Mars Had Surface Water for Eons 499
LukePieStalker writes "Far from being a one-time event, it now appears that surface water
flowed on Mars for eons. Nasa has announced that, after descending
down further into the Endurance crater, the Opportunity rover has found a 'razorback'. It is believed that this was formed by 'fracture fill' from the minerals in percolating water. Since this feature extends through several geologic layers, it argues for a long period of wetness near the surface. This would seem to substantially increase the chance that life once existed on the red planet."
How long is an eon? (Score:5, Insightful)
The Archaeon Eon lasted over 2.1 billion years.
or is it:
An eon is the period of time it takes for a universe to come into being and then disintegrate again.
Re:How long is an eon? (Score:2)
"That is not dead which does eternal lie,
and with strange eons even death may die."
Re:How long is an eon? (Score:5, Informative)
Re:How long is an eon? (Score:5, Insightful)
Now, we can tell *relative* dates fairly easily with these rovers, but absolute dates are going to be a problem just using the rovers. There are some cases where you don't need radioisotopic dating, but I doubt they'll prove very useful here.
Re:How long is an eon? (Score:3, Informative)
Only dating methods such as radiocarbon dating (which we couldn't even begin dreaming of doing on Mars yet without a lot more study) are calibrated, and even then, it's a pretty minimal calibration factor (which on Earth we determine through dendrochronology and sometimes ice cores).
Most radioisotope dating methods not only don't have calibration, but have built-in error checking, such as isochron and concordia-discordia methods.
Re:How long is an eon? (Score:4, Informative)
Re:How long is an eon? (Score:4, Informative)
The only time when the calibration factors become large are concerning objects from the 1950s onwards; nuclear testing really screwed up atmospheric carbon ratios, and introduced a geographical component. However, it gave a new benefit: we can now better track rates of carbon movement on a global scale. Also, there are the cases when carbon dating is not supposed to be used (which Creationists often use, of course); for example, ocean-dwelling organisms (which ingest recycled conveyor carbon) and organisms that spent their lives within a few hundred feet of a volcanic vent (which get deep earth carbon in addition to atmospheric carbon). This is known as the "resevoir effect".
Eon = Division (Score:4, Informative)
Re:Eon = Division (Score:2)
Well what constitutes an era? Who's to say that there were not subdevided eras when Mars had water? From what I see, your example is akin to saying that there has only been one eon on Earth: an era without life and an era with life.
Besides, I tend to give a little more credence to the dictionary definition posted above.
Re:How long is an eon? (Score:5, Funny)
Re:How long is an eon? (Score:4, Funny)
Ask Universe Man. He's got a watch with minute hand, millenium hand, and an eon hand.
-S
Mars (Score:4, Interesting)
Re:Mars (Score:3, Interesting)
Tin Foil Hat (Score:2)
Re:Tin Foil Hat (Score:2)
Re:Mars (Score:5, Informative)
GEX (Gas EXchange experiment): Looked at gas level changes in martian soil vs. a control which it sterilized first.
LR (Labeled Release experiment): Looked for uptake of a radioactive liquid by gas presence, again vs. a control which it sterilized first
PR (Pyrolytic Release experiment): Like the LR, but in reverse; cooked the samples afterwards to see if they uptook radioactively tagged CO2.
GCMR (Gas Chromatograph - Mass spectRometer experiment): Heated soil samples and did a spectral analysis of them.
First, GCMR's results: Found an unexpected amount of ice, but found surprisingly *little* organics, leading scientists to conclude that some process was *destroying* organics on Mars.
For the others, the following would have been expected from each if there was life:
GEX, sample: O2 or CO2 released
GEX, control: No release
LR, sample: Labelled gas emitted
LR, control: No release
PR, sample: Carbon detected
PR, control: None
If there was no life, both samples and controls were expected to be the same. The real results?
GEX, sample: O2 released
GEX, control: O2 released
LR, sample: Labelled gas emitted
LR, control: No release
PR, sample: Carbon detected
PR, control: Carbon detected
In short, it was confusing, but was believed to be related to abiotic processes.
Re:Mars (Score:5, Informative)
As for fossils or traces of life... who knows? All we can say is that Spirit and Opportunity aren't going to be finding it unless it's macroscopic. They can only dig centimeters deep, and don't have the sort of magnification needed to see microscopic organisms.
Re:Mars (Score:5, Interesting)
Now, that leaves a Heckofalot of water. (A Heckofalot is an official measurement, look it up. It's just short of a Hellofalot) Anyway, that water could be underground...perhaps in shallow aquifers, perhaps quite deep. It's hard to say, we just don't have the tools yet. Then there's the portion that would have been lost. Martian gravity is lower than Earth's, so it couldn't hold as thick an atmosphere as we do. So some water might have just evaporated off the entire planet. Also the Martian magnetic field is quite weak -- perhaps it was stronger before (there is some evidence for that) but when it weakened, it would have allowed solar wind and radiation to rip away the atmosphere and carry water vapor with it.
In short (ha) If we keep digging, we may find none, a little, some or a lot of water.
Re:Mars (Score:3, Funny)
Areological? Mars has areolae? I thought that was Venus.
-PM
Fantastic! (Score:2, Funny)
Water common? (Score:5, Interesting)
Re:Water common? (Score:5, Informative)
Not only is water uncommon, the liquid phase is uncommon. Also, the reason it's so important is because it is less dense in the solid phase than the liquid phase, which allows it to freeze on top instead of on bottom, which in turn allows organisms to sustain life even when the body of water begins to freeze.
Re:Water common? (Score:5, Interesting)
Re:Water common? (Score:5, Interesting)
1. Life can't exist in high-pressure environments.
Higher pressure environments have much wider ranges for the liquid phase of ammonia and methane.
2. Life cannot develop on planets with freeze/thaw cycles.
I see no reason why this should be the case. In fact, with methane and ammonia, you don't have to worry about cells being ruptured by freezing, so long as they don't have stiff cell walls.
Further, a "cell" is not the first life; you first have molecules that tend to catalyze the production of "similar", if not exact, molecules. The processess regionally take off. Groups of molecules that more accurately catalyze the production of their member molecules form "hypercycles" - regions which, while not distinct from each other, catalyze their own development. As these hypercycles begin to become distinct and compete with each other, they end up being walled off into "Ur-cells/Protocells" (depending on your terminology).
At least, that's one theory I've seen presented, which seems reasonable.
3. It is not hotter near the bottom.
There is no particular reason to expect this. In fact, in many environments in the universe where we expect there to be liquid, this is exactly what we expect; geothermal heating, tidal heating, precipitative convection heating, etc.
4. There are no dissolved molecules that can act as "antifreeze"
Pure solutions of methane or ammonia are unlikely.
5. Life requires a liquid solvent to develop.
While this is probably true, we don't know this for sure yet.
Re:Water common? (Score:3, Informative)
At 1 atm pressure, ammonia melts at -108F, and boils at -28F (from GPSA handbook). So it has an 80F range of liquidity, whereas water has 212F. However, like you said, ammonia solid is more dense than the liquid. Water is one of only a very few materials (gallium is another, I can't remember any others but I bet there are some) that are more dense as a liquid.
By comparison, methane melts at -2
Re:Water common? (Score:3, Interesting)
Re:Water common? (Score:4, Interesting)
By a hell of a lot, actually. Compare its liquid range with methane, which has essentially the same molecular weight (CH4 = 16, NH3=17, H2O=18).
NH3 is also usefully polar in that it allows a good many salts, acids and bases to disolve in it, again like H2O. Methane doesn't.
The 2 Hydrogens in a water molecule don't line up on the opposite sides with the oxygen atom in the middle, but form a rather pronounced bend.
Correct.
By contrast the three hydrogens in Ammonia don't leave the Nitrogen sticking out by itself. They may not maintain perfect 120 degree angles in a flat plane around the N's "equator" under all conditions, but they are pretty close to it.
Incorrect. The NH3 molecule is substantially pyramidal. The H-N-H angle is close to 107 degrees [avogadro.co.uk]It's the flipping between the pyramidal configurations that's the basis for the ammonia maser. (Actually, it isn't, really, but unless you want a digression into molecular quantum mechanics that explanation is good enough and will have to do.)
Now as regards life forms, what applies to a relatively pure liquid is more than usually not something we can extrapolate too much to a mixture, so I wouldn't read too much into it. Our one example of liquid oceans is not exactly pure H2O, after all, and showing that there are some reasons life is less likely in close to pure Methane or Ammonia doesn't limit a lot of other possibilities.
Good! It is extremely unlikely that an ocean would be pure ammonia, any more than our oceans are pure water. It's rather likely, I suggest, that a predominantly ammonia ocean would contain a large amount of disolved water, which would raise the liquid range and make the chemistry both different and probably more interesting from a biochemical point of view.
Paul
Re:Water common? (Score:5, Informative)
That should have read:
"Water is not uncommon; only the liquid phase is."
Our solar system is jam packed full of ice. Heck, Uranus and Neptune are best described as "Ice Giants" instead of "Gas Giants", due to their expected ice cores. Ice dominates the moons in the saturnian system, the kupier belt and oort clouds are composed mostly of ice, etc, etc. In fact, it is even theorized that Earth got its water from comets.
Re:Water common? (Score:5, Informative)
H2O common, liquid water (probably) not (Score:2)
Water is likely very common. Hydrogen in the most common element in the universe, and Oxygen is a pretty common element as well.
The liquid phase of water appears to be fairly uncommon, in our solar system and likely everywhere.
Re:Water common? (Score:5, Informative)
At least, that's how I understand it.
Re:Water common? (Score:5, Interesting)
Re:Water common? (Score:5, Insightful)
Probably yes. Hydrogen and oxygen are among the most abundant elements in the universe.
The unusual thing about Earth is that the environment is at the triple point of water. Water is able to exist as a gas, liquid, and solid all together in the same environment. This is only possible in a narrow range of temperatures and pressures. So water is probably very common. Liquid water, OTOH, is not.
As for why water is important for life, see one of my older comments [slashdot.org].
Re:Water common? (Score:2)
Re:Water common? (Score:3, Interesting)
Re:Water common? (Score:3, Interesting)
Popular imagination doesn't think of alien lifeforms as anything other than carbon-based (see almost any popular SF TV show in the past 40 years) or cyborgs (the Borg in Star Trek, of course). The best example of a silicon-based lifeform in popular fiction is the xenomorph (the aliens) from the Alien and, frankly, the fictional b
Re:Water common? (Score:4, Informative)
I think the main point here is that we know that life can grow where there is water, and we have some pretty good ideas what to look for. For instance, we are looking for proof of water on Mars, and then we know to look where the water USED to be in order to find where life MAY have been.
When it comes to life that isn't carbon based and/or came from water, we simply don't know what to look for. We could be looking right at it and not see it because we have no point of reference, no experience, no tell tale signs that say "life was/is here". That doesn't mean life doesn't exist without water (or without being carbon based). It just means we would be unlikely to understand what we found with the limited tools on a probe unless the think came up and started waving "hi" to us.
Considering that water is relatively common in the areas of the solar system that we would THINK there could be life (venus thru mars + moons of outer planets), the smartest investment we can make is to look for the kind of life we know can exist, where we think it can exist. This means where liquid water is or was.
In other news (Score:3, Funny)
Why is it surprising? (Score:4, Insightful)
Re:Why is it surprising? (Score:5, Interesting)
I think the common dogma is that a catastrophic event happened some billion years ago where Mars lost its magnetic field. The loss caused the upper atmosphere to be evaporated from solar radiation that was then allowed to pass into the lower levels.
One might surmise that since the Earth has a molten fluid core and routinely undergoes magnetic reversal that Mars once had the same type of core, but it may have cooled and solidified, rendering the field inoperable.
Whatever it's worth, I think that the ammonia presence is far more interesting than the traces of water.
Re:Why is it surprising? (Score:2)
Re:Why is it surprising? (Score:5, Interesting)
It probably did (Score:2)
Just because we don't see it now doesn't mean it was short lived. Remember that dinosaurs lasted much much longer than humans have so far.
On 20th July too. (Score:3, Funny)
Chances of Life (Score:3, Interesting)
In terms of science, we know it's possible, it's not an issue of "can" it happen it's an issue of "where" did it happen again. We also know that if there was life it's doubtful it went beyond the microscopic range as not only is there no evidence of that, but life existed on this planet for eons w/o going past the microscopic range. It's arguable that the natural result of life is not always complexity and size.
It seems to me the only reason people are obessed with finding life on Mars, or anywhere else for that matter, is to fill some urge that if they do, to less scientific minded (read: religious) people will be proven wrong.
Re:Chances of Life (Score:5, Interesting)
What is life? Really? You will find many people with slightly different definitions just on life on Earth.
What about other planets? What if life in mars, the DNA strand twists the other way? Or what if there is no DNA. If the DNA is the same, then, maybe life in Mars and Earth have a common origin. If not, what common things do we see? What is the minimum requirement for life? And these are just a few questions I can speculate on. I think we can lear about ourselves, and the fundamentals of life on Earth by finding life somewhere else.
And that is all without any religious (or anti-religious) agenda.
Re:Chances of Life (Score:2, Interesting)
I think that the interest lies in the possibilities- if this solar system had two (minimum) planets with life then #1 earth is not such a freak a
Re:Chances of Life (Score:2, Insightful)
Finding evidence of life on Mars would be extremely helpful/interesting in begining to answer this question. I'd say that is the main reason people are so "obsessed" with finding life on Mars.
Re:Chances of Life (Score:4, Insightful)
One friend of mine, a pastor at a non-denomination church, argues that the Creation story is not a literal history; science can never remove God completely, no matter the discoveries.
Really, the obsession with life on Mars (or other places) has a lot of sources. As we learn more about the Universe, human beings don't want to be alone in it. We want to try and answer questions that may not have answers here on Earth, including the origins of life and the nature of evolution. Wouldn't you like to be there to witness the natural beginning or end of life on an entire planet?
Re: Chances of Life (Score:2)
> I know scientists that believe such a discovery would discredit religious beliefs... but many religious folks I know have absolutely no problem with life on other planets
Religion is compatible with any discovery - iff you want it to be.
Re:Chances of Life (Score:3, Interesting)
I'm a literal (6000-year) creationist, and I fail to see how the Creation rules out life on other planets. It just isn't in the original text, although I suppose a lot of people (both religious and non-religious) have tried to read it into it.
Re:Chances of Life (Score:3, Insightful)
Physical science operates from the paradigm that there is no God (or that he is completely immaterial to the formation and operation of creation - a distinction without a difference). How then can it ever expect to explain God one way or the other, and how can religion be criticized for the failure of science in this regard?
Sheesh. People act like science is the ultimate finder of all truth. Science is simply a tool that tries t
Re:Chances of Life (Score:3, Insightful)
But if you find it, you also get to ask how it works. Imagine what finding life, especially if it turned out to be unrelated to Earth life, would do for biochemistry. Life implemented without the usual DNA/RNA, or implemented with different encodings or whatever, would be pretty neat to study. Probably all sorts of applications, too.
Re:Chances of Life (Score:3, Insightful)
Re:Chances of Life (Score:5, Insightful)
I do. But then I'm a scientist. I want to know stuff. I want to know as much as possible, and have other people in other fields find out as much as possible, because you never know what good things that can improve the quality of life can come of it. And actually, that last part is justification so that society will continue funding my research. Mostly, I just want to know stuff. It's why I became a scientist.
Also: because that's what humans do. They explore. They want to know their environment. I could probably come up with a decent hypothesis regarding cognitive dissonance driving humans' desire to decrease the number of unknowns in their environment in order to maximize their comfort level and probability of survival. But then that's the other thing I do as a scientist. Come up with hypotheses. Fact is, for whatever reason, or maybe no reason other than evolutionarily determined hard wiring in the brain, it's what people do.
Anyone not interested is free to focus their attention elsewhere. And dollars to donuts they themselves will have something like this that drives them that other people may not understand.
I'm sure you're right, that some people would use such a discovery as proof for and/or against some religious viewpoint. Hell, they did it with rock and roll music, and pretty much anything you can think of that they can use as leverage against each other in their power games. Good for them. Everyone needs a hobby, it gives them purpose in life, and it keeps them out of my hair.
Re:Chances of Life (Score:3, Interesting)
Reminds me of a fortune I saw once. "As an adolescent I aspired to lasting fame, I craved factual certainty, and I thirsted for a meaningful vision of human life - so I became a scientist. This is like becoming an archbishop so you can meet girls."
It rings so true for a grad student in the doldrums of the 4th year.....
But I still just want to know. It's a curse. If my PI would let me pursue all the tangents I want to pursue, I'd be here for
Re:Chances of Life (Score:3, Insightful)
Part of the fascination is that we don't know if it's possible. We think that it might be, and the odds seem to be in favor of it, but we won't know for sure until we find some evidence of it. That's how science works.
It seems to me the only reason people are obessed with finding life on Mars, or anywhere else for that matter, is to fill some urge that if they do, to less scie
Re:Chances of Life (Score:2, Insightful)
We do know it's possible, evidence is right in front of you. Earth. Earth isn't some magical existence according to science, it's just a planet. If it can occur then it will occur, and given enough time it must occur.
Re:Chances of Life (Score:3, Funny)
The key concept you're missing here is meaningful or statistically significant.
Re:Chances of Life (Score:2)
What that means is that, right now, we have no empirical evidence that life exists anywhere but on earth. If we can find life on another planet or non-earth object, then there stands a good chance that life is fairly ubiquitous throughout the cosmos (at least in terms of being homogenously dispersed through all of the environments that can support it).
That, of course, assumes that
Re:Chances of Life (Score:5, Interesting)
I've never understood the thinking that if life was found on another planet, all religious people's (they mean "Judeo-Christian and maybe Islamic", not "religious") heads would explode, and God Himself would vanish in a puff of logic. What's to stop God from creating life on another planet?
The idea that Earth was the center of the universe originated with some Greek philosophers (Aristotle and Ptolemy were among these), and the idea was actually quite controversial even then. The only reason why it became canonical (plenty of Christian scientists, including Johannes Kepler, argued against it) was that it was one of the few things left from the ruin of the ancient world by the time monastic scribes got hold of it, and the ancients were so impressive that it was hard to imagine anyone one-upping them at the time. Such a theory is never mentioned explicitly in the Bible, and it's pretty doubtful that any religious person would care about its collapse. Unless there are still Christians who believe that the orbit of any planet can be described by a perfect circle...
Re:Chances of Life (Score:3, Informative)
planet arakis, precipitation none (Score:2, Insightful)
Razorbacks... (Score:2, Funny)
Yep, I guess that would be proof of water.
Re:Razorbacks... (Score:2)
Mission Follow-up (Score:2)
In the now "urgent" perogative of human visitation of Mars, an interim step sending larger rovers capable of sub-surface graphing would aid the future landings in prospective dig sites.
Plus it gives Val Kilmer time to build his robotic dog.
Still waiting for fossilized remains. (Score:5, Insightful)
I never doubted there was water on mars.. (Score:2, Insightful)
How about the following image? (Score:2, Funny)
Re:How about the following image? (Score:2)
All I see are lumps, shadows, and ridges. What am I missing?
Re:How about the following image? (Score:2)
I know nothing about geology.... what am I looking at and why does it improve the odds of like on earth??
Re:How about the following image? (Score:2)
Re:How about the following image? (Score:2, Funny)
What? That fact that this spot on Mars appears to have a tasty graham cracker crust?
Re:How about the following image? (Score:2)
Re:How about the following image? (Score:2)
Another possibility (Score:4, Interesting)
Can't increase chances retroactively (Score:3, Insightful)
No. Life did or did not exist on Mars, but either way, its chances are over.
What these results might increase, if true, is the chance of our discovering evidence that life has existed on Mars.
Re:Can't increase chances retroactively (Score:5, Insightful)
Re:Can't increase chances retroactively (Score:5, Insightful)
This remindes me of those exercises that I did in grade school where I had to write specific instructions on how to make a peanut butter and jelly sandwich. The teacher would then make a mockery of the instructions by making a mess with the ingrediants.
Few people here are lawyers so few statements are going to be hole free. Most statements here and elsewhere in the world require a little common sense to interpret correctly.
Being excessively anal accomplishes nothing.
too bad Mars didn't have more mass (Score:3, Interesting)
Of course, if it were, either we would have gone there and slaughtered the natives already, or vice versa.
Instead, Mars and Venus serve as object lessons on the narrow window [google.com] of planetary viability.Not mass, magnetosphere (Score:5, Informative)
Re:too bad Mars didn't have more mass (Score:2)
Mars would be in more, but couldnt sustain the thick atmosphere of venus. It might be a greenhouse planet, but with a much thinner atmosphere I doubt it.
Venus would be able to hold more of an atmosphere than Mars does, so at Mars orbit it would have a thicker atmosphere and less extreme temperatures. Sure, colder than earth, but not Mars cold.
Its possible.
Re:too bad Mars didn't have more mass (Score:2)
deeper (Score:2, Funny)
article mirror (Score:2, Informative)
Surface water on Mars existed across a significant span of time, not just for years but eons, suggest new findings made by NASA's Mars rover Opportunity.
Within a few weeks of its landing on Mars in January 2004, Opportunity revealed what was uppermost on the twin rovers' agenda: that bodies of liquid water once existed on the surface of Mars. But the evidence proved what could have been only a solitary event - a single wet episode.
The new discovery, reported by NASA's Jet Propu
My guesses about water and life on Mars. (Score:5, Interesting)
In my opinion, here's what happened on Mars:
1. In the distant past when there was flowing water on the plant, life did evolve, with the likely chance that we had fairly advanced plants lifeforms and lower level animal lifeforms.
2. Alas, when the atmosphere thinned, the surface water evaporated, essentially killing all lifeforms except for (at best) forms of bacteria and possibly algae that could survive in today's extremely severe Mars climate, living off the water trapped under the surface of the planet.
3. I think when the Mars Science Laboratory lander/rover reachers Mars in 2009, it will find that life does exist on the planet today in the form of bacteria or something related to it.
Mars may tilt sideways for more extreme climate (Score:5, Informative)
Mars lacks a significant moon. Therefore people speculate that it could tilt all the way over on its side sometimes and have extreme seasons. Maybe even extreme enough to melt the carbon and water ices at the poles and permafrost.
Dynosaur skeletons and oil (Score:4, Interesting)
Existance of Life (Score:3, Interesting)
Slashdot Categories and Mars... (Score:3, Insightful)
NewScientist Scoop? (Score:3, Interesting)
No tinfoil required, really, just an observation.
Life IN Mars (Score:5, Interesting)
Every planet probably has microscopic, non-oxygen-using life INSIDE it. (In fact, it may even be NON-microscopic.) Just because we don't find it lying about the surface does not mean that it did not exist.
When we talk about 'life on earth' it's assumed that we are talking about life on the *surface* of Earth. But that surface is *7 miles thick* [depth of ocean] and the radius of Earth is *4000* miles. And we know non-oxygen-using extremophiles and Archaea exist *here*. Why not there?
Re:Now if only we could find intelligent life... (Score:2)
Re:Now if only we could find intelligent life... (Score:2)
Re:Now if only we could find intelligent life... (Score:2, Funny)
Re:Now if only we could find intelligent life... (Score:2)
(and yes, I'm aware it's all a self defeating argument)
Re:I wonder if the scientist who first noticed thi (Score:2)
Re:Where are the zealots lately? (Score:2)
Re:Where are the zealots lately? (Score:3, Insightful)
Science has proven, beyond a reasonable doubt, a number of things that directly conflict with Biblical teachings. For instance, we know that the Earth is much older than the chronology in the Bible allows for. We know that man evolved from apelike ancestors. We know that Noah's flood did not occur.
And yet I know a number of people who will swear, based on no evidence whatsoever, that all of the w
Re:hmm (Score:3, Informative)
Lately I've been having numerous page rendering errors, and I haven't changed my browser, so I'm basically assuming that they fucked up some part of slashcode and are casually working on repairing it.