Posted on 12/05/2003 3:26:16 PM PST by bondserv
New Record-Setting Living Fossil Flabbergasts Scientists 12/05/2003
A remarkably-detailed fossil ostracode, a type of crustacean, has been announced in the Dec. 5 issue of Science1 that is blowing the socks off its discoverers. Erik Stokstad in a review of the discovery in the same issue2 explains its significance in the evolutionary picture of prehistory:
Over the past half-billion years [sic], evolution has dished up [sic] an almost endless variety of novelties: lungs, legs, eyes, wings, scales, feathers, fur. So when paleontologists find a creature that doesnt change, they take note. (Emphasis added in all quotes.)Two things about this fossil are exceptional. (1) It has a jaw-dropping amount of detail, such that even small fragile parts and soft tissues were perfectly preserved. (2) It is indistinguishable from modern ostracodes:
Whats most amazing, ostracode experts say, is how eerily similar the soft-tissue anatomy is to that of modern relatives. I was flabbergasted, says Koen Martens, a zoologist at the University of Amsterdam, the Netherlands.This fossil, found near Herefordshire, U.K., was found in Silurian deposits estimated to be 425 million years old. That means that its modern counterparts are living fossils, virtually unchanged for all that time:
Some ostracode specialists are stunned. This is a demonstration of unbelievable stability, says Tom Cronin of the U.S. Geological Survey in Reston, Virginia. Whereas ostracodes diversified [sic] into some 33,000 living and extinct species, these guys have just been plodding along totally unfazed.This fossil, named Colymbosathon, is also upsetting those who look for evolution in the genes:
Finding a modern cylindroleberid in the Silurian clashes with molecular data, which suggest that the group and related families originated relatively recently, says evolutionary biologist Todd Oakley of the University of California, Santa Barbara. Theres no conflict for zoologist Anne Cohen, a research associate at the California Academy of Sciences in San Francisco, who thinks Colymbosathon actually belongs to a long-extinct family. In any case, the new fossil indicates that a basic ostracode body plan was already present in the Silurian. It could also help [sic] sort out evolutionary relationships of fossil ostracodes.David Horne (Queen Mary College, London) predicts more long-lost evolutionary blueprints [sic] may emerge from these deposits. The probability that they will find similarly preserved representatives of other ostracode lineages, and of other arthropods, is both high and extremely exciting.
This is just one more of many remarkable, astounding, flabbergasting examples of living fossils. Unbelievable stability is not a prediction of Darwinism. The Darwinian world is supposed to be a fluid world, filled with diversification, radiation, and innovation. During the imaginary 425 million years, the continents moved all over the world, animals crawled onto the land and became geckos and crocodiles and birds and caribou. Mountains rose and valleys sank, and glaciers repeatedly advanced and retreated over much of the planet. Some animals moved back into the oceans and became whales, porpoises, manatees and sea lions in just a small fraction of this much time, and humans emerged from grunting chimpanzees, invented language and abstract thought, and conquered space. Is it reasonable to assume that in this slow whirlwind of continuous dynamical change, these ostracodes just reproduced themselves over and over millions of times without any change whatsoever?
Darwinists are caught in a crossfire of antagonistic evidence. Only a well-armored Darwinist could be excited about incoming bombshells like this. Only by wearing Kevlar-lined lead helmets around their brains can they keep the bullets from penetrating and the insides from exploding.
Huh. Do you suppose the editor's of "Nature" and "Science" and the "Journal of Micro-Biology" and the curators of natural history museums and the Dean's of the colleges of paleontology will be closing up shop soon?
Oh, come now. There is a vast difference between "no evidence" and sporadically missing fossels in a vast sea of fossils that that show marked morphological continuity over monotonically increasing time in the geological record. That's like saying there is no evidence for gravity because you can't see any evidence of it operating in the space between galaxies.
If inductive reasoning over partial evidence is acceptable in astronomy and physics, it's certainly acceptable in biology.
Well, that's probably where you went astray then. It is just a theory, that's why we call it "The Theory of Evolution". Natural science doesn't deal in proof, just best guesses.
As I just recently pointed out with examples, what there is no shread of evidence for, is the invisible barrier between speciation and hybredization.
Creationists make hay on a misperception that speciation is an abrupt natural barrier--it is not. Incapacity to inter-breed comes on gradually--naming different creatures differently is a human invention of convenience--it is not thereupon incombent on the creatures in question to, upon receiving different species names, refrain from mating.
"LOL. Please supply evidence for this fancy."
Actually, he was a plagiarist per the author of "Krakatoa". A man named Wallace came up with "survival of the fittest" and his contemporary, Charles Darwin, was happy to claim that he came up with it. In that sense, Darwin was not so "devout". Theft is theft and Christ would not approve.
And some people might call your claim "slander". Since Wallace was off in the jungles of Borneo or somesuch place in the S. Pacific when his manuscript reached Darwin, Darwin could have simply thrown it in the fireplace, rushed his theory (which he had already been working on for years) into print, and later claimed that Wallace's manuscript never got to him.
Instead, he did the honorable thing, and saw to it that both his theory and Wallace's theory were read together, in public.
The names of Charles Robert Darwin (1809-1882) and Alfred Russel Wallace (1823-1913) have long been joined with the modern concept of "evolution" and the theory of "natural selection." The story of the interrelationship between the two men over their professional careers is one of gentlemanly strain: Darwin, the country squire, living off inherited wealth and sound investments on a small estate working leisurely in the pursuit of evolution, and Wallace, the committed socialist, saved ultimately from abject poverty by Darwin and his friends who arranged a Crown pension, laboring seemingly forever in other's shadow. Their coming together was itself a random event that neither anticipated. Darwin, the procrastinator at least on this subject, was forced into action only when he saw his own ideas-formed over some twenty years-expressed in a letter written by Wallace in a span of a few days. So sudden did this happen, and so similar were many of Wallace's concepts that the gentleman in Darwin felt it was imperative that Wallace's letter be published. Only through actions of his friends, the geologist Charles Lyell (1797-1875) and the botanist Joseph Dalton Hooker (1817-1911), was it possible for Darwin's long efforts to be acknowledged jointly with those of Wallace. The paper that is made available here is the result of that forced union. ...The lack of any immediate objections to the paper was satisfying to Darwin. The events leading up to the presentation, and the reaction, were reported to Wallace who, in turned, sent back his belated approval of how things were handled; his letter reached Darwin in January of 1859. ...
You are so right: It is truly depressing the kinds of scurrilous falsities that creationist schools are pushing on young, impressionable minds. >:-)
Where can I find one of those. Any place a secularly educated individual suggests to avoid has to be good!! ;-0
Surely even a creationist should be able to see the fallacy in the above "reasoning". It's like examining one parked car and then concluding, based on its immobility, that no one could ever drive to Cleveland before their car rusted out.
To *properly* examine these things (you know, like a scientist, not like a creationist), one needs to look at the *average* rate of change for a number of species (not just point at the *slowest* changing one yet found and then pretend that it's somehow representative).
And actual determinations of *average* evolutionary change matches quite well the rate of evolution necessary to bring about modern life in the time available.
For example, from the talkorigins.org web source (I'd normally just provide a link, but the site is down at the moment):
Prediction 5.7: Morphological rates of changeI wish *any* of you folks would actually look at the available *scientific* literature, instead of just endlessly cycling the same creationist "urban legends". If you're going to try to critique science, shouldn't you actually *read* some first?Observed rates of evolutionary change in modern populations must be greater than or equal to rates observed in the fossil record.
Confirmation:
Here I can do no better than to quote George C. Williams writing on this very issue:"The question of evolutionary rate is indeed a serious theoretical challenge, but the reason is exactly opposite of that inspired by most people's intuitions. Organisms in general have not done nearly as much evolving as we should reasonably expect. Long-term rates of change, even in lineages of unusually rapid evolution, are almost always far slower than they theoretically could be." (Williams 1992, p. 128)In 1983, Phillip Gingerich published a famous study analyzing 512 different observed rates of evolution (Gingerich 1983). The study centered on rates observed from three classes of data: (1) lab experiments, (2) historical colonization events, and (3) the fossil record. A useful measure of evolutionary rate is the darwin, which is defined as a change in an organism's character by a factor of e per million years (where e is the base of natural log). The average rate observed in the fossil record was 0.6 darwins; the fastest rate was 32 darwins. The latter is the most important number for comparison; rates of evolution observed in modern populations should be equal to or greater than this rate.The average rate of evolution observed in historical colonization events in the wild was 370 darwins - over 10 times the required minimum rate. In fact, the fastest rate found in colonization events was 80,000 darwins, or 2500 times the required rate. Observed rates of evolution in lab experiments are even more impressive, averaging 60,000 darwins and as high as 200,000 darwins (or over 6000 times the required rate).
A more recent paper evaluating the evolutionary rate in guppies in the wild found rates ranging from 4000 to 45,000 darwins (Reznick 1997). Note that a sustained rate of "only" 400 darwins is sufficient to transform a mouse into an elephant in a mere 10,000 years (Gingerich 1983).
One of the most extreme examples of rapid evolution was when the hominid cerebellum doubled in size within ~100,000 years during the Pleistocene (Rightmire 1985). This "unique and staggering" acceleration in evolutionary rate was only 7 darwins (Williams 1992, p. 132). This rate converts to a minuscule 0.02% increase per generation, at most. For comparison, the fastest rate observed in the fossil record in the Gingerich study was 37 darwins over one thousand years, and this corresponds to, at most, a 0.06% change per generation.
Potential Falsification:
If modern observed rates of evolution were unable to account for the rates found in the fossil record, the theory of common descent would be extremely difficult to justify, to put it mildly. For example, Equus evolutionary rates during the late Cenozoic could be consistently found to be greater than 80,000 darwins. Given the observed rates in modern populations, a rate that high would be impossible to explain. Since the average rate of evolution in colonization events is ~400 darwins, even an average rate of 4000 darwins in the fossil record would constitute a robust falsification.Prediction 5.8: Genetic rates of change
Rates of genetic change, as measured by nucleotide substitutions, must also be consistent with the rate required from the time allowed in the fossil record and the sequence differences observed between species.
Confirmation:
What we must compare are the data from three independent sources: (1) fossil record estimates of the time of divergence of species, (2) nucleotide differences between species, and (3) the observed rates of mutation in modern species. The overall conclusion is that these three are entirely consistent with one another.For example, consider the human/chimp divergence, one of the most well-studied evolutionary relationships. Chimpanzees and humans are thought to have diverged, or shared a common ancestor, about 6 Mya, based on the fossil record (Stewart and Disotell 1998). The genomes of chimpanzees and humans are very similar; their DNA sequences overall are 98% identical (King and Wilson 1975; Sverdlov 2000). The greatest differences between these genomes are found in pseudogenes, non-translated sequences, and fourfold degenerate third-base codon positions. All of these are very free from selection constraints, since changes in them have virtually no functional or phenotypic effect, and thus most mutational changes are incorporated and retained in their sequences. For these reasons, they should represent the background rate of spontaneous mutation in the genome. These regions with the highest sequence dissimilarity are what should be compared between species, since they will provide an upper limit on the rate of evolutionary change.
Given a divergence date of 6 Mya, the maximum inferred rate of nucleotide substitution in the most divergent regions of DNA in humans and chimps is ~1.3 x 10^-9 base substitutions per site per year. Given a generation time of 15-20 years, this is equivalent to a substitution rate of ~2 x 10^-8 per site per generation (Crowe 1993; Futuyma 1998, p. 273).
Background spontaneous mutation rates are extremely important for cancer research, and they have been studied extensively in humans. A review of the spontaneous mutation rate observed in several genes in humans has found an average background mutation rate of 1-5 x 10^-8 base substitutions per site per generation. This rate is a very minimum, because its value does not include insertions, deletions, or other base substitution mutations that can destroy the function of these genes (Giannelli et al. 1999; Mohrenweiser 1994, pp. 128-129). Thus, the fit amongst these three independent sources of data is extremely impressive.
Similar results have been found for many other species (Kumar and Subramanian 2002; Li 1997, pp. 180-181, 191). In short, the observed genetic rates of mutation closely match inferred rates based on paleological divergence times and genetic genomic differences. Therefore, the observed rates of mutation can easily account for the genetic differences observed between species as different as mice, chimpanzees, and humans.
Potential Falsification:
It is entirely plausible that measured genetic mutation rates from observations of modern organisms could be orders of magnitude less than that required by rates inferred from the fossil record and sequence divergence.(References:)
Crowe, J. F. (1993) "Mutation, fitness, and genetic load." Oxford Survey of Evolutionary Biology 9: 3-42.
Futuyma, D. (1998) Evolutionary Biology. Third edition. Sunderland, MA, Sinauer Associates.
Giannelli, F., Anagnostopoulos, T., and Green, P. M. (1999) "Mutation rates in humans. II. Sporadic mutation-specific rates and rate of detrimental human mutations inferred from hemophilia B." Am J Hum Genet 65: 1580-1587. [PubMed]
Gingerich, P. D. (1983) "Rates of evolution: Effects of time and temporal scaling." Science 222: 159-161.
King, M. C., and Wilson, A. C. (1975) "Evolution at two levels in humans and chimpanzees." Science 188: 107-116.
Kumar, S., and Subramanian, S. (2002) "Mutation rates in mammalian genomes." Proc Natl Acad Sci 99: 803-808. http://www.pnas.org/cgi/ content/full/99/2/803
Li, W.-H. (1997) Molecular Evolution. Sunderland, MA, Sinauer Associates.
Mohrenweiser, H. (1994) "Impact of the molecular spectrum of mutational lesions on estimates of germinal gene-mutation rates." Mutation Research 304: 119-137. [ PubMed]
Reznick, D. N. (1997) "Evaluation of the rate of evolution in natural populations of guppies (Poecilia ieticulata)." Science 275: 1934-1937. [ PubMed]
Stewart, C. B., and Disotell, T. R. (1998) "Primate evolution - in and out of Africa." Current Biology 8: R582-588. [ PubMed]
Sverdlov, E. D. (2000) "Retroviruses and primate evolution." BioEssays 22: 161-171. [ PubMed]
Williams, G. C. (1992) Natural Selection: Domains, Levels, and Challenges. New York, Oxford University Press.
I'm not going to deploy my ping list for this thread. The whole thing is based on a misconception that evolution commands everything to change all the time, so that nothing could possibly remain in stasis, which is goofy. I'm content to let the creos have this thread to themselves.
52 posted on 12/05/2003 6:41:33 PM CST by PatrickHenry (Felix, qui potuit rerum cognoscere causas.)
Bookmarked!
As I pointed out, this is not a commitment to leave. It is a statement about PH's assessment of the argument. It could be a commitment to lurk, waiting, for example, for a less laughable argument to surface.
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