Microbes Likely Abundant Hundreds of Meters Below Sea Floor

sciencehabit writes "Samples drilled from 3.5-million-year-old seafloor rocks have yielded the strongest evidence yet that a variety of microorganisms live deeply buried within the ocean's crust. These microbes make their living by consuming methane and sulfate compounds dissolved in the mineral-rich waters flowing through the immense networks of fractures in the crust. The new find confirms that the ancient lavas formed at midocean ridges and found throughout deep ocean basins are by volume the largest ecosystem on Earth, scientists say."

First life form

[Anonymous Coward]

Maybe, could be the first life form!

Re:First life form

[Fluffeh]

Possible, but more likely that it branched away from another more abundant form, filled a niche in and was pretty much forgotten about by everything else. Not to say that it couldn't well be an exceptionally early form that simply never changed.

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[Luckyo]

Latter option is pretty unlikely. Even microbes have their predators and parasites (usually in form of various viruses), so they have an arms race for survival of the fittest not that different from one we have here on the surface. It's highly unlikely for any single life form to survive billions of years largely unchanged by this process, as at some point your predators and parasites would optimize themselves to the level where you will get either wiped out entirely or severely weakened so that competing l

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[flayzernax]

Or occupy a niche that is bitchin hard for predators to get at you in.

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[tloh]

I wish one of these bugs would occupy Wall Street. Now there is a place conspicuously lacking in any meaningful predation characteristic of a healthy ecosystem.

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[Immerman]

Predators or not, you still have to continuously compete with your not-quite-identical cousins for food and space. And predators can mostly adapt to more hostile environments just as quickly as you can, though you'll have a pretty firm grasp on the first-mover advantage since they don't get much advantage from being able to tolerate an environment not yet colonized by your oh-so-delicious family. Just don't stop evolving or they'll catch up...

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[Luckyo]

I don't think you understand how evolution works. The niche you mention does not exist, because predators exist in the same environment as you, and adapt alongside you.

That is why no matter the environment change or occupied biological niche, as long as it's survivable there will be those harvesting energy and materials from environment and those harvesting energy and materials from those who can harvest it from environment. That is essentially one of the main rules guiding the evolution on the planet.

This

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[K. S. Kyosuke]

Possible

I'd say it's utterly impossible. The conditions billions of years ago were sufficiently different that the first fragile forms of life would be most likely unable to survive in today's world. They'd have to adapt, and then, by definition, they wouldn't be the first form of life anymore.

Re:First life form

[Immerman]

Not even close. They may possess some similarities to the first cellular life forms which were almost certainly also chemovores (though likely lived in amino-acid rich muck on the bottom of shallow seas), but these organisms have been evolving for four billion years since then - they are every bit as evolved as humans, arguably far more so since their generations are so much shorter. They simply spent more time optimizing for a particular ecosystem niche whereas our ancestors kept changing directions dramatically. I mean come on - living in giant clonal colonies of billions of specialized individuals? Clearly a fad. It'll last a few billion years more, tops.

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[iggymanz]

bullshit, that's just a multicellular-egocentric view of things. real evolution means fitness to survive as environment changes. look at how this largest part of the planet's ecosystem is impervious to drought, earthquake, extreme weather. even if man's weapons were to completely destroy all life on the surface and that swimmin in the seas, most life on earth would continue, and might even again spawn some multicellular throwbacks to live on the surface again.

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[Immerman]

In truth there are no "higher" life forms, just those more like us. Darwin himself took great pains to avoid concepts like "higher" or "lower", rather "suitability to environment" is the only meaningful yardstick, with adaptability being one factor in that when you consider the long-term.

Evolving doesn't imply any sort of direction, it's a path function. You could make a good argument for measuring it in terms of either gross or net changes from some historical reference point - in terms of a wiggly line

Europa

[Anonymous Coward]

This is good news for the potential of life on Europa. Since life is so abundant in these sun deprived areas on Earth, there is no reason why it couldn't be abundant in the same ways on Europa.

Re:Europa

[Immerman]

Indeed. In fact sunlight was probably largely irrelevant to Earth life for most of the first billion or so years it existed. Prevailing opinion is now that chemical energy from hydrothermal vents was probably the primary "food" early on, then eventually perhaps each other. Which makes sense if you think about it - complex chemistry would probably find chemical energy far more accessible than capturing radiation. Photosynthesis doesn't appear to have really caught on until much later, with the evolution of chlorophyll likely causing the first mass extinction event as it flooded the seas and atmosphere with toxic oxygen.

Of course Europa is a much smaller petri dish than Earth, and less energetic, so I'd suspect life would evolve much more slowly. If we do find life there, and it's anything like us (DNA, etc), it might provide a fascinating glimpse into what primitive life on Earth may have be like. Everything here on Earth is the product of around 4 billion years of evolution.

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[Kreigaffe]

All these worlds are yours except Europa

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[Immerman]

Shut your yap yah overgrown building block, I'd like to see you stop meEeep.

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[symbolset]

attempt no landing there.

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[Forty Two Tenfold]

smaller petri dish than Earth, and less energetic

Not necessarily. Remember what powers Io's volcanoes?

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[Immerman]

True, but tidal forces are proportional to the gravitational gradient which falls off with the inverse cube. Since Europa is 60% farther from Jupiter, tidal forces will be only 24% as strong. Granted the "kneading" effect heats the mantle considerably more than the surface, but the fact that the surface is covered in probably miles of ice still suggests that the ambient energy levels are lower, at least as a first-order approximation.

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[K. S. Kyosuke]

In fact sunlight was probably largely irrelevant to Earth life for most of the first billion or so years it existed.

...unless you take into consideration it's effects on Earth's weather, like forming winds and keeping the temperature above the freezing point.

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[K. S. Kyosuke]

Crap! "its effects"! I thought only natives do these kinds of typos. It seems that even L2 people are not immune.

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[Cajun Hell]

Their they're, yule be ok. Hay, at least you didn't write "it's affects."

FWIW I think anyone who lives at L2 [wikipedia.org] should be proud to be alive, much less immediately spot their typos. Just feeding yourself, trying to get space-crops to grow in the Earth's shadow, must be a lot of work. I wonder how you deal with that. Do you grow your food using some kind of chemical ener... HEY WAIT A MINUTE!

Dude, you just gave away that you're totally an expert at the very topic at hand. Quit pretending to be one of the

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[K. S. Kyosuke]

You've just given the juxtaposition of "British English, American English, L2 English" a whole new meaning. Thank you very much, from now on I won't able to read a monograph or paper on second language acquisition without giggling.

Hazen

[CuteSteveJobs]

This isn't new: Recommend Professor Robert Hazen's book on the origins of life. He says no matter where you go on earth, deep into sea sediments or the rock of deep undergrounds mines, every cubic inch of the Earth is teaming with microbes. Worth noting the vast majority of them are indifferent to you. Even out of the ones that made their home on your body (for every cell on your body there are 10 bacteria along for the ride), the vast majority of those are indifferent or even beneficial. Only a tiny percentage are pathogenic, and often only when your immune defences are down. On the origins of life it isn't that it is hard to come up with an explanation, but instead there are so many plausible theories they don't know which one it might have been. It may be far easier for life to get started than we like to think. http://www.smithsonianmag.com/science-nature/The-Origins-of-Life.html [smithsonianmag.com]

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[gagol]

+1 insightful, please, i am out of points.

Re:Hazen

[Anonymous Coward]

He says no matter where you go on earth, deep into sea sediments or the rock of deep undergrounds mines, every cubic inch of the Earth is teaming with microbes.

What about in the outer core? How do the microbes survive in liquid iron?

Oh, you just meant in the crust, right? So finding life hundreds of meters below the surface in the crust might actually be a surprise? 6371 km deep, there is no life. 0 km deep there is a lot of life. The question is how deep life can survive (between 0 and 6371 km). Now we know it can survive hundreds of meters below the surface in cracked rocks. Can it survive deeper than this? It certainly can't survive down to the core, so there must be some interface boundary where even the most extreme of extremophiles won't survive. That is the point, and that is why this finding is new.

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[Dr_Barnowl]

They were clearly just deep in the crust. Not only would the core still be too hot for life, even thousands of years after the 21st century, without a temperature differential they can't harvest the geothermal power for their systems ; ergo, they need to be close enough to the cold surface.

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[Charliemopps]

There's no reason to believe that life couldn't exist in the earths core. It wouldn't be anything we'd recognize, but the fact that we have recognizable bacteria practically living on the edge of lava vents in the ocean should give you a clue. It'd be a stretch but no-where near as impossible as you're making it seem.

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[jafac]

Well; the thing is - are these chemovores, even a legitimate "part" of OUR biosphere? They are fairly isolated. One could consider them a separate biosphere. Unless there are life forms that eat both chemovores, and photosynthetic creatures (and maybe there are decomposers that DO that). (this becomes like the "is Pluto a Planet" argument).

But I think that once you get down far enough into the crust, the specialization required to survive those temperatures and pressures is going to yield life that's un

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[K. S. Kyosuke]

Can it survive deeper than this?

Sure, at least a few km. (a link for you [kenyon.edu])

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[Anonymous Coward]

He says no matter where you go on earth, deep into sea sediments or the rock of deep undergrounds mines, every cubic inch of the Earth is teaming with microbes.

Yesh, but saying it and actually demonstrating it using samples are two entirely different things. That still makes it pretty much new.

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[symbolset]

There is no place on Earth, no matter how high, how cold, how deep, how hot that we have not found life there - but for the content and surface of lava. Life is pernicious and persistent. It is a weed.

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[Rogerborg]

Can't eat them, talk to them or screw them, so I'm vastly indifferent to them too.

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[flyingfsck]

Until they invade your body and make you ill...

2001

[Tablizer]

"My God, it's full of microbes!"

-MiniDave

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[crutchy]

the titanic was carrying a monolith... or the titanic was a monolith

The take away from all these stories

[Grayhand]

On Earth where ever life can survive it does and generally thrives. It just proves how tenacious and adaptable life is in the Universe. There are only really two options, life is an unlikely fluke or it's everywhere it can possibly exist. Life may be more pervasive than anyone thought possible. The dogma has been that where life is possible it's still rare but the more likely truth is systems where like can exist but doesn't may be the rare exceptions.

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[DerekLyons]

On Earth where ever life can survive it does and generally thrives. It just proves how tenacious and adaptable life is in the Universe. There are only really two options, life is an unlikely fluke or it's everywhere it can possibly exist.

It's not impossible for life to be both - an unlikely fluke *and* everywhere it can possibly exist. It's the adaptability of life that's the key, currently extremophiles on Earth are believed to have arisen someplace benign (I.E. where it's easy for life-the-fluke to tak

James Cameron

[dohzer]

So now we've got to send James Cameron hundreds of metres BELOW the bottom of the ocean to investigate?
Take it easy guys; his body can only take so much!

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[lxs]

I wonder how the "colonize the universe" crowd feels about that, what gives them the right to decide that a planet should now be full of people rather than leaving it be to evolve on its own.

What gives us the right? Survival of the fittest. All life is created equal and that includes carbon based bipeds with spaceships. Add to that my personal conviction that undirected panspermia is a contributing force to the spread of life in the Universe and I see no objection to adding a little directed panspermia of o

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[lxs]

We're animals, so we do what animals do. Feed and procreate. It's our biological imperative. There is no shame in this. The Universe will keep on ticking along just fine. Thinking that we have to care for every creature that crosses our path implies that we are somehow superior. That we know best. It is an arrogance I don't subscribe to.

this has been known for decades

[peter303]

Life has been everywhere drilled into sediments or rock as long it is below 120C temperature.

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[iggymanz]

no, the massiveness of this part of the biosphere is what was not known. those samples from the past were viewed as a tiny niche ecology. now we find it may be the main one of this planet

Yup

[TheSkepticalOptimist]

We already know there is life on this planet, stop looking.

Deep Hot Biosphere

[RackinFrackin]

Thomas Gold [wikipedia.org] wrote a book [amazon.com] that seems very pertinent to this.

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[Lorens]

For fiction about intelligence under the sea, try Franz Schätzing's The Swarm: http://www.amazon.com/Swarm-Novel-Frank-Schatzing/dp/0060859806 [amazon.com]

Two Words: Thomas Gold

[fygment]

He and others have theorised, spoken to, and proven this over and over again over the past several decades.

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

Also his book: Deep Hot Biosphere and paper of same title (http://www.pnas.org/content/89/13/6045.full.pdf+html)