another planet without terraforming it. Mars has no magnetic field to divert solar radiation, so even if you did terraform it pretty good, you'd still get fried; KSR solved that in his books by eventually genetically modifying the colonists to be able to self-repair the radiation damage, but who knows when such a solution will be feasible in reality. Build your colony underground as much as possible, and you gain protection from everything that is hostile about the Martian environment; the atmosphere, the temperature, the toxic stuff, and the radiation all become much more controllable. Sure, it's a bit harder building underground, but not nearly as hard as terraforming.

    • "Plenty of people" are also depressed, fickle and unbalanced, the solution to which is often spending more time outdoors experiencing nature.

      • "Plenty of people" are also depressed, fickle and unbalanced, the solution to which is often spending more time outdoors experiencing nature.

        No, it's not. Doing that would cut into the time we're supposed to be spending at work, slaving away for our corporate masters so we can afford to pay the rent.

    • Re:Why terraform? (Score:4, Insightful)

      by Jeremi ( 14640 ) on Friday March 13, 2015 @05:14PM (#49252685) Homepage

      Plenty of people on this planet rarely if ever go outside

      Yeah, but what percentage of people never go outdoors ever? And how healthy and mentally well-balanced are those people?

      Not to mention the fact that if you're going to live your entire life inside a windowless room underground, it's a hell of a lot cheaper to do that on Earth, and outside of the heavier gravity, the experience is the same. Plus that way you retain the option of going outside if/when you finally are about to go insane from cabin fever.

      • Re: (Score:2)

        by swb ( 14022 )

        Yeah, but what percentage of people never go outdoors ever? And how healthy and mentally well-balanced are those people?

        There's a lot of people in cold northern climates that almost never go outside in the winter months. -20F with a 20 MPH wind may not be as completely hostile as Mars, but you pretty much have to have all your exposed skin covered and wear heavy insulated clothing so you might as well be wearing a spacesuit.

        Sure, there's a small percentage of people who are athletic and go outside in that

  • Works both ways (Score:5, Insightful)

    by Chess_the_cat ( 653159 ) on Friday March 13, 2015 @05:07PM (#49252643) Homepage
    New science has shown it won't be as easy as he once thought. But even newer science could mean it's even easier than he dreamed. For example, if Lockheed-Martin delivers on the promise of compact fusion then all of these so called issues are washed away in a river of free energy.

    • Re: (Score:3)

      by zlives ( 2009072 )

      hence the headline..."Kim Stanley Robinson Says Colonizing Mars Won't Be As Easy As He Thought" it will be easier :)

    • Fusion creates felectrical energy by boing water into steam and driving turbines, which is bad for the wildlife in the water, for one thing. Second, inelegant, like creating a nuclear engine and using it to propel a horse on steam-powered roller skates. Best way to generate power is solid state, like solar or energy differentials in the ground. And, really, fusion ain't happening anytime soon. We need juice now. But to your point, he's not saying that we don't have the tech, which as he clearly outlined in

      • Fusion creates felectrical energy by boing water into steam and driving turbines, which is bad for the wildlife in the water, for one thing.

        Seriously, that's your main complaint with fusion power?

  • Nitrogen is Organic Chemistry (Score:3)

    by Yergle143 ( 848772 ) on Friday March 13, 2015 @05:22PM (#49252731)

    You learn in Sci Fi and in dull HS Science that you are a carbon based life form. Now this is a very coal based thing to say; one could also very well say we are nitrogen based beings (or hydrogen/Phosphorus/oxygen etc). There's a whole lot of carbon in the inner solar system in many extractable forms but Nitrogen is the fixer. Why is it that acquiring enough nitrogen from the 78% that is in the air happens to be the one of the rate limiting steps for life? That 0.04% CO2 is not limiting.
    The outer solar system is different, fixed nitrogen ammonia is abundant. Titan, Europa, and possibly Ceres?
    Mars on the other hand had its Nitrogen blown away by the solar wind and since it is an essential ingredient for you nitrogen based life forms it would not be my first choice to set up shop.
    For that matter, why not truck water and ammonia from Ceres to the moon and live in a warm place with a great view?

  • Terraforming is Premature (Score:3)

    by DanielRavenNest ( 107550 ) on Friday March 13, 2015 @05:24PM (#49252747)

    There is no need to terraform the bulk of Mars until you have enough people there to justify it. Until then it makes much more sense to restrict the terraforming to the space underneath your habitat domes and arches.

    Ideas that Mr. Robinson may not have been aware of also make colonizing easier. One is "Seed Factories" - self upgrading automation that grows from a starter kit, the way a tree grows from an acorn. The starter kit includes plans for the sequential addition of new machines, until you have a fully grown industrial capacity. Another is an improved space elevator system. The static ground-to-synchronous orbit elevator is not the lowest mass design by a long shot, and improved designs can be built with today's materials, rather than requiring "unobtainium".

  • Terraforming Mars: why? we can do better than that (Score:5, Interesting)

    by Catbeller ( 118204 ) on Friday March 13, 2015 @06:06PM (#49253069) Homepage

    We won't drop that Mars stick easily. But it's a lousy place to live.

    We can build millions of times more surface area in free space in rotating habitats everywhere but on gravity-bound terran-analog planets. There are more asteroids and comets than we can use up for centuries - and we just discovered a pool of water on Europa (yesterday I think) bigger than all the Earth's oceans and seas combined, which we can either railgun or pipe out into construction sites everywhere. We've got GREAT building materials waiting for us out there. And a hell of a lot easier than trying to make Mars habitable in a few hundred our thousand years. Mars will be a privately owned park/state/suburb/science station for sure, but it won't be the Big Hope for the human race, nor for the millions of other species we can save by either leaving in large numbers (meh, not for a long time) or transporting them into free space terraria where hard-nosed capitalists can't shoot, drown, poison, or eat them.

    Now, with 3D printing tech and maybe some cool new ideas, we can do better than O'Neill and the others in building terraria. Giant blown steel bubbles? Spray metal and ceramic shielding over inflatable molds or gas jets? Magnetic molds? Oragami-like unfolded sections? Molten metal spun into shape like cotton candy? Spun metalic filaments, or ceramic/metal composite filaments 3D printed in place by crawlers or articulated arms on giant scale? Let's shake some dust here - any ideas? I'm serious - we've better tech and construction techniques than we had in the 70's. Building a giant aluminum/titanium bubble or cylinder with ceramic shielding should not be a problem in zero gravity. In the olden days, we pictured guys in construction shacks building it in pieces like the Enterprise in drydock. What can we do now?

    • Pipes running from Ganymede, carrying precious water to destinations all across the solar system...

      I think you're onto (on) something. ;)

    • In the olden days, we pictured guys in construction shacks building it in pieces like the Enterprise in drydock. What can we do now?

      Guys and girls in construction shacks.

      I'm serious - we've better tech and construction techniques than we had in the 70's.

      For truly big things? Not as much as you seem to think. Seriously, there's a lot of tech in development (3d printing for example) and a lot of pie-in-the-sky tech (which you list)... but so far, there's pretty much nothing proven to scale much b

      • Which is why we start thinking now. Scale is a bugaboo of terrestrial manufacturing - in free fall, it's mostly a problem of containment and "tidal" forces (large structures would have different bits moving at different speeds in orbit, a problem which can be utilized for stabilization, but causes problems with stress, at the very least). Spinning the terrarium can be done with mass drivers (railguns that recycle the cartridge that launches the ballistic pellets), but then there is access issues after spinu

    • What can we do now?

      Steel cans in low Earth orbit. Things have not really change much since the 1975 in terms of scale.

      If we're talking about the scale of space habitats, the two factors in the equation are:
      1. Cost per unit of weight from Earth to orbit.
      2. The ability to mine, refine and manufacture in space.

      Increase one of those and things might get interesting.

  • I thought Kim Stanley Robinson was dead. No really, I thought I read something a few years ago (maybe even here on Slashdot) that he had died and remember thinking "shit, he'll never get to see Mars."

    Obviously, I'm remembering this wrong, and he's alive. Good. I'm glad. I really liked the Mars series, especially the first book.

    So.. uh.. I wonder who that was, who died and I got mixed up with KSR. Whoever you are, you will be .. remembered? Oops.

  • So this is what is behind "Aurora" (Score:4, Interesting)

    by stevel ( 64802 ) * on Friday March 13, 2015 @07:54PM (#49253753) Homepage

    I just finished reading an ARC (Advanced Reader Copy) of Robinson's latest novel "Aurora", not yet published, which is about a generation starship sent out to colonize a planet orbiting Tau Ceti. Mild spoiler - the colonists find it's much harder than anyone anticipated. I found it a bit of an odd take given Robinson's Mars trilogy (to be honest, I made it to about a third of the way through Blue Mars and gave up) which seemed far more optimistic. Now I know why. Unfortunately, pessimism doesn't sell as well as optimism, so I don't have great hopes for commercial success of Aurora. Oh, and if you weren't transfixed by Red/Green/Blue Mars, you probably won't care for Aurora either.

  • Perchlorates (Score:4, Interesting)

    by drinkypoo ( 153816 ) <drink@hyperlogos.org> on Friday March 13, 2015 @08:00PM (#49253791) Homepage Journal

    One of the important ideas expressed in Red Mars was the idea of using bacteria to do much of the work of terraforming. In 2013, bacteria which can live on perchlorates were discovered...

  • Perchlorates? (Score:5, Interesting)

    by cjameshuff ( 624879 ) on Friday March 13, 2015 @09:00PM (#49254103) Homepage

    There may be extremophiles living in the rock, but they're nothing that would cause problems for us. There's plenty of the chemical substances we need for survival, just not enough for such an extraordinarily wasteful operation as terraforming the planet. And perchlorates are not "highly toxic"...the LD50 for potassium perchlorate is 2100 mg/kg. Compare to 3000 mg/kg for...table salt. Given a bowl full of pure potassium perchlorate, it would be extremely difficult to eat enough of it to be fatal.

    Dealing with perchlorate only requires doing things we'd likely be doing anyway. Process the regolith a bit before turning it into soil for growing stuff in...it's eroded salt flat and sea bed material, you're going to do that anyway. Perchlorates are unstable and easy to decompose, so there's options for further soil treatment if necessary. Test occasionally or use supplements to make sure you're getting enough iodine (perchlorate does substitute for iodine, inhibiting uptake). Problem dealt with.

  • It is closer.

    There's no misunderstanding about where the habitat is going to be.

    It doesn't have enough gravity to make getting things onto or off of it very hard.

    It is a great place for a colony. Yeah, you're not going to turn the moon green because it won't hold an atmosphere. But if you dig down a few hundred feet and build some hydroponics facilities then who cares?

    You're safe from the radiation down there, safe from the micro meteorites, there are no big temperature swings, and did I say you're safe fro

    • The moon is a trap. There's nothing good there to mine or explore; it takes less rocket fuel to land on Mars than the Moon; and the moon's surface is a horrible horrible place. You propose to solve that problem by living hundreds of feet underground, but if you're going to live that way, why not do it beneath the Earth instead?

      • As to it taking less fuel to get to mars then the moon... How? Just explain how that is possible.

        I'm quite certain you could "throw" things from the moon to the earth. So the return trip wouldn't even take fuel. You could literally just give it a push. And the moon is quite a bit closer than mars... so why does that take less fuel?

        As to the surface being a horrible place... so is mars. The Marian atmosphere is a joke. There is basically just enough there in the words of JPL that "you have to deal with it or

        • Re:The moon is a better idea anyway (Score:5, Interesting)

          by goodmanj ( 234846 ) on Saturday March 14, 2015 @01:08AM (#49254885)

          As to it taking less fuel to get to mars then the moon... How? Just explain how that is possible.

          Aerobraking. The vast majority of your spacecraft's fuel and cost is spent getting out of Earth's gravity well. If you've burnt enough fuel to get into a lunar transfer orbit, it takes just a little bit more to escape Earth entirely and go to Mars. But to *land* on the Moon, you need to spend more fuel to slow down and stop on the surface. To land on Mars, you just need a heat shield, because Mars has an atmosphere you can use to slow down.

          http://en.wikipedia.org/wiki/D... [wikipedia.org]

          So that's reason #1 why Mars's atmosphere isn't a joke.

          I'm quite certain you could "throw" things from the moon to the earth. So the return trip wouldn't even take fuel. You could literally just give it a push.

          Unless you can throw things at 2.4 kilometers per second, no. The Moon's gravity is less than the Earth's, but it's still serious business. You need quite a bit of fuel to take off from the Moon. You need fuel to take off from Mars too, but Mars's atmosphere has carbon dioxide: bring a little hydrogen with you (or use the local water) and a source of energy (solar panels or a reactor) and you can synthesize methane and oxygen fuel while you're there. No need to carry fuel for the trip home!

          http://www.geoffreylandis.com/... [geoffreylandis.com]

          Reason #2 why Mars's atmosphere isn't a joke.

          [Mars's atmosphere] is not enough to appreciably reduce radiation to the surface.

          Oh, but it is. Mars's atmosphere is thick enough to shield radiation about as well as several inches of concrete, reducing radiation exposure by a factor of 2-3. It's also further from the Sun than the Moon, which reduces solar radiation by a factor of 2. Neither of these effects are enough on their own: you're right that Mars habitats will have to be underground too. But going outside is noticeably safer.

          http://www.lpi.usra.edu/lunar/... [usra.edu]

          Reason #3 why Mars's atmosphere isn't a joke.

          Mars's atmosphere doesn't provide complete radiation shielding, but it does provide complete protection from meteorites up to about 1-2 meters in diameter.

          https://janus.astro.umd.edu/as... [umd.edu]

          Reason #4 why Mars's atmosphere isn't a joke.

          And finally, the Moon has craters and lava flows and that's all. Mars has those, plus volcanoes and canyons and ice caps and wind and clouds and storms and snow and glaciers and sand dunes and landslides and groundwater and river valleys and maybe an ancient ocean and maybe, once upon a time, life. Why? Because Mars has an atmosphere.

          Reason #5 -- the most important one -- why Mars's atmosphere isn't a joke.

          As to why not do it on earth? That question doesn't even make sense.

          It was a rhetorical point, not a serious proposal. I'm saying that if you're going to spend your whole life hiding in a sterile burrow, does it really matter that you're on another planet?

          For the record, none of these ideas are my own. I'm quoting chapter and verse from "The Case for Mars" by Robert Zubrin. Zubrin's got his problems -- he's a little too casual about the radiation dangers, for instance -- but IMO it's a good starting point for any serious discussion of colonizing the solar system.

          http://www.amazon.com/Case-Mar... [amazon.com]

          • what do you say to using gravity assist to slow the craft down? I looked it up and apparently that is a pretty common trick.

            • You can't use gravity assist at a planet to change your orbit with respect to that same planet. So for instance, the Galileo spacecraft couldn't use Jupiter to change its orbit around Jupiter, but it could (and did) use Jupiter's moons. Same for Cassini at Saturn. Sadly, neither the Moon or Mars have any useful moons. (Mars's moons are way too small.)

              Also, going from a flyby trajectory into orbit around a planet requires a *lot* of orbital change in a very short amount of time, and gravity assists aren'

  • Robinson cheated. (Score:3)

    by goodmanj ( 234846 ) on Friday March 13, 2015 @11:49PM (#49254667)

    One more for the list: 4) Carbon dioxide doesn't work like that.

    Robinson's Mars books cheated on their terraforming. Terraforming Mars is a catch-22. To make it warm enough for humans to survive you need to add a lot of CO2, but adding all that CO2 makes the atmosphere toxic to humans. When I first read the Mars books I was looking forward to see how Robinson dealt with that paradox: I was disappointed to see that he didn't. He just let the plants suck up most of the CO2 to make oxygen while ignoring the cooling that would result, and then, realizing that getting rid of *all* the CO2 would be a problem, he waved a magic wand and genetically engineered all the humans to be CO2-tolerant. "Genetic engineering!" and "Nanobots!" are the science fiction equivalents of "Abracadabra!"

    Anyway, CO2-tolerance would be such a massive evolutionary advantage to both predators and prey on Earth, if it were that easy to engineer, don't you think life would have figured out a way to do it by now?

    There are ways to terraform Mars for realsies -- very large solar mirrors, or synthetic super-greenhouse gases like CFS -- but those have their own problems, and Robinson wanted to have his cake and eat it too.

    • Anyway, CO2-tolerance would be such a massive evolutionary advantage to both predators and prey on Earth, if it were that easy to engineer, don't you think life would have figured out a way to do it by now?

      Fish can do it. We can put fish genes in a tomato. Why not in a person, eventually?

      • Can you cite a source? Not aquarium owners' street smarts, something that includes actual numbers. Gills and water are very different from lungs and air, so the important measurement is whether fish can tolerate much higher CO2 concentrations *in their blood* (corresponding to much lower blood pH) than humans.

        A terraformed Mars requires something like 100x as much CO2 in the atmosphere as on Earth. Can any vertebrate survive that kind of CO2 concentration in their blood?

  • Mars lost its atmosphere because it did not have a magnetic field. I see no propsal to give Mars a magnetic field. This shit won't fly.

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