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Copyright 1995 by the CREATION RESEARCH SOCIETY (CRS), Inc.
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             ... continued from 12_1a1.txt ...

              A DECADE OF CREATIONIST RESEARCH 
              ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
                          (Part II)

                   by DUANE T. GISH, Ph.D.
       Creation Research Society Quarterly 12(1):34-46
                         June, 1975


*New Guinea Communities and the Migration Dispersion Model*


The origin of the peoples of New Guinea is a subject of dispute
among anthropologists. Regardless of their origin, New Guineans
in the past have tended to isolate themselves in small groups
which have become diversified both linguistically and
genetically. R. Daniel Shaw compiled data on the ABO, MNS and Rh
blood groups for natives of New Guinea in 37 areas spread over
the entire island in an attempt to discover any relationships
that might aid in correlating these genetic data, (31) and which
might provide some basis for postulating bow these diverse
groups arose. 

Although the data are insufficient to validate any theory, Shaw
maintained that his data supported a Migration-Dispersion model
for the origin of these New Guinea population groups. According
to this model, as individuals migrate in small numbers from a
common gene pool, the new group becomes more distinct than the
source group. This is so because new generations come from only
a limited gene pool and are isolated from the normalizing effect
of interbreeding within a large gene pool where all genetic
factors are available. Genetic traits peculiar to the group are
thus rapidly and strongly expressed because of a high degree of
inbreeding. 

It is postulated that "Papua-Melanesians" migrated to New Guinea
in relatively large numbers. After settling on the coasts of
what was probably an uninhabited island, population growth
forced these people to migrate up river valleys and into the
highlands. These groups became reproductively isolated from one
another due to geographic, linguistic and cultural barriers.
This gave rise to populations that were genetically diverse from
one another, since each migratory group had carried with it only
a fraction of the total gene pool. 

While evolutionists generally propose that the origin of races
required gradual processes over a vast length of time,
creationists postulate that a process similar to the one above
could have caused the origin of races in a short period of time.
The rapid dispersion that took place following the confusion of
tongues at Babel (32) would have resulted in the isolation of
relatively small groups. Furthermore, the manner in which God
bestowed various languages among this previously monolingual
human population may have been so directed as to isolate
genetically similar individuals in the same language group. 

Thus, those individuals having a higher proportion of genes for
Negroid features, or for Caucasian features, etc., may have been
given a common language. Once the race itself was established
through isolation and inbreeding, further migrations and other
isolating mechanisms, such as those described above, could
account for the diversity within each major racial group. 


*Pine Cone Spirals and the Fibonacci Series*


A curious, but seldom observed, pattern runs through much of
nature. (33,34) The reproduction of male bees, the number of
spiral floret formations visible in many sunflowers, spiraled
scales on pine cones and pineapples, the arrangement of leaves
on twigs, and many other structures fit the Fibonacci series.
This series, developed by the Italian mathematician Leonardo of
Pisa, also known as Fibonacci (1170-1230), is 0, 1, 1, 2, 3, 5,
8, 13, 21, . . . , with each number the sum of the two previous
numbers. Harry Wiant's study of the cones of the major southern
pines confirmed that, almost without fail, the number of spirals
around the cones at a selected point, to the right and left,
were adjacent numbers in the Fibonacci series. (34)

Some exhibited counts of 5 and 8, others of 3 and 5. Preliminary
studies indicated that approximately 50% of the cones give the
maximum count to the right and 50% show the maximum to the left.
Wiant suggested that these patterns in nature, in both the plant
and animal world, rather than reflecting a random evolutionary
process, are indicative of the design of a Creator-God. 


*Stability of Bacterial Populations*


Basic to the orthodox evolutionary model is the belief that the
population of an organism is constantly undergoing change due to
mutations and pressures brought on by changes in the
environment. Jerry Moore studied a pure culture of _Proteus
mirabilis_, a bacterial species belonging to the
Enterobacteriaceae family of the Eubacteriales order, which he
had isolated from a clinical source, in order to determine its
stability or variability over a period of time under markedly
different conditions. (35) 

The organism was serially transferred onto 10 randomly-selected
laboratory media and the cultures were held at temperatures
ranging from 20-37C. for a period of three months. The
conditions of culture and incubation were thus quite varied, yet
remaining favorable enough at times for hundreds of bacterial
generations to occur. After 62 serial transfers, 30 biochemical
and antibiotic sensitivity characteristics had not changed from
those initially observed, except for a minimal and variable
response to Penicillin G. The variable response to the latter
may have been due to cell wall damage from exposure of the
bacteria to noxious components in the culture media rather than
to exposure to Penicillin G. 

Moore's experiment, although admittedly limited in scope and
duration, does support a natural biologic stability. In his
paper, Moore reviewed some examples in the scientific literature
of tremendous biologic stability, including a study which
indicated that a bacterium had retained its rigid biological
characterization during the 150 years it has been subject to
investigation.


NATURAL SELECTION


As mentioned earlier in this article, fundamental to
evolutionary thinking is the concept that new varieties within
each species are constantly arising via mutations or other
genetic variations. The genetic variants that arise by these
processes, due to differences in viability, fertility, etc.,
contribute, via reproduction, differentially to the gene pool of
subsequent generations, some leaving more offspring than others. 

Those that reproduce a larger proportion of offspring which, in
turn live to reproduce in larger numbers, are said to be the
most fit. They are said to have been selected by nature, and the
evolutionary process is thus a process of mutation with natural
selection. 

Another concept that is fundamental to evolutionists is the
belief that these minor changes, or micromutations, accumulate
in such a way that one basic kind of an organism can change into
a basically different kind of an organism, and simple organisms
will change or evolve into more complex organisms. 

Creationists recognize that all organisms have an ability to
vary, but they insist that all empirical evidence  indicates
that this ability is restricted within relatively narrow limits,
and that there is no evidence that one kind of an organism has
ever arisen from a basically different kind of an organism. They
further believe that this ability to produce normal variants
(distinguished from pathological variants) was built into each
kind by the Creator to enable each kind to survive under a great
variety of conditions, and thus to be perpetuated even though
conditions may change. Creationists are interpreting biological
data according to this concept rather than within evolutionary
concepts. 


*Galapagos Island Finches*


Darwin and other evolutionists have supposed that the varieties
of finches now living in the Galapagos Islands, a group of
islands lying 600 miles and more west of South America, have
arisen from migrants from South America. The original migrants,
it is believed, were more or less uniform, but mutation with
natural selection has given rise over a long period of time to
finches that now inhabit the various islands and which possess
differences (mainly in size and shape of the bill) in response
to variations in the type of food supply found on the several
islands. 

Creationists interpret these data in much the same way, with
some important exceptions. They point out, first of all, that
the variation that has apparently occurred among these finches
is very limited, for these finches are not only still birds, but
they are still finches. Neither the molecule-to-man idea of
evolution, nor the idea that basically different kinds of birds,
such as ducks, hummingbirds, and vultures, have arisen from a
common ancestor is supported by such evidence.

Secondly, creationists believe that the genetic potential, or
gene pool, carried to the Galapagos Islands by the migrant
finches from South America was sufficient to permit the
variation that has occurred. This variability did not arise via
mutations, but the potential was already present in the original
migrants, which diverged into various forms as a result of the
chance arrangement of their original variability potential (the
fact that this variability potential existed was not by
chance!). 

Finally, as the study of these finches by Walter Lammerts (36)
showed, the actual divergence that has occurred among these
finches is considerably more limited than represented in much of
evolutionary literature. Dr. Lammerts studied the large
collection of Galapagos Island finches (sometimes called
"Darwin's finches") at the California Academy of Science. He
particularly noted: 1) the length of each bird from tip of bill
to end of tail, 2) the height from belly to top of back, 3)
total length of bill, and 4) width of the ventral side of the
lower mandible of the bill. 

These finches have been classified into four genera, _Geospiza_, 
_Camarhynchus_, _Cactospiza_, and _Certhidea_. Those studied by 
Lammerts bore 17 different species labels. While Lammerts held 
that the _Certhidea_, or Warbler finches, are distinctive from 
the other genera, he stated that the four species within this 
genera are hardly more than color variations, and should be 
placed in a single group with species rank rather than genus 
rank. Lammerts further observed that if all the species labels 
were removed from the remainder of the Galapagos Island finches 
and they were arranged according to body and bill size, complete 
intergradation would be found. The same is true of bill length 
and width and plumage coloration. 

Lammerts noted that the range in variation among these finches,
although they are classified into several genera and many
species, is exactly comparable to the variation found within a
single species of song sparrow, _Melospiza melodia_. He further
pointed out that these finch "genera" are in no way comparable
in distinction to the genera _Rosa_ (roses), _Frageria_
(strawberries), and _Pyrus_ (pears), members of the family
Rosaceae. 

Lammerts considered that it would be much more realistic to
classify these finches into a single species. He also
emphatically rejected the idea that the variations in size of
bill are "adaptive divergences" resulting from natural
selection. Present feeding habits, Lammerts emphasized, are the
*result* of the particular types of bills which happened to occur
among these birds, rather than the bills developing slowly as an
adaptation to differences in the types of food available.


*Crowding and Reproductive Rates in Planaria*


E. N. Smith has reported on his study of the effect of crowding
on asexual reproduction of the planaria _Dugesia dorotocephala_.
(37) As Smith pointed out, there are two possible mechanisms for
regulating population densities. Individuals within a population
might reproduce maximally near their physiological limit, with
the population density being regulated by negative outside
forces (predation, disease, starvation, etc.). Those individuals
which are better able to compete against these outside forces
and reproduce more offspring are said to be more fit and thus to
be selected. Alternately, the individuals within a population
might possess some internal regulating force which in some way
regulates population density and maintains a form of density
homeostasis. 

Evolutionists generally prefer the former view. Natural
selection is said to favor the individuals that can leave the
most reproducing offspring. On the other hand, if the alternate
view is correct, there would be no real competition between
populations and no selection. The postulated cause of the
evolutionary process would fail. 

The freshwater planaria, _Dugesia dorotocephala_, reproduce
asexually by fissioning. Smith maintained the planaria in
identical containers, and conditions in each experiment were the
same in each container, except the population density was
maintained at different levels. Smith found that crowding
clearly reduced the fissioning rate of the planaria. This
reduction did not appear to be due to slime, oxygen depletion or
carbon dioxide build-up, but appeared to be due to some
water-soluble inhibitor produced by the planaria.

The planaria thus appeared to have a built-in density-dependent
reproduction regulatory mechanism. Smith postulated that these
creatures (and other animals) regulate their own numbers without
the necessity of outside forces such as predation, starvation,
and disease. He pointed out that built-in density dependent
reproduction rates were mandatory after creation and before the
fall, and that it is quite conceivable that living organisms bad
a mechanism for regulating their numbers without intervention of
external conditions such as predation, starvation and disease.


*Plant Succession Studies*


Walter Lammerts and George Howe used plant succession studies to
observe the effect of natural selection under widely divergent
conditions. (38) Repeated field analyses were made of variation
in five plant species populations including the California
poppy, lupine, thistle sage, owl's clover, and a yellow pansy,
representing five different plant families. Observations were
made over a period of five growing seasons at staked localities
in the vicinities of Newhall and Corralitos, California. 

Despite great variation in annual precipitation during the
study, no gradual shifts or evolutionary trends were evident.
The natural selection observed actually restricted the amount of
variation, bringing populations back to a typical or normal form
during years of moisture stress. Lammerts and Howe concluded
that these studies indicated no evidence for natural selection
of the type required by evolution theory. 

Origin of the great range in variation found in many species of
plants were discussed. It was the conclusion of one of the
authors, namely Dr. Lammerts, that plant variations were
supernaturally derived from the originally small populations of
plants of the various kinds which survived the Flood. The
alternative possibility exists, however, that a sufficiently
diverse gene pool within each plant family survived the Flood to
give rise to the many plant varieties existing today. The
experiments by Howe discussed in the next article have shed some
light on this question.


GENERAL BIOLOGY


*Seed Germination and Plant Survival Following Submersion in
Salt and Fresh Water*


George Howe undertook a study of the effect of prolonged
submersion of seeds of flowering plants in sea and fresh water
as an aid in understanding bow plants were able to survive the
Flood. (39) Seeds from the fruits of five different species and
families of flowering plants were tested for germination after
soaking in sea water, fresh tap water, and an equal mixture of
sea and tap water. 

Soaking was continued for a maximum of 140 days, which
corresponds roughly to the 150 days during which water prevailed
upon the earth during the Flood. At intervals of 4, 8, 12, 16,
and 20 weeks after initiation of soaking, seeds of each plant
species were removed from the various treatments and placed
under favorable germination conditions. 

Ability to survive the soaking varied among the plant species
tested, but even after a soaking period of 140 days in each of
the solutions mentioned above, seeds from three out of the five
species tested germinated and grew. 

The first suggestion that Howe made in answer to the question of
plant survival during the Flood was that many plants did not
survive! He pointed out that much destruction of plant life
would be expected during a prolonged global flood and that
extinction of many species would thus be a predictive
consequence of such a flood. Paleobotanical studies have
revealed that numerous kinds of plants are found as fossils but
which are not found living today. 

Howe reviewed several other mechanisms for plant survival during
the Flood in addition to resistance to soaking by seeds.
Vegetation, including trees, have been known to have been torn
away by storms and carried out to sea still embedded in soil
masses. Survival during prolonged periods of such a process
would be possible. 

Plant material has been known to have been transported while
embedded in icebergs. Seeds that were contained in the carcasses
of dead birds floating in sea water have been known to germinate
and grow. No doubt many seeds would have been carried on the
ark, as well. 

From his data and those of others, Howe concluded that a variety
of mechanisms were available to account for the survival of
plants during the Flood. 


*Flora and Fauna of the Galapagos Islands*


John Klotz visited the Galapagos Islands, made famous by Darwin,
and has published an extremely interesting review of the plants
and animals which now inhabit these islands, particular
attention being given to finches, tortoises, cacti, and iguanas.
(40)

About a half dozen of these islands measure 10 to 20 miles
across, and one, Albemarle, is 80 miles along. Mountains on
these islands rise 2,000 to 3,000 feet above sea level, the
highest point being 4,000 feet on Albemarle. Generally the
islands are arid and the landscape harsh. Inland and at higher
altitudes, there is humid forest with rich black soil and tall
trees covered with ferns, orchids, lichens, and mosses. In the
very highest areas there is open country with grass, ferns,
mosses, and occasional thickets. 

Floral and faunal types are relatively few in number. The fauna
include only six passerine forms of birds and one species of
cuckoo; two types of land mammals (a bat and a rat); and five
types of land reptiles, which include a giant tortoise, a
lizard, a gecko, a snake, a land iguana, and a marine iguana.
There are no amphibians. Domesticated animals have been
introduced by settlers. 

Klotz devoted a large section of his paper to the finches. He
stated that there seems to be no reason to question their origin
from a common ancestor. As Klotz noted, evolutionists have
generally assumed the origin of all the finch species from a
single gravid female, a single pair, or at most a very small
number reaching the islands together. Klotz discussed the
suggestion of Lammerts (1966), mentioned earlier in this paper,
that migration of finches to the Galapagos Islands might have
included many pairs, although he did not seem to favor that
view. 

Klotz, in contrast to Lammerts, maintained that most of the
Galapagos Island finch species are actual species rather than
mere varieties. There seems to be good evidence on each side,
although Lammerts presented some especially convincing evidence.
Klotz believes there is no reason to doubt that new species
arise or that new species of finches actually did arise on the
Galapagos Islands. 

Klotz emphasized that origin of species is comparatively only a
minor problem for evolutionists. Finches are still finches and
there is no evidence of the changes in magnitude required for
macroevolution, that is, increase in complexity with origin of
one basic kind from another. He thus asserted that the evidence
presented by the fauna and flora of the Galapagos Islands did
not constitute any real support for amoeba-to-man evolution.


TAXONOMY


*Molecular Approaches to Taxonomy*


Taxonomy is the science of classification of plants and animals.
It is obvious that there are recognizable groups of organisms in
the present world which have many similar characteristics. Such
groups have always existed as evidenced both by the fossil
record and the Genesis reference to "kinds." The father of
taxonomy, Carolus Linnaeus, was a strong believer in creation,
and believed, as do modern creationists, that similarities among
organisms exist not because of their origin from a common
ancestor but because God based His creation on a complex of
plans with an underlying thread of unity. 

Wayne Frair's approach to taxonomic studies avoids evolutionary
presuppositions, his assumption being that the world of life is
to be viewed as having risen from certain stem organisms which
constitute the original "kinds" mentioned in Genesis. He views
the problem of grouping organisms within the kinds and of
establishing relationships among the kinds to be the proper
function of taxonomists. 

Frair's interests as a biologist have included serology and
herpetology. He combined elements of both in his taxonomic
studies, utilizing antibodies to the serum of turtles as an aid
in establishing the taxonomic relationship of these turtles.
(41) He injected the blood sera of the turtles into rabbits or
chickens in order to establish antibodies to the serum proteins.
The antibody-containing serum, or antiserum, was obtained from
the rabbits or chickens and mixed with serial dilutions of the
serum from the various turtles. The sera from closely related
turtles would be expected to give a strong cross-reaction, while
sera from distantly related turtles would cross-react weakly or
not at all (a cross-reaction is said to be obtained if antiserum
generated by injection of serum of species A also reacts, or
gives a precipitate, with serum from species B). 

Frair's studies did not support the widely held view that
snapping turtles belong to a separate family related to the
Kinosternidae, but rather should be placed within the Emydid
family group. Such a switch is probably minor enough to pose no
problem for the evolutionary biologists. Creationists maintain,
of course, that taxonomic classification should be established
without reference to a supposed evolutionary origin or
phylogeny, but should be based strictly on degree of similarity.


THERMODYNAMICS 


Many papers have been published in the _CRS Quarterly_ which were
concerned with the relationship of the laws of thermodynamics to
the creation-evolution problem. Emmett Williams, in his most
recent paper on this subject, presented an excellent review of
the papers on this subject. (42) To review these papers here, or
even to review in detail Dr. Williams' outstanding series of
papers on this subject (43-46) would exceed the scope of this
paper. To omit any mention of this work from the present paper,
however, even though such work did not involve collection of any
new and original data as such, would be a serious omission. I
will, therefore, briefly review Williams' series of papers.

Those who hold to the general evolution model postulate that the
present universe and all that it contains began in some
primordial disordered state. Evolutionary forces have been at
work throughout the billions of years since that state existed,
it is believed, and have acted in such a way that the highly
structured universe and a vast array of incredibly complex
organisms have arisen here on the earth. Thus, there has
occurred, according to this  thinking, at least in the
observable part of our universe and particularly on the earth,
an immense increase in order and complexity. This supposedly has
taken place solely according to mechanistic, naturalistic
processes which can be attributed to properties inherent in
matter. 

If the above were true, then matter obviously must have
possessed an inherent ability for organization into higher and
higher levels of order and complexity. Scientists should have
been able to recognize this universal inherent property of
matter and to construct natural laws which describe it. As a
matter of fact, scientists have *not* been able to recognize any
such property of matter. 

However, scientists have recognized just the opposite tendency
in matter. The more probable state of matter is always the more
random state. Every change in nature that takes place
*spontaneously* always results in a *loss* of order. Natural
processes always occur in such a way that the complex tend to
become less complex, ordered states tend to become disordered.
Therefore, this universe is constantly becoming more disordered. 

This tendency is so universal and so unfailing it can be
expressed as a law - the Second Law of Thermodynamics. The
operation of the natural forces which has resulted in man's
description of these forces in the form of the Second Law of
Thermodynamics has a number of consequences, and thus the Second
Law may be defined in several ways. These consequences include
the loss of usable energy, the loss of order, and the loss of
information. The Second Law may thus be defined in several ways
so as to emphasize these several consequences. In discussions of
this Law and its relationship to the creation-evolution problem,
the loss of order and information consequences are usually
emphasized. 

In Williams' first paper on this subject, (43) he discussed the
operation of the Second Law from the viewpoint of classical
thermodynamics (loss of usable energy) and the viewpoint of
statistical mechanics (loss of order). Entropy is a
thermodynamic quantity which can be defined, in a non-technical
sense, as a measure of the randomness of a system - the greater
the randomness or disorder within a system the greater the
entropy. 

An increase in order requires a decrease in entropy, while the
reverse is true. The Second Law of Thermodynamics is thus
sometimes referred to as the law of increasing entropy. In his
first paper, which was the more technical of the series,
Williams discussed entropy and the solid state. 

Following an excellent introduction, including a thorough
definition of terms and of the Second Law in thermodynamic and
statistical terms, Williams discussed the effect of entropy on
the solid state. Contrary to what is commonly believed,
crystalline solids are not structurally ordered. There are many
imperfections in the lattice structures of such solids, and
these imperfections are thermodynamically stable because the
entropy of the solid is increased by their presence. Williams
emphasized that the principle of increasing entropy is opposed
to evolution and to certain aspects of ruin-reconstruction
interpretations of Genesis 1. 

A simplified explanation of the First and Second Laws of
Thermodynamics was given in non-mathematical language in
Williams' second paper. (44) That the total amount of energy in
the universe is a constant is expressed in the First Law. Since
matter and energy are interchangeable, and therefore equivalent,
everything in the physical universe is a form of energy and
neither increases nor decreases, in perfect agreement with the
Biblical pronouncement of a finished creation. Williams
explained that evolution could not have occurred unless both the
First and Second Laws of Thermodynamics were violated many
times. He shows that the three arguments which are usually
offered by evolutionists to circumvent the laws of
thermodynamics are invalidated by the evidence. 

In his third paper (45) Williams asked the question, "Is the
universe a thermodynamic system?" One would have to know the
answer to that question before one could assert with authority
that the laws of thermodynamics apply to the entire universe in
addition to our readily observable portion of the universe,
where these laws have been tested. Williams asserted that there
is no way scientifically to determine the extent of the universe
or its thermodynamic character at the present time. 

He pointed out, however, that statements in Scripture support
the fact that the laws of thermodynamics do apply to the entire
universe. The applicability of the First Law is asserted in
Genesis 2:1-3 and in 11 Peter 3:7, and the applicability of the
Second Law is made plain in Psalms 102:25, 26, and Romans
8:20-22. Since the universe is subject to these laws of
thermodynamics, and no matter or energy exchange can be
observed, it is *assumed* that the universe is an isolated
thermodynamic system. 

But whether the universe is open, closed or isolated, it is
definitely degenerating. No matter what type of a thermodynamic
system is chosen, the entropy of the system always increases
with the occurrence of an irreversible process. Williams
therefore asserted that evolutionists, who demand a decrease in
entropy, are in an indefensible position in the face of the
Second Law of Thermodynamics. 

In his fourth paper (46) Dr. Williams offered an extremely
interesting and thorough consideration of the applicability of
the laws of thermodynamics to living systems. There is a rather
general impression, often stated by evolutionists, that living
systems somehow circumvent the Second Law, since the development
of a seed or fertilized egg into the adult organism seems to
result in an increase in complexity. 

As Williams pointed out, this increase in complexity is only
apparent and not real. The fertilized egg is as complex, or more
so, than any cell in the growing or adult organism. All of the
information needed for the production of the adult is present in
the egg. No new information is needed or added. As a matter of
fact, almost from the moment of conception, loss of information
and order via mutations, injuries, and disease begins. This loss
of order, or the rate of increase in entropy, slows during
development, but never ceases. 

The rate of entropy increase accelerates during the aging
process and finally results in death, whereupon the organism
reaches its maximum entropy state - a pile of dust. If living
things circumvented the Second Law of Thermodynamics, they would
live forever. 

As indicated early in this section, Williams' most recent paper
(1973) on thermodynamics in the _CRS Quarterly_ was a review of
creationist literature on the relationship of the laws of
thermodynamics to the subject of creation and evolution.
Publications by Henry M. Morris, R. E. D. Clark, D. Penny, T. G.
Barnes, George Mulfinger, Walter Lammerts, I. McDowell, Bolton
Davidheiser, G. C. Lockwood, and A. E. Wilder-Smith were cited
in this respect. Dr. Williams concluded his 1973 paper with a
discussion of evolution in the light of probability
considerations, showing that evolution, on the basis of these
probability considerations alone, can be shown to be impossible.


A RESEARCH CHALLENGE 


In 1970, Larry Butler, then Chairman of the Research Committee
of the Creation Research Society, issued a research challenge to
creationists in the form of a list of proposed research
projects. (47) These included: 

  (a) experimental demonstration that coal can be formed rapidly
  under catastrophic conditions (This has actually been
  demonstrated since then by a University of Utah scientist - see
  reference 17.); 
  
  (b) experimental formation of fossils under a variety of
  conditions in order to demonstrate that fossilization can take
  place relatively rapidly; 
  
  (c) experimental determination of optimum conditions for rapid
  growth of coral reefs; investigation of caves, mine shafts, and
  tunnels of recent origin (100-200 years) to determine growth
  rates of stalactites and stalagmites; 
  
  (d) anthropological measurements of variations in thickness,
  shape, etc., of contemporary human skulls. 

Other suggested research included: 

  (a) consideration of the thermodynamic effects of the Flood; 
  
  (b) surveys of geological formations from high altitude (40,000
  feet) and interpretations of the broad features revealed within
  the context of Flood geology; 
  
  (c) continuation of Howe's investigation of the effect of
  soaking in sea water on the viability of seeds; 
  
  (d) a reinvestigation of alleged examples of species formation; 
  
  (e) further research to verify the claim that radioactive decay
  of uranium and thorium has actually produced only a minute
  fraction of the helium that should have been produced in 4.5
  billion years. 

Further projects listed were: 

  (a) research to determine the true origin of cultivated plants; 
  
  (b) carbon dating of samples of organic material that is
  supposed to be millions of years old and which should thus be
  devoid of radiocarbon (C-14); 
  
  (c) taxonomic studies in an attempt to determine the limits of
  the "kinds" described in Genesis; 
  
  (d) a formulation of a list of "living fossils," that is, a 
  list of plants and animals once believed to have been extinct 
  for millions of years but now known to be living; 
  
  (e) finally, an investigation of settling rates to, see if
  differential settling by water action, as proposed by Whitcomb
  and Morris (48) can account for the way fossils are distributed
  in the geological formations. 

The list of proposals by Dr. Butler is certainly not exhaustive,
of course. For instance, there is the need for: (a) Dr. Barnes
to continue his fascinating study of the magnetic field of the
earth, (b) a continued need for the search for remains of the
ark on Mount Ararat, (c) further investigations of alleged
overthrusts, (d) research into the processes and procedures used
in radiometric dating, etc. 

Butler nevertheless posed a real challenge to creation
scientists; and he gave some idea of the important need for
creationist research and the possible direction of such
research. As is evident from this review, creationists have not
been idle during the past decade, and readers can expect that
creation scientists will have gained significant insight into
many of the problems posed by Dr. Butler before the end of the
present decade. 


*References*

CRSQ = _Creation Research Society Quarterly_


(1) Creation Research Society is a non-profit organization
incorporated in the State of Michigan. 

(2) Slusher, H. S. 1966. Supposed overthrust in Franklin
Mountains, El Paso, Texas, CRSQ 3(1):59-60. 

(3) Lammerts, W. E. 1966. Overthrust faults of Glacier National
Park, CRSQ 3(1):61-62. 

(4) Burdick, C. L. 1969. The Lewis overthrust, CRSQ 6(2):96-106. 

(5) Burdick, C. L. and H. S. Slusher. 1969. The Empire Mountains
- a thrust fault?, CRSQ 6(1):49-54. 

(6) Lammerts, W. E. 1972. The Glarus overthrust, CRSQ
8(4):251-255. 

(7) Rusch, W. H., Sr. 1971. Human footprints in rocks, CRSQ
7(4):201-213. 

(8) Films for Christ, Route 2, Eden Road, Elmwood, Illinois
61249. 

(9) Meister, W. J., Sr. 1968. Discovery of trilobite fossils in
shod footprints of human in "Trilobite Beds" - a Cambrian
formation, Antelope Springs, Utah, CRSQ 5(3):97-102. 

(10) Burdick, C. L. 1973. Discovery of human skeletons in
Cretaceous formation, CRSQ 10(2):109-110. 

(11) Cousins, F. W. 1966. Fossil man. Evolution Protest
Movement. 110 Havant Road, Stoke, Hayling Island, Hants,
England; and 1557 Arrow Road, Victoria, British Columbia,
Canada. Pp. 47-61. 

(12) Burdick, C. L. 1966. Microflora of the Grand Canyon, CRSQ
3(1):38-50. 

(13) Burdick, C. L. 1972. Progress report on Grand Canyon
palynology, CRSQ 9(1):25-30. 

(14) Rusch, W. H., Sr. 1968. The revelation of palynology, CRSQ
5(3):103-105. 

(15) Burdick, C. L. 1967. Ararat - the mother of mountains, CRSQ
4(1):5-12. 

(16) Coffin, H. G. 1969. Research on the classic Joggins
petrified trees, CRSQ 6(1):35-44. 

(17) Gish, D. T. 1972. Acts and Facts, 1(4):1-4. (Institute for
Creation Research). 1973. Creation: Acts, Facts, Impacts
Creation-Life Publishers, San Diego), pp. 15-19. 

(18) Coffin, H. G. 1974. (in) Challenge to Education II-B. The
Bible-Science Association, Caldwell, Idaho, pp. 36-41. 

(l9) Northrup, B. E. 1969. The Sisquoc diatomite fossil beds,
CRSQ 6(3) : 129-135. 

(20) Peters, W. G. 1971. The cyclical black shales, CRSQ
7(4):193-200. 

(21) Nevins, S. E. 1972. Is the Capitan limestone a fossil
reef?, CRSQ 8(4):231-248. 

(22) Nevins, S. E. 1974. Post-Flood strata of the John Day
Country, Northeastern Oregon, CRSQ 10(4):191-204. 

(23) Barnes, T. G. 1971. Decay of the earth's magnetic moment
and the geochronological implications, CRSQ 8(1):24-29. 

(24) Barnes, T. G. 1972. Young age vs. geologic age for the
earth's magnetic field, CRSQ 9(1): 47-50. 

(25) Barnes, T. G. 1973. Electromagnetics of the earth's field
and evaluation of electric conductivity, current, and joule
heating in the earth's core, CRSQ 9(4):222-230. 

(26) Barnes, T. G. 1973. The origin and destiny of the Earth's
magnetic field. The Institute for Creation Research, San Diego. 

(27) Lammerts, W. E. 1965. Planned induction of commercially
desirable variation in roses by neutron radiation, CRSQ
2(1):39-43. 

(28) Lammerts, W. E. 1967. Mutations reveal the glory of God's
handiwork, CRSQ 4(1):35-41. 

(29) Lammerts, W. E. 1969. Does the science of genetic and
molecular biology really give evidence for evolution?, CRSQ
6(1):5-12. 

(30) Tinkle, W. J. 1971. Pleiotropy: extra cotyledons in the
tomato, CRSQ 8(3):183-185. (See also a relevant article in this
issue.) 

(31) Shaw, R. D. 1972. Why genetic variation between New Guinea
communities (Migration-dispersion model applied), CRSQ
9(3):175-180.

(32) Genesis 11: 1-9. 

(33) Time (April 4, 1969), pp. 48 and 50. 

(34) Wiant, H. V. 1973. Relation of southern pine cone spirals
to the Fibonacci series, CRSQ 9(4):218-219. 

(35) Moore, J. P. 1974. A demonstration of marked species
stability in Enterobacteriaceae, CRSQ 10(4):187-190. 

(36) Lammerts W. E. 1966. The Galapagos Island finches, CRSQ
3(1):73-79. 

(37) Smith, E. N. 1973. Crowding and asexual reproduction of the
planaria, Dugesia dorotocephala, CRSQ 10( 1 ):3-10. 

(38) Lammerts, W. E. and G. F. Howe 1974. Plant succession
studies in relation to micro-evolution, CRSQ 10(4):208-228. 

(39) Howe, G. F. 1968. Seed germination, sea water, and plant
survival in the great Flood, CRSQ 5(3):105-112. 

(40) Klotz, J. W. 1972. Flora and fauna of the Galapagos
Islands, CRSQ 9(1):14-22. 

(41) Frair, W. 1967. Some molecular approaches to taxonomy, CRSQ
4(1):18-22. 

(42) Williams, E. L. 1973. Thermodynamics: a tool for
creationists (Review of recent literature), CRSQ 10(1):38-44. 

(43) Williams, E. L. 1966. Entropy and the solid state, CRSQ
3(3):18-24. 

(44) Williams, E. L. 1969. A simplified explanation of the laws
of thermodynamics, CRSQ 5(4): 138-147. 

(45) Williams, E. L. 1970. Is the universe a thermodynamic
system?, CRSQ 7(1):46-50. 

(46) Williams, E. L. 1971. Resistance of living organisms to the
second law of thermodynamics: Irreversible processes, open
systems, creation, and evolution, CRSQ 8(2):117-126. 

(47) Butler, L. G. 1970. A research challenge, CRSQ 7(2):88-89. 

(48) Whitcomb, J. C. and H. M. Morris 1964. The Genesis Flood.
Presbyterian and Reformed Publishing Co., Philadelphia.


More information about creationist research can be obtained 
by writing to:

              +++++++++++++++++++++++++++++++++
              +   Creation Research Society   +
              +        P.O. Box 969           +
              +    Ashland, OH 44805-0969     +
              +            USA                +
              +  (email: CRSnetwork@aol.com)  +
              +++++++++++++++++++++++++++++++++

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