| | I don't know if anyone else realizes this or not but you are not going to get anywhere with Claude in the discussion about transitional fossils. Claude will never admit to a transitional fossil. Any transitional fossil proposed he will say belongs to either one species or the other.
If you’re speaking of Archaeopteryx, it wasn’t I who said that it was not a transitional fossil, but a noted ornithologist, Alan Feduccia.
This is usually the case. Specialists in their field, even when declaring their allegiance to Darwinism, are often much more skeptical of the easy explanations offered up by the non-specialist evolutionist. It was horse experts, not the race-track touts on sites like “Panda’s Thumb”, who painfully admitted that the “transitional fossils” between Eohippus and Equus were not transitional after all, but distinct species unto themselves. The same has happened with hominid fossils, giraffe fossils, and is happening now with whale fossils.
On closer study, the supposed “transitional forms” that are supposed to represent branches from an imagined central trunk of the “tree of life” begin to look progressively more distinct rather than transitional. This changes the imagined “tree of life” into something that would look more like a bush than a tree; i.e., lots of twigs splaying out radially from a central origin, but no TRUNK; no “common ancestor” from which the branches would normally emanate. In fact, in systematics, they even use the term “bushy” or “bushiness” to describe such hierarchies.
Finally, what I would like to see is evidence whose existence flows as a deduction from the theory. The theory predicts slow gradual changes. Each change presumably existed, so each change should have left fossilized evidence of itself. The panoply of slowly changing fossils, leading from one form to another doesn’t exist. What the fossil record shows is precisely what Stephen Jay Gould said: it shows mainly stasis punctuated by short bursts of rapid change. He called it “punctuated equilibrium”; I call it “non Darwinist.” Though he maintained his allegiance to Darwinism, Gould wasn’t very convinved of the truth of Darwinism by the fossil evidence. Neither am I.
(In fact Claude, I challenge you to tell me what characteristics you would accept for a transitional fossil between dinosaurs and birds.) To phrase this in the Randian Objectivist type terminology: think of Claude as a realist in terms of Universals.
Lots and lots of gradually morphing fossils, leading from dinosaurs to birds. However, a famous ornithologist and Darwinist, Alan Feduccia, claims that dinosaurs have nothing to do with birds. Period. The so-called “birdlike dinosaurs” that were supposed to be the distant ancestors of Archaeopteryx turn out to be millions of years younger. Additionally, according to him, there are no fossil precursors to hawks. There are also no fossil precursors to bats. They simply appear in the fossil record – complete with sophisticated sonar – out of nowhere.
Two additional quick comments regarding post 84.
The first couple of paragraphs seem to be discussing nothing more than the change in allele frequency over time and, in somewhat broader terms, this can mean macro-evolution.
The first couple of paragraphs of post 84 have to do with Darwin’s unwarranted assumption that if breeders can select certain traits, ergo, nature can too. My reply was that breeders are purposeful and nature is not. Goodbye unwarranted assumption.
I should add that if even purposive human agents, purposely selecting certain desirable traits from certain species, have been unable to create a new species, then it certainly does NOT follow that non-purposive nature ought to be able to do so if only we allow it enough time. It's not only an unwarranted assumption on the part of Mr. Darwin, but a non sequitor as well.
I also repeated a conclusion I made in an earlier post. Whether it’s the abiogenesis of proteins or DNA; or the speciation of an organism by random mutation and natural selection; the total number of possible combinations that nature would have to sort through in order to hit upon a successful one would require more time than has elapsed in the universe since the Big Bang (approximately 12 billion years, or 3x10^17 seconds). For nature to search through an astronomical number of possibilities in a mere 10^17 seconds and find a functional protein, for example, is like trying win 100 times at roulette in a casino with a trillion roulette wheels, and with only 5 minutes to place all your bets. In some cases, it’s merely absurdly unlikely; in others, it’s actually physically impossible, because you exhaust all the probabilistic resources in the entire universe.
I can't remember the last time I ran across a creationist who seriously challenged macro-evolution.
I never said I was a creationist. I am merely a skeptic, demanding that Darwinism do what other sciences do. Additionally, all creationists challenge macro-evolution; they may or may not accept some variant of micro-evolution.
The old chestnut about moths in England during the industrial evolution illustrates a selection pressure that was not the result of an attempt "to reach a pre-selected goal". See here... http://en.wikipedia.org/wiki/Peppered_moth_evolution.
Your Wiki article is about as up to date and relevant as Ed’s Wiki article on Archaeopteryx. Wiki is wrong on both of these. Bird specialists pretty much accept Achaeopteryx as a true bird, not as a transition between bird and dinosaur; and the peppered moth issue of industrial melanism has turned out to be a hoax perpetrated by Kettlewell. The British journalist Judith Hooper (who is not a creationist, by the way) wrote an entire book about it called “Of Moths And Men.” So much for that old chestnut.
Claude, have I misunderstood your argument? Do you really mean that only a continuous effort towards a predetermined goal can bring about a change in the traits of animals in a breeding population (i.e. a change in allele frequency)?
Not sure what you mean by “continuous” effort. You mean “unbroken by any time interval”? I never said that. My post #84 makes clear that I am talking about the unwarranted assumption that nature can do what purposive agents do, if only given enough time. This is manifestly and demonstrably untrue with that other chestnut, “monkeys tapping on typewriter keys will eventually produce the plays of Shakespeare, or Atlas Shrugged, given enough monkeys, enough typewriters, and enough time.” It’s also untrue for proteins, DNA, and speciation.
Are you saying it was "pure dumb luck" that caused the changes in the moths in the wiki example I provided?
Dark moths were already a part of the moth population before pollution. During pollution, dark moths predominated. So what.
Same for another chestnut, Darwin’s finches on the Galapagos. Large beaked finches didn’t mutate from the small beaked finches. They existed side by side in the population, with the small beaked ones in the majority. During a drought, the large beaked ones became a majority. When the drought ended, the small beaked ones again became the majority. Upshot: no net evolution; no new species.
Big deal and so what. If this is the extent of evidence for Darwinism, then Darwinism is in big trouble.
This is the essence of what I posted earlier. “Things change” is about all that evolution can say. I agree that things change. How and why are a different story that Darwinism hasn’t answered in a scientific manner.
Second, you said this in later paragraph regarding the shortcomings of "DARWINISM": "Anyway, there were positions in classical Darwinism that contradicted Mendel's discoveries that had to be resolved. For example, Darwin believed that traits would blend smoothly; Mendel showed that traits are segregated and discrete -- the first hint that it had something to do with "information"." Darwin’s idea was that there would be a smooth blending of the traits from both parents appearing in the offspring. Mendel showed that the process was more discrete but so what.
In what way is that a significant "contradiction"?
Not sure what you mean by “significant” contradiction. Darwin said “X will happen”; Mendel showed that “X will not happen.” That’s a contradiction, whether you find it significant or not.
Mendel did not contradict the main thrust of Darwin's theory of dissent with modification or that the traits of the offspring are inherited from the parents.
Say wha? You mean, before Darwin, people didn’t know that the traits of the offspring are inherited from their parents? You credit Darwin with a bit too much. That’s been known by mankind since “Day 1.”
I can't see how Mendel’s ideas do anything but refine or make small corrections to Darwin's theory. Lamark's ideas might contradict Darwin's about heredity, but Mendel just applied a slight adjustment to the theory and, in fact, provided proof for Darwin's theory by demonstrating the mechanism by which the traits were, in fact, hereditary.
Mendel demonstrated no such mechanism. The mechanism of transmission, specifically, is DNA, which was a 20th century discovery, the exact structure and function of which was not clarified until the 1950s.
And finally, the last bit at the end of that sentence "...the first hint that it had something to do with "information"." In what way does "segregated and discrete" imply that all of this has something to do with information while "blend smoothly" does not?
Because (as I posted earlier) information is a message, and messages have a certain structure. Among other things, the structure requires segregation, discreteness, and linearity. The bases on DNA are segregated, discrete, and linear, and therefore are capable of bearing information, like a code or an alphabet. In fact, the nucleotides along DNA are completely “isomorphic” with computer codes – meaning they have the same form. DNA is an information-bearing molecule; it carries coded messages to the ribosome which uses its messages (via RNA) to build specific amino acids that are then formed into specific proteins.
The segregated nature of heritable traits that Mendel discovered with his pea experiments is a sign of DNA’s information-bearing property. I certainly didn’t intend to imply that Mendel recognized that any of this was so.
Isn't the change from "blend smoothly" to "segregated and discrete" simply a change from a continuous function to a discontinuous function?
Functions have nothing to do with this. Neither continuous functions nor discontinuous functions generate codes. For a code to convey information, its elements must be distinguishable from one another – discrete and segregated – and the elements must be linear. In written language, information is lost if you start blending one letter into another so as to be indistinguishable. The letters have to be distinct unto themselves, and clearly separated from their neighbors. In spoken language, information is lost if you slur your speech so as to make one phoneme blend in with another. Words are pronounced by keeping the elements distinct, and following one after the other, linearly.
Because information is discrete and linear, it’s measurable. It’s measured as a decrease in uncertainty (or, conversely, an increase in surprise). Another to say this is that the amount of information in an event is inversely proportional to the probability of that event. If the event has a very high probability of occurring, it doesn’t contain much information. Since you already knew that it had a high probability of occurring, it didn’t reduce much uncertainty in you when it actually occurred; it caused very little surprise. Again, something that occurs with a probability of “1” (100%) – such as the odds of tossing “heads” on a double-headed coin – would contain no information at all: you already knew it would occur, so it reduced no uncertainty and caused no surprise.
Conversely, things that occur that are very unlikely to occur can contain lots of information; they reduced lots of uncertainty and caused lots of surprise.
The order of nucleotides along the DNA helix are not determined by any function; they are freely “written” as it were. There’s nothing physical connecting one nucleotide with its upper and lower neighbors; and the neighbors to the left or right are joined by the slimmest of bonds (necessarily so, as this is where the molecule divides in order to replicate). It’s this very undetermined aspect of the discrete, linear bases in DNA that allows it to bear information.
By the way, in order to make the measure of information additive instead of multiplicative (like other probabilities), information theorists change the probability of an occurrence to its binary log (Log(2)). To show that it’s inversely proportional, they take the negative of the binary log (-log(2)). The number that comes up in a calculation is called a “binary digit” or “bit.” So the information-bearing capacity in a DNA molecule can be calculated exactly in terms of bits, just like computer code. In fact, DNA is a sort of computer code, except it uses four digits – A, C, T, G – instead of two – 0, 1.
In what way is a continuous function any less able to convey information than a discontinuous function?
A continuous function, such as a first-order differential equation cannot contain or express information: the states of the system it describes are completely determined by the equation and its initial conditions. Thus, there is no reduction of uncertainty or increase in surprise in calculating with it. A discontinuous function is also incapable of expressing information for the same reason: the states of the system it describes are completely determined by the equation itself and by initial conditions.
“Blending” wouldn’t work as a way of transmitting traits, in Darwinism or in any other paradigm, because the traits have to be discrete and separate in order to be selected and “fixed” (or conserved in the germ line).
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