Caedes
You keep on using those figures and still haven't actually
stated a source for them, if you had any understanding of basic scientific
principles you would understand why they are being dismissed.
Apologize for the amount of time it took to find it. It is
from “Evolution A Theory In Crisis” by Michael Denton. His source is ‘Dayhoff
Atlas of Protein Structure and Function [1972 edition]’.
However you are looking at one protein, and it is being
coded by a ubiquitous gene. What that means is that it is coding for a very
basic function, one that is common to all life. Since there are lots of ways of
functionally coding for this protein (as I mentioned before) then if life were
unrelated then you would expect that there would be a wide variety in how it is
coded.
It is not that simple. It is estimated that it takes
10x10^21 mutations to get five codons to mutate in the right order to fold in
the right form to accomplish the function.
What we actually see is that it is coded in a very similar
way and that the small differences reflect how related any two organisms are.
The more closely related the the two organisms are then the coding will be
increasingly similar.
They aren't radically different because they are related! Your figures are still incorrect!
But that is not what we see. The difference between a cyclostome and fish
[75%], amphibian [81%], bird [78%], marsupial [76%] and mammal [73%]. Notice
mammals are closer to cyclostome than a fish. What this leads to is that all
living things appeared at the same time.
All species are transitional in regards to moving along a
particular branch of the evolutionary tree. The first part of your sentence
shows that you still have no real understanding of how fossilisation works or
how evolution works. I'll sum up the key points, fossilisation is rare,
fossilisation of rare species is even rarer. The evolution of species happens
to groups of organisms not individuals, for a strong selection mechanism to be
happening then lots of that group are dieing and a small number are surviving.
So we wouldn't expect to see a lot of fossilisation but we do see it.
Why don’t you see large amounts of fossilization? What
happens when a fish or sea creature dies today? We have all seen the results,
the body floats on the surface of the water or sinks to the bottom where it is
devoured quickly by other fish. Or how does a dead fish lie on the bottom of a
lake for hundreds of years until it is fossilized? Of course, that does not
happen in real life, only in the fertile and desperate minds of evolutionists. But
the fossil fish are often found very well preserved in sedimentary rocks. What
we do have are many creatures, when alive, did not share the same environment,
yet they were buried together. They seem to all have died in one cataclysmic event.
Let's assume your figures for the differences between man
and chimp are correct for a moment, so what you are saying is that we need a
method to sieve out all the useless mutations that are harmful. Let's then look
at the title of Darwin's book On the origin of species by means of natural
selection. What does the second part of that title tell you about what happens?
That's right, the successful genes are naturally 'selected' (by not being in a
dead organism) so there you have your method to sieve out the harmful
mutations. Then all you need is a population breeding like rabbits and you have
evolution.
The theory of Natural Selection promotes that the species
that survives is the fittest, and the fittest is the species that
survives. What does Natural Selection
identify as the determining factor of the survival of the fittest? Whatever
gave the surviving form the edge over the extinct on is the determining
factor[s]. Since Natural Selection has
become an all-purpose explanation of anything and everything, it becomes an
explanation of nothing. Just about any
characteristic can be either advantageous or dis advantageous depending upon
the surrounding environmental conditions the subject is found.
Based on the species thriving we can assume a characteristic
to be advantageous to it, but in most cases it is impossible to identify the
advantage independently of the outcome; therefore any advantage can also be a
disadvantage. Simply put, the historical record only confirms one advantage,
success in reproduction. Following Natural Selection, the individual which
reproduce the most offspring must have the qualities required for producing the
most offspring, or the fittest individuals in a population [identified as these
which leave the most offspring] will leave the most offspring.
No, you are incorrect, modern birds do not show the
reptilian features shown in primitive birds like archeopterix and archeopterix
shows bird like features not seen in true reptiles. That is not speculation,
you can see the fossils for yourself.
Yes Archaeopteryx is truly unique, and appears to exhibit a
tapestry of characters, sharing some in common with the class Aves and some
with the class Reptilia. What is it suited for? A life of crawling on the
ground or under rocks? Or suited for a lifestyle of short flights and agile
crawling in trees? The features which make it unquestionably a bird for
classification purposes are uniquely and completely present and perfect. If it
was transitional the feathers would be half way between scales to feathers, but
it is not. Just this would disqualify it as a transitional form. A bat is not a
transitional form between bird and mammal, nor is a platypus transitional
between duck and mammal, even though it exhibits some features of both.
‘… we are not even authorized to consider the exceptional
case of Archaeopteryx as a true link. By link, we mean a necessary stage of
transition between classes such as reptiles and birds, or between smaller
groups. An animal displaying characters belonging to two different groups
cannot be treated as a true link as long as the intermediary stages have not
been found, and as long as the mechanism of transition remains unknown. [Human
Destiny (N.Y. 1947)] Evolutionist
Lecomte du Noüy.
