Does Water Really Have To Mean Life? 23
bigweenie asks: "With the frozen mud on the Moon's pole and the springlike seepage of water out of the lowest valley walls of Valles Marinaris, everyone seems to have a heightened urgency and hope to find life on the Red Planet (past or current). My question is, what is the link between water and life? What exactly is the biochemical, environmental, evolutionary, physiological and, God forbid, logical evidence that water is suggestive of life? All the Mars 'search for life' experts have spent the last 20 years proving life can exist anywhere under almost any conditions; no oxygen, no H2O, etc. I wish to know the real hard data and analyses that defines the relationship between water and life, and how optimistic should we be about life on Mars just because it is there in abundance." Assuming that other life exists, it is possibility of extra-terrestrial life similar to earth-life that provide a good deal of momentum to our collective interest. Since water is an absolute necessity for Earth based life, it is assumed that the presence of it elsewhere may mean the presence of lifeforms closer to what we know and understand.
Water & Life (Score:2)
First post?
Life on Mars (Score:1)
water and what it means (Score:1)
Think different (Score:3)
Life, Jim, but just as we know it... (Score:2)
So the chance of life, as we know it, goes hand in hand with the discovery of water on a planet. But more to the point, if there's water there, reasonably accessable, we can stay there indefinitely. If not, we'll have no permanent presence with our level of technology.
Water has unique properties (Score:1)
Think of a world where ice was denser than water. When the temperature was below 0 C, the ice would form, and sink. More ice would form, and sink. Eventually, your world would be solid ice.
Since ice is less dense than water, ice forms on top of the water, and the water below is someone insulated, making a sort of haven for life to exist.
Also, since water is a liquid, it makes a nice media for the transport of useful chemicals, and the removal of dangerous chemicals. An organism that is not suspended in water needs some sort of motivational method (legs, wings, rippling snail muscles) to get to food,and to mate. A waterborn critter can just float and hope for the best.
Someone else mentioned water being a solvent, which helps for little critters getting foodies and stuff.
George
Re:Water & Life (Score:1)
What a confusing way to talk about liquids!
Re:Think different (Score:1)
Water and life (Score:1)
But also note that life can lead to water. What do you need to make water? Free oxygen. And what's the best place to get free oxygen? Photosynthesis.
Clearly neither of this is set in stone. But Earth's two most obvious features are: 1) Life and 2) Water. That's probably not totally accidental.
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Re:Think different (Score:2)
There might very well be.
But the conditions on the moon, Mars et al are not completely different from Earth. Most if not all objects within our solar system were formed from the same glue. Therefore it is very logical to look for carbon based life forms that require water and thus to look for water.
Looking for water on the moon and Mars makes even more sense, because we are not just looking for Et but also for a possible habitat for ourselves.
Of course there migh be crystal based lifeform. But since we haven't encountered anything like it right here on Earth we wouldn't even know what to look for out there, would we?
Water is not life... (Score:3)
Fire represents life. That's why they snuff out the torches at the end of every episode when someone is booted from the island.
C'mon... we need to be watching more TV!!
Re:Alternative Forms of life (Score:2)
Hence natural selection suggests we won't find any
You would need to construct an environment with an adundance of (one of) the 'exotic' alternatives and a scarcity of the common one before you would expect to see life.
Water for Life (Score:4)
The thing about water is that it has a tremendous polarity associated with it. The oxygen atom tends to be electronegative, pulling the electrons away from the hydrogen atoms. Why is this important? The polarity of the molecule makes water an EXCELLENT solvent, meaning that things dissolve in it easily. This means that water can transport atoms between cells more efficiently.
Perhaps the most important effect of this polarity is the hydrophobic aspect of water. The polarity of the water molecules make it adhere to other water molecules when in the presence of non-polar molecules, such as organic chemicles (which is why oil and water do not mix). This is CRITICAL for the formation of cell membranes. Cell's have a layer of lipids on the outside that are held together by the hydrophobic pressure of water molecules.
Another benefit of water's polarity is that it floats when frozen. This keeps it from accumulating on an ocean floor where it can never melt, taking valuable things that are dissolved within the molecules with it. Since ice floats, it can theoretically melt and refreeze in a fairly constant pattern, assuming the planet is warm enough. If water didn't float, we would have never left the first ice age!
I would think that any highly polar molecule would work similarly to water, but very few exist. The biggest problem is that most of them are normally either gasseous or solid. Some are too complex to expect them to normally form in large enough quantities to support life. I'll grant that there is no way we could know everything about life and the universe, but it's a safe bet to guess that life will be involved with water.
For more information, go to Google and search for 'water biochemistry'. Enjoy.
Jupiter Life (Score:1)
Re:Alternative Forms of life (Score:2)
A wealthy eccentric who marches to the beat of a different drum. But you may call me "Noodle Noggin."
Re:water! (Score:2)
does life have to mean water? (Score:1)
the scifi fans out there i'm sure have heard of silicon based life. by that i mean organisims that are based on silicon rather than carbon. the chemical reactions that would keep such an organisim going might not need water in the way that caronic organisims do. there may be other elements that may be just as versital as silicon and carbon.
now, the meat: are we as a culture (and as a scintific community) ready to accept non-orgainic "life" as life? i'll leave the obvious AI questions to other posters.
Re:Life on Mars (Score:1)
Re:Alternative Forms of life (Score:1)
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Alternative Forms of life (Score:4)
-Silicon Based Life: This would be based upon silicon instead of carbon. We (and evrything else living on earth) are based on Carbon. Why? Because carbon just so happens to have a valence shell of 4 electrons meaning that it can accept 4 more electrons or donate 4 more electrons. This leads carbon being able to form all sorts of nifty compounds such as rings (benzene, sugars) and chains (hydrocarbons, starches, proteins). Silicon also has 4 valence electrons, so theoretically, it could form all sorts of nifty compounds, too. However, because of some quantum chemistry issues, silicon does not perform quite as well as carbon in forming chains and rings. Silicon is much better for forming nifty crystals as we all know
-Sulfur breating life: We breathe oxygen. Why? Because in order to release the energy stored in fats, sugars, and protiens, they must be oxidized (burned) and we use oxygen to do that. Even plants use oxygen (in small amounts) to metabolize the sugars they produce from photosynthesis. There are forms of life on Earth that do not use oxygen at all, these are chemotrophs (chemical eaters) who live in volcanic vents on the ocean floor and such. They tend to combine and split different chemicals to release the requisite energy for life. Some of them use Sulfur as an oxidizer instead of oxygen. Theoretically Carbon Monoxide, ozone, or even a halide (Chlorine, florine, bromine) could be used.
-Ammonia bathed life: Water is incredibly important for us, because as mentioned earlier, it is an excellent solvent for all the chemical reactions that make up life to occur. Also as mentioned earlier, there are not too many simple molecules that are liquid and polarized at decent temperatures. Water is one of them. Ammonia (NH3) is another. However, ammonia is slightly less polarized than H20 and therefore it doen't quite work as well as water. Other things like like hydrochloric acid might work, but it is a bit strong of a solvent
As for other things (energy-based life, etc.), although we cerainly do not know enough to completely rule out this type of life, chances are that any based on vastly different chemistry from our own (or NOT chemistry) would find it difficult to communicate with us.
By the way, I am a physics student, so this is a small step down for me (just kidding
A wealthy eccentric who marches to the beat of a different drum. But you may call me "Noodle Noggin."
Re:Think different (Score:1)
Re:Think differently (Score:1)
Until such time as mankind actually makes contact with a form of life that functions along different principles to our own Earthling bodies, what do you look for?
Re:Water for Life (Score:1)
I mean, on Star Trek all they ever do is land on Class M planets that are perfect for human, and other, life. What about planets where the atmospheric pressure, or temperature, is high or low enough to maintain these other possible molecules in an ideal life-giving state?
It wouldn't be much fun trying to colonise one of these places though