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Space Science

Research Suggests How Alien Life Could Spread Across the Galaxy 107

astroengine writes: As astronomical techniques become more advanced, a team of astrophysicists think they will be able to not only detect the signatures of alien life in exoplanetary atmospheres, but also track its relentless spread throughout the galaxy. The research, headed by Henry Lin of the Harvard-Smithsonian Center for Astrophysics (CfA), assumes that this feat may be possible in a generation or so and that the hypothesis of panspermia may act as the delivery system for alien biology to hop from one star system to another.
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Research Suggests How Alien Life Could Spread Across the Galaxy

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  • resistant to heat, cold, vacuum, desiccation, radiation, pressure, toxins, etc.

    https://en.wikipedia.org/wiki/... [wikipedia.org]

    you realize they could leave earth (ejecta from a sever impact) and colonize other planets

    then you think... wait a second, maybe we're here because these guys colonized earth

  • by pepsikid ( 2226416 ) on Thursday August 27, 2015 @09:42PM (#50406841)
    It seems likely that mankind, and aliens who got started before us, will eventually establish permanent residences off of their home planets. In the not-so-distant future, the majority of mankind, by percentage, will live off-Earth. However, you should think of the planets as being the bottom of very deep holes, with most of them being too hot, cold, poisonous, exposed to radiation, or too much or too little pressure. The task of getting and leaving these places is risky and expensive, too. Let's just give up on the idea of colonizing Mars for the forseeable future, please! It may not always be so, but the solar system's orbital rocks are easier resources to get, and spitting up material from low-gravity objects with mass drivers. There's no point to terraforming a planet when that will take thousands of years, and no human civillization can keep a project like that, and it's cash flow, going for so long.

    In short, we're just not gonna live like pale, stick-figure trolls in underground caverns on the moon or mars. Mining will be done by pulling a big bag over an asteroid and breaking it up from the outside in. Attached refining equipment will separate useful elements and chemicals. This will be mostly-automated. We'll use the tailings as concrete to build our colonies. A gigantic mirror will heat the crushed rock and sinter it into shape, like an enormous 3d printer. There is enough material to build millions of them in OUR OWN solar system, and they'll be essentially self-sustaining once they've been established. Conditions inside will be perfect for human life. It's a far better prospect than making do with low-gravity moons and poisonous planetary atmospheres. Groups of colonies might form "countries" and others will operate independently. The colonies will be built robotically, so the cost will eventually drop to the point where one might be owned by a single family or other social group.

    While most colonies will participate in a humanity-wide economic and social network, a life of physical isolation and self-sufficiency will be the norm for most. We'll be in communication, but not often physically visiting other colonies. Some of these may try hurtling themselves onward to the next closest star. They'll stay in touch the whole time, they'll just be permanently out of reach from then on.

    The stars DO NOT need to be sun-like, nor do they need Earth-like worlds! They just need to have exploitable resources in easy reach. Red and brown dwarfs are more plentiful than any other type, and they'll last orders of magnitude longer, too. This is probably where the majority of intelligent life will live at some point. Not to miss out on any exploitable resource, those who live around dwarf stars will push onward to practically every type of star within reach. A million years or so, and we'll have colonies throughout the galaxy, and hundreds of alien neighbors to enrich our culture and science.
    • by Immerman ( 2627577 ) on Thursday August 27, 2015 @11:13PM (#50407113)

      A sufficiently advanced and adventurous colony might even redirect their host star through a series of gravitational slingshots sufficient to set in on a course to another galaxy. Sure, hurling stars around is a bit of a herculean task by our current standards, but a dwarf star isn't *that* big, and if you've got the long-term vision to consider intergalactic travel, the acceleration phase shouldn't deter you.

      By the same argument though, I would advocate for terraforming other worlds in our own system, once we've determined that they don't host life of their own of course. No sense destroying such a potentially vast scientific resource for a project that will take thousands of years.

      The beauty of terraforming though is that, done carefully, it may not need much human intervention at all. Just release the right mix of engineered microbes with an optimized mutation rate, and let the planet develop into a primordial "slime world" on it's own. Then, once it has a robust and thriving microbial biosphere, introduce the thin veneer of complex life that we are more familiar with. Maybe it takes thousands of years, so what? As long as it's a self-guided project we just need to get it started, and maybe give it an occasional nudge if it starts destabilizing.

      • A civilization sufficiently advanced enough to move their whole star system would probably not be so attached to genuine planetside living that they'd go to all that trouble. They could simulate normal life perfectly inside orbital colonies. I can't think of any sort of being which would wish to travel personally to the stars, and yet could not leave home soil. Even a mountain-sized plant. or something like it, could live in a custom colony. And the kind of stars that would make a good gigarocket are not al
        • tl;dr version of the above 3 posts.

          Magic!

          How about magic?

          Yeah, but, you know - magic.

        • Sure, planets are optional - stars however are kind of appealing - massive nuclear reactors bound together by the mass of their own fuel - sufficient fuel to continue generating energy unflaggingly for hundreds of billions of years, with nothing to break down and no maintenance required.

          Of course, if you're orbiting one of those long-burning dwarf stars you need to worry about the fact that they're prone to not-infrequent superflares. Might be nice to have a big chunk of mass for radiation shielding, prefe

        • Oh, and to address your "millions of times the surface area" remark - are you so sure you would want it? After all the surface is vulnerable to radiation, impact, radiant heat losses, etc. You could just as easily turn the whole planet into a honeycomb of underground colonies with ample resources available. A molten cores would be an issue, though a passive heating system might be worth the resource loss, but smaller planetoids such as the moon wouldn't offer than problem.

          The primary benefits of an orbita

          • First of all, I'm not considering your idea of moving stars and planets. It's a far higher level of technology, which does not need to be attached to the concept of building colonies.

            You seem to completely miss the point of building orbital colonies. The object is to provide quality living space for modern humans living off-world. They're not built for portability or convenient access to Earth. Virtually every orbital colony will be non-mobile. They'll be custom built for the orbit they're constructed in
            • Well, you prefaced your comment with "A civilization sufficiently advanced enough to move their whole star system would probably not be...", so I responded to that. I should also make clear that I'm a huge fan of the concept of orbital colonies, both as a stepping-stone for human expansion to the stars, and the romantic appeal of the fierce independence and cooperation such a society will likely breed. But I think it's important not to lose site of the limitations, and the fact that planets offer their ow

              • Well, planets which are practically identical to Earth would have advantages... provided you intended to abandon space for ground living again. Remember, my point is that once you're in orbit, everything you need is in easy reach. Why go back to ground again? If a planet isn't Earth, then it won't be much like Earth anyway.

                I'm at a loss to understand why you're so fixated with living on planets. That you would consider almost any planet or moon over a colony. Colonies will be easier to build with existin
                • For the sake of clarity I'm going to split this post into two - one pro-planet, and one for habitat discussions:

                  I'm not fixated on living on planets - I'm saying they have a lot of their own advantages which make them desirable locations TOO. Basically:
                  Planet advantages:
                  - serious radiation and impact protection
                  - real gravity
                  - abundant resources (almost all mass close enough to our star to not be effectively interstellar)
                  - a large enough ecosystem to absorb large disruptions without lasting damage (at le

                • I have to agree with you about giant windows being a bad idea. Observation domes, etc. on the outer surface would certainly have their place, who wouldn't want to look down through the transparent floor and see the stars spinning past beneath them? But such chambers should be easy to isolate from the main habitat in case of the inevitable impacts and radiation surges. Giant windows letting you see stars overhead may make for good science fiction, but I doubt many people would want a scant sheet of "glass

        • They could simulate normal life perfectly inside orbital colonies.

          By the time you've reached that point, the number of people living in orbital colonies wouls mean that they are the norm, and it is people who live at the bottom of a (gravitational) hole who would be considered dumb, crippled dwarfs.

    • Glad you got all that worked out, George.

      Now, if you don't mind, could you quit surfing /. awhile, at least long enough to put the cylinder heads back on that Honda Civic you've had for two days?

      Sorry to disturb you but the owner is getting testy and wants his car back.

  • by swell ( 195815 ) <jabberwock@poetic.com> on Thursday August 27, 2015 @09:46PM (#50406855)

    I skipped the Discovery link to avoid hype and went directly to the Harvard link.

    Disappointing. One expects a certain sobriety from scientists and yet something is terribly wrong here. The article is peppered with weasel words: an unusually vague 'theory'; and words like: could, might, if, potentially, would, and the ever dreadful 'assumes'. Let's hope that the actual paper will have a more solid foundation.

    • And what exactly did they "discover"? What's the "research"?

      Meteorites from Mars have been known for a long time. The theory of panspermia was invented many decades ago. What did these researches add to the discussion that we didn't know already?

  • by Known Nutter ( 988758 ) on Thursday August 27, 2015 @10:11PM (#50406911)

    Were the alien's exoplanetary atmospheric escapades discovered in the Ashley Madison database?

    Oh, this article isn't the hourly Ashley Madison tripe? Pardon me... I apologize. Carry on!

  • by Anonymous Coward

    We need to seed the universe with our sort of DNA so that by the time we get around to getting there the local cuisine is tasty and delicious even if somewhat exotic, and not yucky and disgusting or even toxic. You reap what you sew.

    And if you cook it right it's mighty tasty.

  • by Capt.Albatross ( 1301561 ) on Thursday August 27, 2015 @10:25PM (#50406943)

    Given that life had to originate somewhere, and that we know next to nothing about the distribution of life in the universe, panspermia seems to me like a solution looking for a question to be the answer of. I am bemused by the fact that some people seem to find a universe having panspermia more satisfying than one without it, just as I am bemused by people who find a universe with reincarnation more appealing than one without (if you can't remember anything about your former selves, what's the difference? - they are as good as dead.)

    I don't deny panspermia could happen; my attitude is essentially 'call me when you have something that goes beyond speculation.'

    • I think it's basically that, given some fairly plausible assumptions, panspermia would make it almost inevitable that the galaxy is full of at least simple life, and probably at least some complex life as well. And a galaxy full of ife is far more exciting proposition than a field of hundreds of millions of dead rocks.

      Of course at present we have no particular reason to believe such a setting is real, but it makes for a much more compelling story - and humanity is built upon it's ability to tell stories of

  • He should win the Nobel for the name alone! :-)
  • Proper use of the scientific method may prove or disprove a hypothesis.
    A widely publicized hypothesis might cause mass hysteria while being neither proven nor disproven.
    Could "A hypothesis of panspermia" "act as the delivery system for alien biology to hop from one star system to another" ?
    NO. Any "delivery system" requires instantiation of a mechanism, which might follow from a provable hypothesis.
  • All panspermia discussions strive to avoid being seen to duck the difficult question : how did life first originate anywhere? Even if you prove beyond doubt that Sol organisms are derived form (e.g.) Van Maaanen's Star organisms, as are Banardians and ... you still have the problem of finding out how originated the first time.

    While OOL (Origin Of Life) is by no means a settled question on Earth, we do at least have good evidence of what happened here. Otherwise, being able to determine that life originated

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