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Science

Why Scientists Think Completely Unclassifiable and Undiscovered Life Forms Exist 221

An anonymous reader writes: In a new paper published in Science, researchers at the Department of Energy's Joint Genome Institute note that "there are reasons to believe that current approaches [to discovering life] may indeed miss taxa, particularly if they are very different from those that have so far been characterized." They believe life forms exist that don't fall into the established eukaryota, archaea, or bacteria kingdoms. They argue that there may be life out there that doesn't use the four DNA and RNA bases that we're used to; there may be life out there that has evolved completely separately from everything that we have ever known to exist; there may be life that lives in places we haven't even looked.
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Why Scientists Think Completely Unclassifiable and Undiscovered Life Forms Exist

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  • by QuietLagoon ( 813062 ) on Friday November 07, 2014 @01:48PM (#48335639)
    Of course not.

    .
    To think that we have discovered all there is to know regarding life forms would mean that we already know all there is to know in this field.

    So maybe we need to use different methods than the ones we have been using. Makes sense to me.

    • Re: (Score:3, Insightful)

      by penguinoid ( 724646 )

      Indeed. We have enough trouble finding certain DNA-based life forms. Plenty of life forms we only know about because we leaned how to copy DNA, and started grinding up samples and amplifying the DNA. Many of those refuse to grow in petri dishes and don't cause diseases, and would no doubt be unknown to this day if they didn't contain DNA.

      I think there's a fairly low chance that Earth has life that doesn't use DNA/RNA but if there is and it minds its own business, it could be decades or more before we discov

      • by smellsofbikes ( 890263 ) on Friday November 07, 2014 @03:40PM (#48336847) Journal

        Indeed. We have enough trouble finding certain DNA-based life forms. Plenty of life forms we only know about because we leaned how to copy DNA, and started grinding up samples and amplifying the DNA. Many of those refuse to grow in petri dishes and don't cause diseases, and would no doubt be unknown to this day if they didn't contain DNA.

        I think there's a fairly low chance that Earth has life that doesn't use DNA/RNA but if there is and it minds its own business, it could be decades or more before we discover them.

        Consider things that grow much, much more slowly. They're already finding chemolithoautotrophs living in rock 4 km beneath the surface of the earth, that reproduce over the course of years, rather than in twenty minutes like the bacteria we're used to working with. If there were organisms that didn't have DNA, but did have some sort of body that could maintain chemical gradients, allowing it some sort of metabolism, and reproduced on the scale of centuries, we'd have trouble ever noticing it was there because we haven't made the tools to find it, for lack of knowing what we're looking for.

      • by HiThere ( 15173 ) <charleshixsn.earthlink@net> on Friday November 07, 2014 @03:44PM (#48336893)

        Are Prions a form of life? If not, why not?

        They don't use DNA, they use proteins.

        OTOH all known Prions are either symbiotes or parasites.

        Whether we recognize any particular non-DNA using entity as a form of life is going to depend strongly on what definition we use for life.

    • by Anonymous Coward on Friday November 07, 2014 @02:16PM (#48335895)

      And just to pick a nit a bit:
      "Unclassifiable" is pure nonsense. Unfamiliar, sure. Foundationally different than all terran life, sure. Unclassifiable, no. Even if it just starts a conversation that leads to a decision to add a larger category than 'kingdom,' once recognized, it can be classified.

    • Yeah. Basically Gödel 101.
    • Not quite. They're suggesting that there's a good chance that there's an entirely different domain (or more) of life other than eukaryotes, bacteria, and archaea. That's a pretty radical proposition, but not entirely out of bounds, because many of our more modern techniques for detecting life forms check for molecules that may not exist in a fourth (or fifth or sixth) domain of life.

      If it turns out to be the case that there are only three domains of cellular life (leaving viruses out of the discussion for

      • by jc42 ( 318812 ) on Friday November 07, 2014 @10:48PM (#48338823) Homepage Journal

        Not quite. They're suggesting that there's a good chance that there's an entirely different domain (or more) of life other than eukaryotes, bacteria, and archaea. That's a pretty radical proposition, ...

        Um, not really. A bit of quick googling verified within a minute my memory that the "discovery" of the archaea only dates back to the 1970s. Before that, the few that were known were (mis)classified as bacteria. Then a few researchers looked into their details, and showed that they weren't bacteria at all. Biologists basically watched the discussions, and eventually recognized that those researchers were right, and since then we've had 3 "kingdoms" of Earthly life forms.

        It's the idea that those 3 root classifications are all there is that's really radical. The default conjecture should really be that, if we discovered such a major root clade so recently, there are probably more waiting to be discovered. Assuming otherwise mostly just shows a lack of knowledge of the recent history of biological discovery.

        In particular, someone else has already mentioned the fact that the various deep-drilling projects have found living things kilometers deep in the rocks, no matter where they've drilled. The folks working with this data have estimated that there's more biomass below the surface water+soil layer than there is above it. It's likely that the critters living their slow, warm lives down there are radically different from anything up here on the planet's thin skin. Learning about them is going to take time. (And we can hope that the rapid expansion of "fracking" won't cause a mass extinction due to the massive habitat destruction down there before we have a chance to study them. ;-)

        • A couple of points here.

          First, we've now sequenced the DNA of so many microorganisms that it would be very, very hard for a new domain of life that uses the same sort of DNA structures to exist. The only likely way for a new form of life to exist is for it to be of a kind that isn't picked up in our DNA tests. That's what is proposed in this article.

          Given that, and given that all life (and viruses) found so far speak the same basic DNA language, it's really not unreasonable at all that the domains we've a

  • Because dragons are really cool.

  • its life jim but not as we know it
  • is this news? (Score:5, Insightful)

    by Triklyn ( 2455072 ) on Friday November 07, 2014 @01:57PM (#48335719)

    I was under the impression that news was about you know, new things. This is just an article highlighting that money has up until now been targetted toward things we are pretty sure exist. you know, novel creatures not using radically different genetic bases. This is just some dudes going, "yup, there might be more out there than we thought" which is you know, the basic premise of all the sciences.

    Come back to me when they actually find something that uses a sixth nucleotide.

    Incidentally, where might this new life have hidden, that we haven't searched already. We've got extremophiles in the middle of godforsaken rocks already... there aren't that many new places that i imagine we

    A. haven't looked already
    B. aren't already colonized by the cousins we know.

    Generally speaking, the new life would need to be able to outcompete, in certain circumstances, the stuff we know or it wouldn't survive too well the 2 billion years that bacteria have dominated the planet.

    i'd think the only viable thing would be viruses, maybe, and us not fully understanding them. but then i'd imagine if an different nucleotide were somehow incorporated into a virus we'd already found, it'd also be present enough to show up as an unknown nucleotide. Might not know what it was, but we'd most likely have an idea that it were there.

    • I was under the impression that news was about you know, new things.

      If that's your criteria for science news then you're going to get low quality science news because new science is typically wrong in some way.

      This is just an article highlighting that money has up until now been targetted toward things we are pretty sure exist. you know, novel creatures not using radically different genetic bases. This is just some dudes going, "yup, there might be more out there than we thought" which is you know, the basic premise of all the sciences.

      Come back to me when they actually find something that uses a sixth nucleotide.

      Incidentally, where might this new life have hidden, that we haven't searched already. We've got extremophiles in the middle of godforsaken rocks already... there aren't that many new places that i imagine we

      A. haven't looked already
      B. aren't already colonized by the cousins we know.

      Generally speaking, the new life would need to be able to outcompete, in certain circumstances, the stuff we know or it wouldn't survive too well the 2 billion years that bacteria have dominated the planet.

      i'd think the only viable thing would be viruses, maybe, and us not fully understanding them. but then i'd imagine if an different nucleotide were somehow incorporated into a virus we'd already found, it'd also be present enough to show up as an unknown nucleotide. Might not know what it was, but we'd most likely have an idea that it were there.

      It's more than that.

      For one they do cite evidence in the form of viruses with what seems to be very old DNA that isn't present in current known lifeforms. They figgured the viruses got those codes a very long time ago and had merely preserved them but they're now exploring the possibility those lifeforms are still around somewhere.

      It also mentions they're beginning th

      • :) was being a bit snippy.

        my point being, they're not reporting a new discovery of any kind. they're announcing the start of a new line of inquiry... which, you know is exactly the thing that you do when you're not satisfied with the old line of inquiry.

        the title and summary are specifically highlighting that scientists think other life forms exist that may be more novel than we previously thought.

        my question would be... did this thought just occur to you? that maybe we don't know everything about the way

        • :) was being a bit snippy.

          I share the same tendency :)

          my point being, they're not reporting a new discovery of any kind. they're announcing the start of a new line of inquiry... which, you know is exactly the thing that you do when you're not satisfied with the old line of inquiry.

          the title and summary are specifically highlighting that scientists think other life forms exist that may be more novel than we previously thought.

          my question would be... did this thought just occur to you? that maybe we don't know everything about the way life can be expressed? it's news that some people have suddenly decided to stumble upon a realization that most people have already had?

          my first thought when reading the article was "no duh"

          For me the bulk of the article talking about the problem of detecting novel forms of life on earth was setup, ie you're reading a science story here's the background. The actual payload was the bit about the new methods they're developing now. I do agree they could have highlighted the new advancements a bit better as that part was a bit vague.

          • well the new methods were kind of behind a paywall. It they weren't i'd have to reevaluate their newsworthiness.

    • That's a pretty narcissistic and arrogant world view which does little to advance the current state of knowledge. When we stop daring to think ambitiously and asking improbable questions about the world around us, we settle into a valley of complacency from which we loose the momentum of curiosity that has driven science and technological innovation. Imagine Einstein never bothered to write that letter which lead to the Manhattan project. Or if DARPA thought the packet switching ARPANET was a waste of ti

      • scoop*

        I wasn't complaining that they were looking for it. I was complaining that it was worth reporting on. Looking in the unlooked at corners is standard practice. As far as i know.

        The deep waters are inhabited by our cousins, as are the boundaries of space. Inside rocks, inside boiling sea vents. The very idea that some things outcompete others is one of our basic immunological defenses.

        That we haven't seen something already, on the bacterial stage at least. Seems to indicate that our current scheme

  • by idontgno ( 624372 ) on Friday November 07, 2014 @01:57PM (#48335725) Journal

    "It is not life as we know or understand it. Yet it is obviously alive, it exists"

    --Spock, "Operation -- Annihilate!"

    • by way2slo ( 151122 )

      Devil in the Dark is the more appropriate episode.

      Spock: "Within range of our sensors, there is no life other than the accountable human residents of this colony beneath the surface. Eh, at least, no life as we know it. "

  • Probably. (Score:4, Insightful)

    by Anonymous Coward on Friday November 07, 2014 @02:00PM (#48335757)

    I'd hardly be surprised if there were many forms of life that co-existed in the RNA world days, and eventually they just lost out to RNA and then DNA because maybe it is more efficient at replication.

    There are thousands of stable molecules, some we have even made, that can support a similar system of structure like DNA and can be made fairly easily with low energies.
    We know even DNA can replace a phosphor base with a more energetic arsenic and still function, more or less.
    Most likely there were more energetic forms of life that could survive back in the hotter early days that died off as Earth cooled.
    Maybe we will find that some planets that are really hot do in fact have some form of life, give at least some liquid is present that can be used for transfer and energy. (like water)
    Hell, we may even find them as we dig deeper in to Earth and find caverns even deeper than the ones we have found so far with ancient life in them.
    Let's just hope we don't find no temples.

    What there likely isn't, though, is nuclear creatures living on the surface of stars.

  • And the angels too. Don't forget the ghosts, wraiths, phantoms, etc.

    And the zombies. Never forget the zombies.

  • "Generalized Life" (Score:5, Insightful)

    by radtea ( 464814 ) on Friday November 07, 2014 @02:17PM (#48335909)

    Massive generalization has been good to the sciences.

    In physics, we have used invariance principles to expand our definitions to the most general possible. This was the argument behind General Relativity, for example: Einstein wanted equations of motion that would be invariant under any smooth second-order transformation whatsoever, and when he put that constraint, and only that constraint on, he found the most general form of the equations of motion were uniquely determined (up to a constant of integration, which is the Cosmological Constant).

    Biologists have generally shied away from this kind of approach to their field, but there is an argument to be made that there is an equally general definition of "life" as "anything that participates in a process of evolution by imperfectly heritable traits that result in differential reproductive success". It need not be tied to any particular concrete mechanisms like DNA and RNA.

    This idea may turn out to be silly (which is why I wrote a novel about it rather than a scientific paper: http://www.amazon.com/Darwins-... [amazon.com]) but well into the 1800's there was no general view of "energy" that unified all the disparate forms, to the extent that the fact that light had energy that was in any way related to mechanical energy was not really appreciated. The kind of unified view of energy we have today would have seemed bizarrely speculative at that time, in the same way that the notion of a unified, generalized view of life is purely speculative today, but it turned out to be amazingly useful, so it's worth considering the possibility in biology today (anti-science people will likely attack it as a waste of money, using computer technology that would not exist without a similar "waste" on ridiculous fantasies like quantum theory and "obviously useless" research into the basic physics of semi-conductors in the past.)

    • by HiThere ( 15173 )

      There are a lot of things that fit that rather abstract description that I don't consider life, but which I do consider evolving. Stars for example. More recent generations of stars have evolved to consist of more heavy elements than did the earlier generations. (Granted parentage is a bit difficult to specify, as the parent is generally long dead before the descendant is born. And, of course, the Hydorgen involved is primordial, but then so are the elements of any life form, what matters is the organiz

  • This is revolutionary. An amazingly original idea, perhaps some life form that is silicon based instead of carbon based, with no DNA, hiding at the bottom of a mine shaft or something. A Devil in the dark if you will.

    I just wonder why no one has ever though of this before now.

    • It has been thought of. The issue here is "How do you look for something as general as 'life'?"

      Consider the various probes we have launched to Mars that are looking for signs of life currently or formerly existing. When we say that, though, we're looking for signs of life kind of like what we know on Earth. Which is great. But if we don't find any, it's tough to say definitively that life doesn't exist on Mars because what if it's a different form of life that we don't understand?

      • looking for signs of life that we don't really understand is a wild goose chase. We know that life as we know it... you know works, we can't check for every type of "maybe" that exists.

  • by pesho ( 843750 ) on Friday November 07, 2014 @02:49PM (#48336289)

    The original article [sciencemag.org] is pure speculation. Can life exist that is so different from the stuff we know, so that we can't detect it with current molecular biology techniques?

    Sure why not. What the article fails to mention is that we can find life in other ways. Even if we can't sequence the DNA in many cases we can culture microorganisms from environmental samples. We can also use microscopy to directly examine environmental samples. In fact both the microbial cultures and microscope have been done on large scale over many years. Not once have we seen an organism that does not conform to our current understanding of life on earth. Life can also be identified by the changes in the environment it create. Again nothing we have seen so far has suggested that there is a life form so unusual that we can't detect it with our current techniques.

    Where authors of the original article fail most miserably is their solution: high throughput sequencing techniques. Huh? How would those techniques lead to the discovery of life that is fundamentally different if they are dependent on the standard properties of DNA and DNA replicating enzymes??

  • ... with which the hills are alive.

  • Comment removed based on user account deletion
  • The internet is a life form:

    1. it is growing (new devices are added every day)
    2. reproducing (new subnets are created every day)
    3. functional
    4. continually changing

As you will see, I told them, in no uncertain terms, to see Figure one. -- Dave "First Strike" Pare

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