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Earth's Oxygen History Could Explain "Darwin's Dilemma" In Evolution

Posted by timothy on from the you-expected-a-straight-line-on-the-graph? dept.

TaleSlinger (3080869) writes Scientists following two different lines of evidence have just published research [Here's the abstract to the paywalled Science paper] that may help resolve "Darwin's dilemma," a mystery that plagued the father of evolution until his death more than a century ago. Life appeared when the earth was tens of millions of years old, but evolution didn't go into high gear until the "Cambrian Explosion", nearly a billion years later. The two papers propose complementary theories that help explain this. The first suggests that scientists have long overestimated the amount of oxygen in the earth's atmosphere in the pre-Cambrian era just before the "explosion." The second suggests suggests that very dramatic changes driven by the tectonic breakup of the so-called "supercontinents" of the pre-Cambrian era could have caused an extraordinary leap in oxygen levels of both the ancient oceans and the earth's atmosphere. These two studies fit neatly together, suggesting that a world deprived of oxygen could have changed relatively quickly into an incubator for new life in shallow ponds spread across the continents and fed by waters rich in nutrients. Perhaps that set the stage for the explosion, which may have been five times the evolutionary rate seen today.

8 of 78 comments (clear)

  1. A matter of perspective by jandersen · · Score: 4, Interesting

    ... evolution didn't go into high gear until the "Cambrian Explosion", ...

    I'm not sure I believe that - one could reasonably argue that the growth in complexity from a soup of ribozymes to the first cell, was comparable to the leap from single-celled organisms to multicelled; or possibly far more involved than that. Another major leap was from prokaryotes to eukaryotes, a necessary precondition for (most) multicelled life, it would appear. What happened at the Cambrian explosion was probably just that now the organisms got big and touch enough to leave fossils.

    1. Re:A matter of perspective by fuzzyfuzzyfungus · · Score: 4, Interesting

      ... evolution didn't go into high gear until the "Cambrian Explosion", ...

      I'm not sure I believe that - one could reasonably argue that the growth in complexity from a soup of ribozymes to the first cell, was comparable to the leap from single-celled organisms to multicelled; or possibly far more involved than that. Another major leap was from prokaryotes to eukaryotes, a necessary precondition for (most) multicelled life, it would appear. What happened at the Cambrian explosion was probably just that now the organisms got big and touch enough to leave fossils.

      There seems to be an interplay between 'growth in complexity' and 'diversification' at work. It is undeniably the case that hammering out the basics of metabolic chemistry, and various other low-level-but-absolutely-life-critical stuff took a long time, and that it was one hell of a jump from 'glorified catalytic processes' to 'life as we know it'; but if you are looking at diversity as well as complexity, the massive increase in weirdo multicellular organisms made possible only by high powered aerobic metabolism (along with the large number of new niches for symbiotes and parasites that this created) was also very big news.

    2. Re:A matter of perspective by SydShamino · · Score: 3, Interesting

      Sort of how the 200 years or so of computer development up to the point of Singularity showed tremendous advances in computer science and engineering, and yet, once the machines are sentient, the wild diversity of the quintillions of robot that spread through the galaxy will represent the majority of the fossil record - especially after most of the old PCs of Earth have subducted.

      --
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  2. Unseen evolution by Roodvlees · · Score: 5, Interesting

    Or there was plenty of evolution before this 'explosion', but we don't see fossils of that time because the animals had such soft bodies that don't fossilize well.

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    Thank you, Bradley Manning, Edward Snowden and so many others, for courageously defending humanity, my freedom and more!
  3. Re:Terraforming by gurps_npc · · Score: 5, Interesting
    1) Yes this looks like terraforming - the process of taking a lifeless world and making it suitable for life.

    2)That in no way at all implies aliens did it because....

    3)All living worlds (hopefully Earth is just one of many) start out as lifeless and then develop life. So all living worlds MUST undergo terraforming.

    4) If aliens did it, it would have taken a LOT LESS time then it did. These studies pretty much prove your wrong about aliens doing it.

    Whens starting up, a living world's major problem is fuel. It's very hard to eat generic dirt and gasses. So first they need something that can take whatever inorganic raw materials exist and transform it into something more easily digestible. That means taking the atmosphere and turning it into oxygen rich (or whatever other gas the complex life needs) and taking inorganic dirt and turning it into organic fertilizer (i.e. manure). Then more complex life can come along and live off the manure and atmosphere. Then once life fills the planet, multi-celluar life forms can come along and start eating the single celled life forms, which has become good food.

    That is how life takes over a world naturally. Intelligence simply speeds up the process, it doesn't change it.

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    excitingthingstodo.blogspot.com
  4. Evolution isn't slow by koan · · Score: 3, Interesting

    which may have been five times the evolutionary rate seen today.

    Look up epigenetics, and a few other factors, evolution is not slow.

    --
    "If any question why we died, Tell them because our fathers lied."
  5. This is a software issue by Arnold+Reinhold · · Score: 4, Interesting

    The Cambrian explosion is more likely explained in terms of genetic software. At some point, a collection of genes evolved that could reliably control and pass on complex growth patterns. Before those existed, multi-cell organisms had very simple forms and limited functionality. Once that morphological operating system was in place, a vast variety of organisms could evolve.

  6. Maybe high O2 led to evolution of hard tissue by tyme · · Score: 3, Interesting

    Rather than sparking rapid evolution, maybe the high O2 concentrations led to (or allowed) the development of hard tissue in existing complex organisms. Ocean acidification dissolves the shells of clams, corals, etc. and increased O2 levels could coincide with decreased CO2 levels (probably because the organisms creating all the O2 had to get it from somewhere).

    This being Slashdot (and the link being paywalled) I have not bothered to read the linked article. Hell, I've barely bothered to read the summary.

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    just a ghost in the machine.