But you like to dish it out, don't you? :shrug:
Did I threaten anyone?
But you like to dish it out, don't you? :shrug:
Then don't make comments like this:I don't think I have time to right[sic] any lengthy post at the moment, but I will later provided the thread is not locked.
which suggest to most native anglophones that you're working on a post as we speak.lol, because I have covered some points and other points are very weak, they mere shift the problem elsewhere.
I will go through it in more detail shortly.
There was no bullying involved, only a request for evidence to support your dismissive oneliners, and the suggestion that failure to do so might result in the closure of the thread. You have claimed that you do not have the time for an extensive refutation at this moment, and I am willing to give you the benefit of the doubt in this regard.If Trippy wants to lock the thread than that's his look out, I am not going to be bullied into responding in that manner. It is just not on.
I did not say that I didn't know - I said there were certain things that we may never know, and that one of them was whether or not alternative forms of photosynthesis had evolved. They may have, there could have been a myriad of them, however, chlorophyll based photosynthesis may have simply been the most successful.Trippy's basically said he didn't know and listed a load of speculative theories which did not seem overly convincing.
Just like I feel a bit like I'm wasting my time now, for example, because you haven't taken the time to fully realize the implications of my post. But that's fine, I paid an absurd amount of money to train in Chemistry, and cross train in Geology and physics, and given the tone of some of your posts, I'd wager you have yet to make that decision.I am not going to go through all the speculative theories, not until he can at least put forward his best one or two with a bit more substance to them. I would feel like I was wasting my time otherwise because obviously most of them by definition are wrong is one of them is right.
To elaborate further, the evidence we have available to us suggests that the early composition of the Earths atmosphere resembled that of Saturns's moon, Titan. Titan's atmosphere has a distinct ruddy tinge to it, due to some complex atmospheric chemistry, caused by what is in essence, a photochemical smog. For it to acquire a ruddy tinge to it, it must be preferentialy absorbing the Blue-green end of the spectrum. If the Earth's early atmosphere resembled that of Titan, then it stands to reason the optical properties of the early atmosphere would have resembled that of Titan. In otherwords, it is likely that a similar photochemical smog existed as a layer when the earth's atmosphere reached some critical density, that reddened the light reaching the surface, by preferentialy absorbing the blue-green end of the spectrum. The implication of this observation is that if early Autotrops were evolving towards the most efficient method of collecting available light for photosynthesis, then they're going to converge on Molecules that absorb efficiently at the red end of the spectrum, because that's where the highest flux of light is.Perhaps the different atmospheric chemistry of the early earth (at the time Autotrophs evolved) scattered and absorbed light differently from what is observed now - resulting in red light being the most widely available light source at ground level.
There's two components to this statementPerhaps absorbing only low energy radiation reduced early mortality - the early atmosphere may have been a lot more transparent to Higher energy frequencies, which do more damage (this is related to why colours fade with time). This has the advantage of explaining why plants incorporate the auxillary pigments they do - they all absorb strongly in the UV/Blue end of the spectrum, some of them have anti-oxidant properties, and none absorb in the green portion. This has the net effect of protecting Chlorophyl from the damaging high energy radiation (Chlorohyll also absorbs in the Blue/UV part of the spectrum), as well as protecting it (and the rest of the cell) from the effects of damage that is done.
Do I need to elaborate on this any further?Q: Why aren't the pigments that plants use black?
A: Because pigments that absorb across the whole electromagnetic spectrum degrade very quickly (related to the penultimate point above).
This is going to be good, well it would be if he actually were to say anthing about why plants are green but alas, I fear he won't.
I don't think I have time to right any lengthy post at the moment,
I don't think I have time to right any lengthy post at the moment, but I will later
From wikipedia:
The biologist John Berman has offered the opinion that evolution is not an engineering process, and so it is often subject to various limitations that an engineer or other designer is not. Even if black leaves were better, evolution's limitations can prevent species from climbing to the absolute highest peak on the fitness landscape. Berman wrote that achieving pigments that work better than chlorophyll could be very difficult. In fact, all higher plants (embryophytes) are believed to have evolved from a common ancestor that is a sort of green algae - with the idea being that chlorophyll has evolved only once.
Shil DasSarma, a microbial geneticist at the University of Maryland, has pointed out that species of archae do use another light-absorbing molecule, retinal, to extract power from the green spectrum. He described the view of some scientists that such green-light-absorbing archae once dominated the earth environment. This could have left open a "niche" for green organisms which would absorb the other wavelengths of sunlight. This is just a possibility, and Berman wrote that scientists are still not convinced of any one explanation.
There is no engineering problem in absorbing the whole of the spectrum.
Our eyes manage it as does a black man's skins.
There is no engineering problem in absorbing the whole of the spectrum.
Our eyes manage it as does a black man's skins.
There is no engineering problem in absorbing the whole of the spectrum.
Our eyes manage it as does a black man's skins.
Our eyes do not absorb the whole spectrum!
Unless you mean the 'visible part' of the spectrum which is so named because that's all we can see. Circular.
Well clearly our eyes can make good use of the full colour spectrum without a problem so it is very hard to how the 'evolution is not an engineering process' argument and evolution had not problem engineering a solution to the different wavelengths of of visible light in particular are so I find it hard to see how it fell so far short in another area.
Well clearly our eyes can make good use of the full colour spectrum without a problem so it is very hard to how the 'evolution is not an engineering process' argument and evolution had not problem engineering a solution to the different wavelengths of of visible light in particular are so I find it hard to see how it fell so far short in another area.
There is no engineering problem in absorbing the whole of the spectrum.
Our eyes manage it as does a black man's skins.
You are asking questions that no one can answer in 2011. It's only been about a century and a half since evolution was discovered, about one century since we've had any idea of how it works, and about half a century since we've been able to thoroughly analyze DNA. Before that, the only evidence we had for the development of lifeforms was fossils, and the further back we go into prehistory, the fewer fossils there are because A) the forces of nature work against their preservation and B) there were fewer kinds of hard tissue like bones that could be fossilized, so we're stuck with the occasional print of a leaf or other soft tissue in a sedimentary rock.You need to explain why plants use chlorophyll as opposed to any other number of chemicals to absorb light energy before your answer carries any weight. . . .It is not an answer as it fail to explain why chlorophyll is used to extract energy as opposed to any number of chemicals. . . . So why were they highly successful?
But the "engineering" of evolution is not directed. Nobody is sitting there with a clipboard saying, "Based upon what I've seen so far, I think I'll try this little mutation next." They all occur at random. There are lots of really good ideas that do not occur in nature, and there are lots of really bad ideas that have survived.There is no engineering problem in absorbing the whole of the spectrum. Our eyes manage it as does a black man's skins.
I agree that "engineering" may have been a poor choice of words in this discussion since it's perpetually on the verge of turning into a flame war over the use of language. Every definition of the verb "to engineer" revolves around the words designing, planning, managing, contriving, etc. In other words, intelligent direction. Nonetheless, when the forces of nature, working at random over billions of years, result in something rather complicated that superficially resembles engineering, it's reasonable to use the word "engineering" as a metaphor, so long as no one will take it the wrong way.And if only plants were engineered .....
Your remarks give a very strong impression that you do not believe that what you see around you arose at random. You indicate through your posts that you believe that during the development of lifeforms on this planet, a systematic procedure was used. In particular, you assume that every possible pigment was tried as an energy receptor, and all were rejected except chlorophyll, and all processes of energy conversion were rejected except photosynthesis.What make you think it is creationist?
It's the center of the solar spectrum. An animal with virtually no night vision, who lives by his wits and therefore must be highly visually oriented, so much so that he has binocular vision rather than the wider field of view that other herbivores use to avoid predators, would be better served by a sense of vision that receives the maximum amount of light, giving him the best possible view of his surroundings.It's the color that's most easy on our eyes. (This was the answer that made Christopher Hitchens into an atheist, when he heard it from his school teacher).
And if only plants were engineered .....
If man had engineered them we would probably have starved to death a very long time ago, :roflmao:
Originally Posted by esbo
I don't think I have time to right any lengthy post at the moment,
If man had engineered them we would probably have starved to death a very long time ago,