Science Disproves Evolution

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Pahu

Senior Member
Jul 5, 2011
684
6
0
#1

Acquired Characteristics

Acquired characteristics—characteristics gained after birth—cannot be inherited (a). For example, large muscles acquired by a man in a weight-lifting program cannot be inherited by his child. Nor did giraffes get long necks because their ancestors stretched to reach high leaves. While almost all evolutionists agree that acquired characteristics cannot be inherited, many unconsciously slip into this false belief. On occasion, Darwin did (b).

However, stressful environments for some animals and plants cause their offspring to express various defenses. New genetic traits are not created; instead, the environment can switch on genetic machinery already present. The marvel is that optimal (c) genetic machinery already exists to handle some contingencies, not that time, the environment, or “a need” can produce the machinery (d).

Also, rates of variation within a species (microevolution, not macroevolution) increase enormously when organisms are under stress, such as starvation (e). Stressful situations would have been widespread in the centuries after a global flood.

a. The false belief that acquired characteristics can be inherited, called Lamarckism, would mean that the environment can directly and beneficially change egg and sperm cells. Only a few biologists try to justify Lamarckism. The minor acquired characteristics they cite have no real significance for any present theory of organic evolution. For example, see “Lamarck, Dr. Steel and Plagiarism,” Nature, Vol. 337, 12 January 1989, pp. 101–102.

b. “This hypothesis [which Darwin called pangenesis] maintained the idea of inheritance of acquired characteristics.” A. M. Winchester, Genetics, 5th edition (Boston: Houghton Mifflin Co., 1977), p. 24.

c. In writing about this amazing capability, Queitsch admits:

“... it is a perplexing evolutionary question how a population might move to a different local optimum without an intervening period of reduced fitness (adaptive valley).” Christine Queitsch et al., “Hsp90 as a Capacitor of Phenotypic Variation,” Nature, Vol. 417, 6 June 2002, p. 623.

d. “... genes that were switched on in the parent to generate the defensive response are also switched on in the offspring.” Erkki Haukioja, “Bite the Mother, Fight the Daughter,” Nature, Vol. 401, 2 September 1999, p. 23.

“... non-lethal exposure of an animal to carnivores, and a plant to a herbivore, not only induces a defence, but causes the attacked organisms to produce offspring that are better defended than offspring from unthreatened parents.” Anurag A. Agrawal et al., “Transgenerational Induction of Defences in Animals and Plants,” Nature, Vol. 401, 2 September 1999, p. 60.

“... hidden genetic diversity exists within species and can erupt when [environmental] conditions change.” John Travis, “Evolutionary Shocker?: Stressful Conditions May Trigger Plants and Animals to Unleash New Forms Quickly,” Science News, Vol. 161, 22 June 2002, p. 394.

“Environmental stress can reveal genetic variants, presumably because it compromises buffering systems. If selected for, these uncovered phenotypes can lead to heritable changes in plants and animals (assimilation).” Queitsch et al., p. 618.

e. Marina Chicurel, “Can Organisms Speed Their Own Evolution?” Science, Vol. 292, 8 June 2001, pp. 1824–1827.

[From “In the Beginning” by Walt Brown]
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#2

Mendel’s Laws

Mendel’s laws of genetics and their modern-day refinements explain almost all physical variations occurring within species. Mendel discovered that genes (units of heredity) are merely reshuffled from one generation to another. Different combinations are formed, not different genes. The different combinations produce many variations within each kind of life, as in the dog family.


Figure 3: Dog Variability. When bred for certain traits, dogs become different and distinctive. This is a common example of microevolution—changes in size, shape, and color—or minor genetic alterations. It is not macroevolution: an upward, beneficial increase in complexity, as evolutionists claim happened millions of times between bacteria and man. Macroevolution has never been observed in any breeding experiment.

A logical consequence of Mendel’s laws is that there are limits to such variation (a). Breeding experiments (b) and common observations (c) also confirm these boundaries.

a. Monroe W. Strickberger, Genetics, 2nd edition (New York: Macmillan Publishing Co., 1976), p. 812.

Alfred Russel Wallace, who independently proposed the theory of organic evolution slightly before Charles Darwin, was opposed to Mendel’s laws of genetics. Wallace knew Mendel’s experiments showed that the general characteristics of an organism remained within distinct boundaries. In a letter to Dr. Archdall Reid on 28 December 1909, Wallace wrote:

“But on the general relation of Mendelism to Evolution I have come to a very definite conclusion. This is, that it has no relation whatever to the evolution of species or higher groups, but is really antagonistic to such evolution! The essential basis of evolution, involving as it does the most minute and all-pervading adaptation to the whole environment, is extreme and ever-present plasticity, as a condition of survival and adaptation. But the essence of Mendelian characters is their rigidity. They are transmitted without variation, and therefore, except by the rarest of accidents, can never become adapted to ever varying conditions.” James Marchant, Letters and Reminiscences (New York: Harper & Brothers, 1916), p. 340.

b. “Every series of breeding experiments that has ever taken place has established a finite limit to breeding possibilities.” Francis Hitching, The Neck of the Giraffe: Where Darwin Went Wrong (New Haven, Connecticut: Ticknor and Fields, 1982), p. 55.

“All competent biologists acknowledge the limited nature of the variation breeders can produce, although they do not like to discuss it much when grinding the evolutionary ax.” William R. Fix, The Bone Peddlers: Selling Evolution (New York: Macmillan Publishing Co., 1984), pp. 184–185.

“A rule that all breeders recognize, is that there are fixed limits to the amount of change that can be produced.” Lane P. Lester and Raymond G. Bohlin, The Natural Limits to Biological Change (Grand Rapids: Zondervan Publishing House, 1984), p. 96.

Norman Macbeth, Darwin Retried: An Appeal to Reason (Ipswich, Massachusetts: Gambit, 1971), p. 36.

William J. Tinkle, Heredity (Houston: St. Thomas Press, 1967), pp. 55–56.

c. “...the distinctions of specific forms and their not being blended together by innumerable transitional links, is a very obvious difficulty.” Charles Darwin, The Origin of Species, 6th edition (New York: Macmillan Publishing Co., 1927), p. 322.

“Indeed, the isolation and distinctness of different types of organisms and the existence of clear discontinuities in nature have been self-evident for centuries, even to non-biologists.” Michael Denton, Evolution: A Theory in Crisis (London: Burnett Books, 1985), p. 105.

[From “In the Beginning” by Walt Brown]
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#3

Bounded Variations

Not only do Mendel’s laws give a theoretical explanation for why variations are limited, broad experimental verification also exists (a). For example, if evolution happened, organisms (such as bacteria) that quickly produce the most offspring should have the most variations and mutations. Natural selection would then select the more favorable changes, allowing organisms with those traits to survive, reproduce, and pass on their beneficial genes. Therefore, organisms that have allegedly evolved the most should have short reproduction cycles and many offspring. We see the opposite. In general, more complex organisms, such as humans, have fewer offspring and longer reproduction cycles (b). Again, variations within existing organisms appear to be bounded.

Organisms that occupy the most diverse environments in the greatest numbers for the longest times should also, according to macroevolution, have the greatest potential for evolving new features and species. Microbes falsify this prediction as well. Their numbers per species are astronomical, and they are dispersed throughout almost all the world’s environments. Nevertheless, the number of microbial species is relatively few (c). New features apparently don’t evolve.

a. “...the discovery of the Danish scientist W. L. Johannsen that the more or less constant somatic variations upon which Darwin and Wallace had placed their emphasis in species change cannot be selectively pushed beyond a certain point, that such variability does not contain the secret of ‘indefinite departure.’ ” Loren Eiseley, Darwin’s Century (Garden City, New York: Doubleday & Co., Inc., 1958), p. 227.

b. “The awesome morphological complexity of organisms such as vertebrates that have far fewer individuals on which selection can act therefore remains somewhat puzzling (for me at least), despite the geological time scales available...” Peter R. Sheldon, “Complexity Still Running,” Nature, Vol. 350, 14 March 1991, p. 104.

c. Bland J. Finlay, “Global Dispersal of Free-Living Microbial Eukaryote Species,” Science, Vol. 296, 10 May 2002, pp. 1061–1063.

[From “In the Beginning” by Walt Brown]
 
L

Lad

Guest
#4
While I dont believe in macro evolution, i certainly believe in micro and in the big bang.
 
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TheGrungeDiva

Guest
#5
While I dont believe in macro evolution, i certainly believe in micro and in the big bang.
Macro evolution is micro evolution. It's the same thing. Saying you accept one and refuse the other is like saying you accept Jesus but deny God.
 

Dude653

Senior Member
Mar 19, 2011
12,668
1,098
113
#6
There is a book called ''Icons of Evolution'' This books shows how every icon used to supprt evolution has been proven to be fraudulant.
 
K

KnightdeKhristos

Guest
#7
Macro evolution is micro evolution. It's the same thing. Saying you accept one and refuse the other is like saying you accept Jesus but deny God.
They are not the same thing. Macro evolution is basically Micro evolution, but with loooooooong periods of time.
 
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TheGrungeDiva

Guest
#8
They are not the same thing. Macro evolution is basically Micro evolution, but with loooooooong periods of time.
Good point. Thank you.

My point was that if you accept micro evolution, you accept macro evolution. Scientists don't even make a distinction, only those who don't understand the science do.
 
K

KnightdeKhristos

Guest
#9
Good point. Thank you.

My point was that if you accept micro evolution, you accept macro evolution. Scientists don't even make a distinction, only those who don't understand the science do.
Okay, I see. You are correct that biologists don't make the distinction; it's just "evolution" to most of them.
 
A

ASK

Guest
#10
There is a book called ''Icons of Evolution'' This books shows how every icon used to supprt evolution has been proven to be fraudulant.
I am going to read that book! :)
BTW another one has been proven false just recently, the worlds oldest found bird is now taking heat for not being a bird at all:)
 
C

CharlieD

Guest
#11
Perhaps I may shed some light onto your post.

"Acquired characteristics—characteristics gained after birth—cannot be inherited (a). For example, large muscles acquired by a man in a weight-lifting program cannot be inherited by his child. Nor did giraffes get long necks because their ancestors stretched to reach high leaves. While almost all evolutionists agree that acquired characteristics cannot be inherited, many unconsciously slip into this false belief. On occasion, Darwin did (b)
While what you are saying is true, you're leaving out some vital information. In the example, it's true that the man with the large muscles won't pass his large muscles on to his offspring. The evolutionary characteristic that he passes down to his offspring is the genetic potential for large muscles. Over time, the need to develop large muscles in order to survive tweaks the man's ancestors' bodies in such a way that they are better adapted to maintain large muscles (such as passing down high metabolism). In the same way, no evolutionist is honestly claiming that a primitive short-necked giraffe-like creature began to stretch it's neck out and then it's offspring began to do the same. As you well know, parents pass on physical genetic traits to their offspring. That's the reason why children tend to look like their parents. These physical traits include eye color, nose curvature, bone structure, and yes, even neck length. Natural selection claims that giraffes have long necks because as some point in their ancestral past, there was a food crisis. During this food crisis, most of the foliage which these creatures needed to survive could be reached only by individuals whose neck stretched high enough to grab it. Since the individuals born with the slightly longer necks were the only ones receiving nutrition, the short-neck gene eventually died off. Let's say, for instance, that the neck length of this creature ranged from 10 cm to 15 cm. During this hypothesized (and archaeologically supported) period of a food crisis, the foliage was only available to a creature with a neck size of 14 cm and higher (of course the numbers are arbitrary because I made them up for the metaphor, but surely you follow). Since only the creatures with necks 14 cm or higher are able to obtain food, they are the only ones who are able to pass their genes on to a new generation. In this new generation, all of the creatures have necks ranging somewhere within the general range of 14 cm to 15 cm. Another characteristic that is passed down is the potential to stretch the neck a little higher in case there is a need for food on even higher branches. Though acquired characteristics are not handed down genetically, their potential is.

Perhaps that clarified a few things.
 
T

TheGrungeDiva

Guest
#12
Perhaps I may shed some light onto your post....
Excellent post! Thank you!

May I ask another question, now? You seem to accept the theory of evolution. Are you also a Christian? If so, how do you answer those who say you can't accept evolution if you're Christian?
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#13

Natural Selection 1

An offspring of a plant or animal has characteristics that vary, often in subtle ways, from those of its “parents.” Because of the environment, genetics, and chance circumstances, some of these offspring will reproduce more than others. So, a species with certain characteristics will tend, on average, to have more “children.” In this sense, nature “selects” genetic characteristics suited to an environment—and, more importantly, eliminates unsuitable genetic variations. Therefore, an organism’s gene pool is constantly decreasing. This is called natural selection (a).

a. In 1835 and again in 1837, Edward Blyth, a creationist, published an explanation of natural selection. Later, Charles Darwin adopted it as the foundation for his theory, evolution by natural selection. Darwin failed to credit Blyth for his important insight. [See evolutionist Loren C. Eiseley, Darwin and the Mysterious Mr. X (New York: E. P. Dutton, 1979), pp. 45–80.]

Darwin also largely ignored Alfred Russel Wallace, who had independently proposed the theory that is usually credited solely to Darwin. In 1855, Wallace published the theory of evolution in a brief note in the Annals and Magazine of Natural History, a note that Darwin read. Again, on 9 March 1858, Wallace explained the theory in a letter to Darwin, 20 months before Darwin finally published his more detailed theory of evolution.

Edward Blyth also showed why natural selection would limit an organism’s characteristics to only slight deviations from those of all its ancestors. Twenty-four years later, Darwin tried to refute Blyth’s explanation in a chapter in The Origin of Species by Means of Natural Selection (24 November 1859).

Darwin felt that, with enough time, gradual changes could accumulate. Charles Lyell’s writings (1830) had persuaded Darwin that the earth was at least hundreds of thousands of years old. James Hutton’s writings (1788) had convinced Lyell that the earth was extremely old. Hutton felt that certain geological formations supported an old earth. Those geological formations are explained, not by time, but by a global flood. [See pages 106-323]

“Darwin was confronted by a genuinely unusual problem. The mechanism, natural selection, by which he hoped to prove the reality of evolution, had been written about most intelligently by a nonevolutionist [Edward Blyth]. Geology, the time world which it was necessary to attach to natural selection in order to produce [hopefully] the mechanism of organic change, had been beautifully written upon by a man [Charles Lyell] who had publicly repudiated the evolutionary position.” Eiseley, p. 76.

Charles Darwin also plagiarized in other instances. [See Jerry Bergman, “Did Darwin Plagiarize His Evolution Theory?” Technical Journal, Vol. 16, No. 3, 2002, pp. 58–63.]

[From “In the Beginning” by Walt Brown]
 
C

CharlieD

Guest
#14
Well thank you, my friend.
As it turns out, I'm officially labeled an "atheist", but I still believe in the bible as a metaphorical interpretation of spiritual truths. While I don't particularly believe that a physical being came and picked up dust with his bare hands to create man, I believe the genesis story in the sense that man descended from creatures who were spawned from chemicals in the earth (thereby seeming to come from the earth themselves).
 
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Pahu

Senior Member
Jul 5, 2011
684
6
0
#15

Natural Selection 2

Notice, natural selection cannot produce new genes; it selects only among preexisting characteristics. As the word “selection” implies, variations are reduced, not increased (b).

For example, many mistakenly believe that insect or bacterial resistances evolved in response to pesticides and antibiotics. Instead,

a lost capability was reestablished, making it appear that something evolved (c), or

a mutation reduced the ability of certain pesticides or antibiotics to bind to an organism’s proteins, or

a mutation reduced the regulatory function or transport capacity of certain proteins, or

a damaging bacterial mutation or variation reduced the antibiotic’s effectiveness even more (d), or

a few resistant insects and bacteria were already present when the pesticides and antibiotics were first applied. When the vulnerable insects and bacteria were killed, resistant varieties had less competition and, therefore, proliferated (e).

b. “[Natural selection] may have a stabilizing effect, but it does not promote speciation. It is not a creative force as many people have suggested.” Daniel Brooks, as quoted by Roger Lewin, “A Downward Slope to Greater Diversity,” Science, Vol. 217, 24 September 1982, p. 1240.

“The essence of Darwinism lies in a single phrase: natural selection is the creative force of evolutionary change. No one denies that natural selection will play a negative role in eliminating the unfit. Darwinian theories require that it create the fit as well.” Stephen Jay Gould, “The Return of Hopeful Monsters,” Natural History, Vol. 86, June–July 1977, p. 28.

c. G. Z. Opadia-Kadima, “How the Slot Machine Led Biologists Astray,” Journal of Theoretical Biology, Vol. 124, 1987, pp. 127–135.

d. Eric Penrose, “Bacterial Resistance to Antibiotics—A Case of Un-Natural Selection,” Creation Research Society Quarterly, Vol. 35, September 1998, pp. 76–83.

e. Well-preserved bodies of members of the Franklin expedition, frozen in the Canadian Arctic in 1845, contain bacteria resistant to antibiotics. Because the first antibiotics were developed in the early 1940s, these resistant bacteria could not have evolved in response to antibiotics. Contamination has been eliminated as a possibility. [See Rick McGuire, “Eerie: Human Arctic Fossils Yield Resistant Bacteria,” Medical Tribune, 29 December 1988, p. 1.]

“The genetic variants required for resistance to the most diverse kinds of pesticides were apparently present in every one of the populations exposed to these man-made compounds.” Francisco J. Ayala, “The Mechanisms of Evolution,” Scientific American, Vol. 239, September 1978, p. 65.

[From “In the Beginning” by Walt Brown]
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#16

Natural Selection 3

While natural selection occurred, nothing evolved and, in fact, some biological diversity was lost.

The variations Darwin observed among finches on different Galapagos islands are another example of natural selection producing micro- (not macro-) evolution. While natural selection sometimes explains the survival of the fittest, it does not explain the origin of the fittest (f). Today, some people think that because natural selection occurs, evolution must be correct. Actually, natural selection prevents major evolutionary changes (g).



f. “Darwin complained his critics did not understand him, but he did not seem to realize that almost everybody, friends, supporters and critics, agreed on one point, his natural selection cannot account for the origin of the variations, only for their possible survival. And the reasons for rejecting Darwin’s proposal were many, but first of all that many innovations cannot possibly come into existence through accumulation of many small steps, and even if they can, natural selection cannot accomplish it, because incipient and intermediate stages are not advantageous.” Søren Løvtrup, Darwinism: The Refutation of a Myth (New York: Croom Helm, 1987), pp. 274–275.

“It was a shock to the people of the 19th century when they discovered, from observations science had made, that many features of the biological world could be ascribed to the elegant principle of natural selection. It is a shock to us in the twentieth century to discover, from observations science has made, that the fundamental mechanisms of life cannot be ascribed to natural selection, and therefore were designed. But we must deal with our shock as best we can and go on. The theory of undirected evolution is already dead, but the work of science continues.” Michael J. Behe, “Molecular Machines,” Cosmic Pursuit, Spring 1998, p. 35.

g. In 1980, the “Macroevolution Conference” was held in Chicago. Roger Lewin, writing for Science, described it as a “turning point in the history of evolutionary theory.” He went on to say:


“The central question of the Chicago conference was whether the mechanisms underlying microevolution can be extrapolated to explain the phenomena of macroevolution. At the risk of doing violence to the positions of some of the people at the meeting, the answer can be given as a clear, No.” Roger Lewin, “Evolution Theory under

Fire,” Science, Vol. 210, 21 November 1980, p. 883.

“In a generous admission Francisco Ayala, a major figure in propounding the Modern Synthesis [neo-Darwinism] in the United States, said ‘We would not have predicted stasis [the stability of species over time] from population genetics, but I am now convinced from what the paleontologists say that small changes do not accumulate.’ ” Ibid., p. 884.

As stated earlier, micro + time ≠ macro.

“One could argue at this point that such ‘minor’ changes [microevolution], extrapolated over millions of years, could result in macroevolutionary change. But the observational evidence will not support this argument... [examples given] Thus, the changes observed in the laboratory are not analogous to the sort of changes needed for macroevolution. Those who argue from microevolution to macroevolution may be guilty, then, of employing a false analogy—especially when one considers that microevolution may be a force of stasis [stability], not transformation....For those who must describe the history of life as a purely natural phenomenon, the winnowing action of natural selection is truly a difficult problem to overcome. For scientists who are content to describe accurately those processes and phenomena which occur in nature (in particular, stasis), natural selection acts to prevent major evolutionary change.” Michael Thomas, “Stasis Considered,” Origins Research, Vol. 12, Fall/Winter 1989, p. 11.

[From “In the Beginning” by Walt Brown]
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#17

Mutations 1

Mutations are the only known means by which new genetic material becomes available for evolution (a).

a. “Ultimately, all variation is, of course, due to mutation.” Ernst Mayr, “Evolutionary Challenges to the Mathematical Interpretation of Evolution,” Mathematical Challenges to the Neo-Darwinian Interpretation of Evolution, editors Paul S. Moorhead and Martin M. Kaplan, proceedings of a symposium held at the Wistar Institute of Anatomy and Biology, 25–26 April, 1966 (Philadelphia: The Wistar Institute Press, 1967), p. 50.

“Although mutation is the ultimate source of all genetic variation, it is a relatively rare event,...” Ayala, p. 63.

[From “In the Beginning” by Walt Brown]
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#18

Mutations 2

Rarely, if ever, is a mutation beneficial to an organism in its natural environment. Almost all observable mutations are harmful; some are meaningless; many are lethal (b).

b. “The process of mutation is the only known source of the raw materials of genetic variability, and hence of evolution....the mutants which arise are, with rare exceptions, deleterious to their carriers, at least in the environments which the species normally encounters.” Theodosius Dobzhansky, “On Methods of Evolutionary Biology and Anthropology,” American Scientist, December 1957, p. 385.

“In molecular biology, various kinds of mutations introduce the equivalent of noise pollution of the original instructive message. Communication theory goes to extraordinary lengths to prevent noise pollution of signals of all kinds. Given this longstanding struggle against noise contamination of meaningful algorithmic messages, it seems curious that the central paradigm of biology today attributes genomic messages themselves solely to noise.” David L. Abel and Jack T. Trevors, “Three Subsets of Sequence Complexity and Their Relevance to Biopolymeric Information,” Theoretical Biology & Medical Modelling, Vol. 2, 11 August 2005, p. 10.

“Accordingly, mutations are more than just sudden changes in heredity; they also affect viability, and, to the best of our knowledge, invariably affect it adversely.” C. P. Martin, “A Non-Geneticist Looks at Evolution,” American Scientist, January 1953, p. 102.

“Mutation does produce hereditary changes, but the mass of evidence shows that all, or almost all, known mutations are unmistakably pathological and the few remaining ones are highly suspect.” Ibid. p. 103.

“[Although mutations have produced some desirable breeds of animals and plants,] all mutations seem to be in the nature of injuries that, to some extent, impair the fertility and viability of the affected organisms. I doubt if among the many thousands of known mutant types one can be found which is superior to the wild type in its normal environment, only very few can be named which are superior to the wild type in a strange environment.” Ibid. p. 100.

“If we say that it is only by chance that they [mutations] are useful, we are still speaking too leniently. In general, they are useless, detrimental, or lethal.” W. R. Thompson, “Introduction to The Origin of Species,” Everyman Library No. 811 (New York: E. P. Dutton & Sons, 1956; reprint, Sussex, England: J. M. Dent and Sons, Ltd., 1967), p. 10.

[From “In the Beginning” by Walt Brown]
 
J

jimmydiggs

Guest
#19
I cannot accept Naturalistic Evolution, as a purely natural process cannot create things that are non-natural. Such as the human soul. Scripture presupposes the existence of the human soul.
 

Pahu

Senior Member
Jul 5, 2011
684
6
0
#20

Mutations 3


Visible mutations are easily detectable genetic changes such as albinism, dwarfism, and hemophilia. Winchester quantifies the relative frequency of several types of mutations.

“Lethal mutations outnumber viables by about 20 to 1. Mutations that have small harmful effects, the detrimental mutations, are even more frequent than the lethal ones.” Winchester, p. 356.

John W. Klotz, Genes, Genesis, and Evolution, 2nd edition, revised (St. Louis: Concordia Publishing House, 1972), pp. 262–265.

“...I took a little trouble to find whether a single amino acid change in a hemoglobin mutation is known that doesn’t affect seriously the function of that hemoglobin. One is hard put to find such an instance.” George Wald, as quoted by Murray Eden, “Inadequacies of Neo-Darwinian Evolution as a Scientific Theory,” Mathematical Challenges to the Neo-Darwinian Interpretation of Evolution, editors Paul S. Moorhead and Martin M. Kaplan, pp. 18–19.

However, evolutionists have taught for years that hemoglobin alpha changed through mutations into hemoglobin beta. This would require, at a minimum, 120 point mutations. In other words, the improbability Wald refers to above must be raised to the 120th power to produce just this one protein!

“Even if we didn’t have a great deal of data on this point, we could still be quite sure on theoretical grounds that mutants would usually be detrimental. For a mutation is a random change of a highly organized, reasonably smoothly functioning living body. A random change in the highly integrated system of chemical processes which constitute life is almost certain to impair it—just as a random interchange of connections in a television set is not likely to improve the picture.” James F. Crow (Professor of Genetics, University of Wisconsin), “Genetic Effects of Radiation,” Bulletin of the Atomic Scientists, Vol. 14, January 1958, pp. 19–20.

“The one systematic effect of mutation seems to be a tendency towards degeneration...” [emphasis in original] Sewall Wright, “The Statistical Consequences of Mendelian Heredity in Relation to Speciation,” The New Systematics, editor Julian Huxley (London: Oxford University Press, 1949), p. 174.

Wright then concludes that other factors must also have been involved, because he believes evolution happened.

In discussing the many mutations needed to produce a new organ, Koestler says:

“Each mutation occurring alone would be wiped out before it could be combined with the others. They are all interdependent. The doctrine that their coming together was due to a series of blind coincidences is an affront not only to common sense but to the basic principles of scientific explanation.” Arthur Koestler, The Ghost in the Machine (New York: Macmillan Publishing Co., 1968), p. 129.

[From “In the Beginning” by Walt Brown]