Both DNA and RNA—the messengers of life as we know it—almost certainly were selected and evolved from a large diverse group of protonucleic acid molecules. But for DNA and RNA to evolve from this group of protonucleic acid structures, first they had to be able to replicate. That involved organizing their copying via cyclic assembly and dissociation.

"A lot of origin-of-life reactions involve getting rid of water," says Kevin Zahnle, a planetary scientist at the NASA Ames Research Center at Moffett Field, Calif. "So you look for means to concentrate your solutions. One way to do that is to throw water up on a hot rock, then have the waters recede and evaporate."

Molecular biologist Richard Lathe of Pieta Research, a biotech consultancy in Edinburgh, Scotland, contends that some 3.9 billion years ago, fast tidal cycling caused by the influence of our moon enabled the formation of precursor nucleic acids.

Lathe says that a 12-hour Earth day would have produced high tides "a little faster than every six hours."

He believes these lunar tides would have moved many miles inland, beyond the crashing waves driven by the sun or surface winds, and onto a vast, flat sandscape. Today, this sort of ocean cycling pervades the sandy flats surrounding France's famed tidal island of Mont-Saint-Michel, abutting the English Channel.

In the early Earth environment, Lathe notes that such fast lunar tidal oscillations would result in the highly saline low-tide environment that protonucleic acid fragments would have needed to associate and assemble complementary molecular strands.

Having bonded in pairs at low tide, these newly formed molecular strands would then dissociate at high tide, when salt concentrations were reduced, providing what Lathe terms a self-replicating system. Lathe believes that DNA would ultimately have arisen from such protonucleic acids.

If the lunar tides were a crucial part of evolution on our own planet, what of other ocean-bearing terrestrial planets without benefit of a significant nearby lunar neighbor? Would their prospects for life be diminished due to lack of tides?

"Odds of nucleic acids forming on Earth without the lunar tides would be much lower," Lathe says. By this accounting, he says that Mars, with its two puny moons, Deimos and Phobos, could not have formed life.

Within our own solar system, the moons of Jupiter have turned the idea of tidal influence on its head. On Jupiter's icy moon Europa, tidal heating, caused by the flexing of the satellite under the gravitational pull of the giant planet, is believed to maintain a large liquid water ocean below its frozen surface.

"Europa must have big tides, so it's my favorite for microbial life," says Max Bernstein, an astrochemist and program scientist at NASA Headquarters in Washington, D.C. "Europa is considered by many as the best place to find life in the solar system."

But even with strong tides, any evolutionary ambitions of microbes on Europa would soon be stymied by their harsh habitat. That is one reason why so much time and energy still goes into unraveling the mystery of life's origins on our own planet.

Our disproportionately large nearby moon certainly gave Earth an early tidal nudge. But unlike Venus and Mars, our moon's gravitational influence also helped ensure that Earth's spin axis and climate remained stable over long timescales. That's arguably just as important as our oceans' tidal ebb and flow.

Still, as Bruce Lieberman, a paleobiologist at the University of Kansas in Lawrence, points out: "I suspect that eventually life would have made land without the tides. But the lineages that ultimately gave rise to humans were at first intertidal."

17 Comments

1. 1. ebianchi 11:04 AM 4/21/09

   Tidal forces may also have helped break the Earth's crust into tectonic plates, and now keep them in motion. The resulting vulcanism may have been key to creating, and now maintaining Earth's atmosphere, and the 'black smokers' in the deep ocean where life may have originated.
   
   I have never read anything suggesting that lunar tides help drive plate tectonics, but I can't imagine there isn't some relationship.

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2. 2. toddhutch 12:42 PM 4/21/09

   How does the recently reported increase in amplitude of the tides, as measured on the west coast, work with the theory that tides should be subsiding?

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3. 3. Joel Raupe 03:13 PM 4/21/09

   Interesting that the article, as interesting a review as it was, does not include the possibility Earth's exceptionally dynamic dynamo and tectonics may, in part, also result from proximity to our large satellite. The barycenter of the Earth-Moon system is not the center of Earth, but ~1/3 its radius, from the surface. The robust magnetic field of Earth, after all, shields the surface from solar wind and solar particle events, with the same atmosphere cited, including the oceans, absorb the energies of most of the HeV cosmic rays.
   
   It seems to me the effect of tidal forces upon Earth's internal magma-ocean has not been adequately explored.

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4. 4. kittles3069 06:36 PM 4/21/09

   This may be a silly question but is there an adjoining set of principles in place to protect the moon from an impact from a large object as I assume there are in place for earth from similar objects.

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5. 5. jcvillarreal 01:44 AM 4/22/09

   Sorry to be fussy, but "roughly three terawatts of gravitational energy is shed into pushing around the oceans annually" does not make any sense. Watts are not energy but power, and power annually is meaningless. Scientists are expected to get their measures right and this is the last place I would've thought I would see mistakes like these.
   The fact that the article is still interesting highlights how speculative it is.

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6. 6. DavidFMayerPhD 10:03 AM 4/22/09

   When the Moon formed, it was about one-sixth its present distance from the Earth. Since tidal forces vary as the third power of distance, that would mean that the tides were 216 times as strong as today. That would mean a constant tsunami speeding around the Earth with gigantic waves all of the time.

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7. 7. Joegale 01:45 AM 4/23/09

   There is nothing new here. Astrobiology books are full of the importance of the moon to the appearance survival and future of life on Earth. Comins wrote a complete book on the subject in 1993 (What if the moon didn't exist? Harper Collins, NY). There is and update in Gale's "Astrobiology of Earth" Oxford U. Press, 2009.

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8. 8. saihenjin 03:10 AM 4/23/09

   @toddhutch:
   
   We could always blame the universal scapegoat: Global warming.
   
   Global warming > Melted glaciers > more water in ocean > bigger waves.
   
   It is very concievable that the warming of the earth is outpacing the recession of the Moon.

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9. 9. Weir 04:01 AM 4/23/09

   Gravitational torque on the moon's slightly out of round shape is believed to hold it in autorotation. The same was believed to hold Mercury in autorotation about the sun until it was discovered that its rotation period is 58.65 days which is 2/3 (0.6667) of its revolution period of 87.97 days. A year is precisely half a day on Mercury since it exposes opposite faces to the sun on each revolution. It has no tilt to its axis and no seasons. One Venus day (117 Earth days) is 2/3 (0.665) of a Mercury day (175.94 Earth days). Now the rotation period of Venus is (243.17 Earth days) which is 2/3 (0.666) of an Earth Year (365.24 days). Moreover Venus is in retrograde rotation and every time it comes directly between the Earth and the sun it exposes the same face toward the Earth, even though exactly five Venus days have elapsed between such conjunctions. Mars is outside of Earth without direct resonances with other planets, however there are 666.8 Mars solar days of 24.6587 hours in a Mars year. It is an extraordinary coincidence that resonances such as these should arise with the terrestrial planets. There is no explanation for them in classical dynamical theory or in theories of planetary formation.
   
   Current theories are based on the assumption of a continuous universe and there is very strong evidence that space and time are discontinuous. For example Zenos arrow would never reach the target if space and time could be infinitely divisible. In 1888 the mathematician Richard Dedekind showed that continuous space is not consistent with irrational numbers. In a discontinuous universe atoms are synchronously projected as a succession of independent space frames linked by light that together define space and time. Universals interact with particulars is such a way that the same ratio of 2/3 crops up, just as it does in quark theory. There is a structural reason for this.
   
   Cyclical motions of suns, planets and galaxies introduce space frame skipping at their centers with respect to the peripheries. This necessarily implicates a small family of quantum forces to compensate and maintain a preponderance of synchronicity in the universe as a whole. For example these retard the rotation of the poles of the sun to 33 days while the equator rotates in 25 days, contrary to traditional physics, and the average is close to the revolution period of the moon about the Earth. The point here is that a discontinuous universe offers a new methodology to celestial dynamics, including earth science and the relation of the moon to the evolutionary process. You can find more in various articles at www.cosmic-mindreach.com, including one entitled Cosmology & System3. That ratio of 2/3 is structurally required by System 3.
   

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10. 10. bigzeeke in reply to jcvillarreal 09:12 PM 4/23/09

    Good catch. reminds me of some show I was watching the other day where a someone was recording how much energy could be "captured" using piezoelectric sidewalk and having people walk on it. After the experiment was over, she looked at her meter and said "1500 watts" (not the actual number, but you get the idea). My next thought was, "Watts? Don't you mean joules?"

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11. 11. Quinn the Eskimo 01:51 AM 4/26/09

    Maybe. But getting laid in high school would have been a tougher proposition. Or, is that preposition?

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12. 12. JimRinX 12:17 PM 4/28/09

    Though I understand the agruments for the Moon having formed via a proto-planetary collision - like the chemical and, more importantly, the isotopic simularities between Earth and Moon rocks (and vice versa, when compaired to those thought to be from Mars); I still don't buy it. Why couldn't the Moon have formed in the same general vicinity of the proto-stellar/planetary cloud; wouldn't that have also concentrated these specific isotopes in both bodies?
    Look at Tornados - the multiple kind (i've seen as many as six of them orbiting a central 'mother' tornado); why do Scientist have such a hard time with the Idea that proto-planetary 'whorls' could have orbited about one another, like Tornados do?
    What we need to settle this question, is a really big space based interferometer! I've written NASA to suggest that we create one by attaching Ion Drives to a half dozen telescopes, then launch them sequentially - in opposite directions! In a few years time, we could have an uber-interferometer - with a base-line of over a quarter lightyear!
    This would also allow to use the parallax technoque to make measurements of the distance of Galaxies beyond the 2 MLY limit proscribed by the maximum 'one earth orbit wide' base-line that constrained Hubbles efforts.
    But then I'm a True Revisionist; I don't believe in the Big Bang, the Idea that we're (still! Did Copernicus teach us nothing?) in "The Center of The Universe", or the Hubble Constant derived notion of the 'expanding universe' that these other concepts are all based on!!!
    Dang Me! I'm just like my Heroes - the Burbiches (I think I'm spelling their name wrong; you know, those persnickety 'anti-hubble constant' heretics at UCSD who wrote the Nucleosynthesis Paper with Fred Hoyle)!!!
    Thanks for opening my mind!

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13. 13. JimRinX in reply to ebianchi 12:37 PM 4/28/09

    ebianchi! It's also been clear to me that tidal forces play a role in Plate Techtonics, though I don't recall reading or being taught about this effect in Oceanography I or II; which I took in High School.
    Another oft overlooked effect, is that of the Corriolis Effect. I noticed, when I was about 11 (I was born in 65, the same year the Navy released the Ocen Floor Magnetographic Surveys that 'proved' Plate Techtonics), that the Subduction Trenchs along the Eastern Edges of Continents, are always deeper - often to the tune of 20,000 ft. - than those along the Western Edges of Continents. Wittness the South America Trench, at 17,000 ft.; or the Juan de Fuca, off Oregon, at 14,000 ft., versus the Marianas or Japan Trenchs at 35,000 ft +.
    This; or so I've postulated to several 'real' scientists (including Walter Alvarez); is the result of the Corriolis Force causing the eastern edges of said continents to 'rise up' over the plate that's being subducted - just like a ball being whirled about on the end of a string tries to fly off in a straight line!
    Since I intend to pursue a 'post-disability' PhD, I've been scolded for 'blowing' a potential Masters Thesis Subject; but I just can't help but put this kind of thing out there - the Internet is just too much FUN!
    Maybe they'll give me a MacArthur Grant!

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14. 14. Spockwise in reply to DavidFMayerPhD 04:01 AM 7/27/09

    I find it amusing how scientists get excited on the way tidal gravitational forces helped establish DNA, a massive code, coding for 20 bit information in 64 bits. And in additon how they get so excited about Europa because it has water and tides. If Life was so easily formulated, we should be able to synthesize it in a test tube-yet we cannot. Is there life on Europa? No. Is there a chance I am wrong? Sure. About a trillion trillionths of one percent chance.

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15. 15. Spockwise in reply to bigzeeke 04:06 AM 7/27/09

    A piezoelectric sidewalk would convert joules into watts.

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16. 16. hotblack 12:03 AM 10/20/09

    If we had two moons, would life have evolved quicker?
    
    Ehhh...

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17. 17. Garion 03:35 PM 4/19/13

    I don't think it could be 3 terra joules, that wouldn't be that much either. I wonder what they meant.

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