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Evolution - Beyond the Popular Science 777

Posted by timothy from the not-a-popularity-contest dept.
ny writes: "Patterns and Processes of Vertebrate Evolution is not popular science, but as a broad overview of the processes of evolutionary change it is reasonably accessible to non-specialists. I recommend it to anyone who has read Gould and Dawkins and Ridley and so forth and now wants something more substantial." This sounds like a book to interest anyone interested in current ideas in evolution -- read on below for Danny's complete review.
Patterns and Processes of Vertebrate Evolution
author Robert L. Carroll
pages 448
publisher Cambridge University Press
rating 9
reviewer Danny Yee
ISBN 0-521-47809-X
summary An uncompromising but accessable overview of modern evolutionary theory.

In Patterns and Processes of Vertebrate Evolution Carroll undertook an ambitious project - nothing less than to update George Gaylord Simpson's classic works from the 1940s and 50s, Tempo and Mode in Evolution and The Major Features of Evolution. The result is a "broad picture" overview of the processes of evolutionary change, centred on paleontology but attempting to integrate that with the rest of biology. Patterns and Processes is aimed at students of paleontology and specialists in that and related fields, but it should also be considered by general readers: while it goes into quite involved details, they are always used to illustrate broader ideas and there is solid motivation for persevering with them. It is especially recommended to those unhappy with the lack of substance in popular debates over the theory of punctuated equilibrium, which Carroll critically appraises. Patterns and Processes is effectively illustrated with line-drawings and figures and has a useful glossary.

Carroll begins with an overview of current problems in evolutionary theory and in particular of the "gap" between short- and long-term processes in evolution, and between paleontology and other disciplines. He also discusses the choice of the vertebrates as a testing ground (which is picked up at the end of the book in a brief comparison with invertebrate metazoa, prokaryotes, protists, and vascular plants). He then provides an overview of theories of evolution, at the level of populations and species, from Darwin through Dobzhansky and Mayr to Gould and Eldredge.

Two chapters present some essential background. The first looks at evolution in modern populations, in particular at rates of evolution among the Galapagos island finches, where significant directional change does occur and doesn't appear to be correlated with speciation. The second considers some of the limitations of fossil evidence, the irregularity of fossilization and other stratigraphic issues and problems with the dating of events and processes and the measurement of rates of evolution.

Next come two case studies. The rates and directions of change among late Cenozoic mammals are examined with an eye to testing theories of punctuated equilibrium and species selection. Many lineages exhibit stasis "of particular characters and character complexes," but in none is there stasis of all characters and phyletic evolution is common. And "no major trends involving a complex of character changes can be demonstrated as having resulted from species selection." In contrast, the rapid radiation of the cichlid fish of the East African Great Lakes provides some evidence for species level evolution, and a bridge between macroevolution and microevolution.

Four separate chapters focus on related disciplines, in an attempt to reunify different fields. Taxonomy influences our basic concepts of evolutionary patterns as well as providing tools for discovering them; phylogenetic systematics (cladistics) has been particular influential, offering "an objective way to compare patterns of large-scale evolution from group to group and within groups over time" and forcing reconsideration of traditional naming schemes in the vertebrates. With evolutionary genetics Carroll presents some basic models, focusing on quantitative traits; he touches on the enigma of low selection coefficients and on genetic constraints.

Turning to developmental biology, Carroll surveys heterochrony, homeobox and Hox genes, and the phylotypic stage. He then applies this to the origin of craniates and skull and axial skeleton development, but above all to tetrapod limbs, to their origins, developmental processes, morphogenesis, and evolution. He also considers the integration of developmental biology with the evolutionary synthesis and its possible connections with macroevolution. Other constraints are imposed by physics: Carroll considers vertebrate locomotion in water, in the air, and on land, and touches on membrane transport, heat transfer, and size scaling.

Three chapters then look at large scale structure and patterns in evolution. A chapter on "major transitions" focuses on movements between environments: the most detailed study is of the origin of birds, but others cover the origins of terrestrial vertebrates, mosasaurs, and whales. Critical periods saw rates of change exceeding those in ancestral and descendant groups, but not those observed in modern populations; more importantly, directions of change were sustained for long periods. Turning to radiations, Carroll treats at length the Cambrian explosion and the radiation of early Cenozoic mammals: occurring in intervals of 10 million years or less; these differ from other, slower radiations into already occupied environments and "can certainly be attributed to factors that were not considered by Darwin". At the largest scales, vertebrate evolution has been irregular, driven by "forces" that can't be extrapolated from those operating at the level of populations and species: among them sustained evolutionary trends, continental drift, and mass extinctions.

Among Carroll's overall conclusions:

"Evolutionary forces that can be studied in modern populations are sufficiently powerful to account for the amount and rate of morphological change throughout the entire course of vertebrate history."

and

"Transitions between environments governed by major differences in physical constraints do not necessarily require special evolutionary processes."

but at the same time

"Large-scale patterns of evolution cannot be fully explained by processes that are directly observable at the level of modern populations and species.

... the patterns, rates, and controlling forces of evolution are much more varied than had been conceived by either Darwin or Simpson."

And macroevolution is essentially historical, with each major event "unique and worthy of detailed study in its own right".

Patterns and Processes in Vertebrate Evolution combines clear exposition of details - and what appears to be an encyclopedic knowledge of vertebrate history - with a willingness to tackle big questions. Sometimes Carroll seems to take both sides of debates, but that is a reflection of respect for complexity, not of unengaged fence-sitting. The result is a useful overview for students or outsiders; it also seems to have established itself as a minor classic within the field.

You might want to purchase Patterns and Processes in Vertebrate Evolution from bn.com or read some of Danny's other evolution book reviews. Slashdot welcomes readers' book reviews -- to see your own review here, read the book review guidelines, then visit the submission page.
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Evolution - Beyond the Popular Science More

Evolution - Beyond the Popular Science

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  • Yesterday I found out my boss is a devout 7-day creationist. I myself am an athiest, but I did not admit this to her for fear of my job :P Anyway we entered a heated discussion about the origins of the universe, and frankly I provided more evidence through the big bang theory and our information about human vs. ape genetics that she simply back into the "faith" arguement. This article will give me the fodder I need to lay her flat on her ass the next time discussion of such things comes up. Thanks slashdot!

    • Re:All things considered (Score:4, Insightful)

      by OwnedByTwoCats ( 124103 ) on Friday August 23, 2002 @12:05PM (#4126882)
      You cannot reason someone out of a position that they did not reason themself into.
    • Sounds like you are both firmly convinced of your respective religious belief systems ;)

      However, if she is a YEC then the strongest arguement against a young earth is the obvious age of the earth as demonstrated by geology.

      For myself Angular Unconformities are the best example fo a common geologic feature that requires an earth older then 6 to 10k years. For example here is a picture I took recently in Yellowstone NP of a fine speciman [sammcgees.com] of a unconfromity. Angular unconformities occur when the strata are tilted with respect to each other, rather than lying horizontally one on top of the other. This is generally caused by tectonic processes tilting the lower layers before the higher layers were deposited. This requires:

      Deposition

      Lithification (hardening to rock)

      Tilting

      Erosion

      Deposition

      These processes take time and is difficult to ascribe to a 40 day flood.

      For the above example in Yellowstone (Mt Everts next to Mammoth hot springs) there are thousands of feet of Jurassic age sendiments with fossils. The layer on top is volcanic tuff that also appears to be tilted so add one more tilting step to the above processes. I have seen examples where the lower layer is tilted vertical making a T shaped unconformity.

      • Oh and while I am at it another hard one for the YEC theory to expain is sandwiched layers of basalt.

        For example, here is a picture of two layers of lava flows [sammcgees.com] separated by depositional layers. So I ask which layer is the "Flood" layer? The answer I have received so far is that all the depositional layers are flood layers.

  • Evolution, Explanation, and Prediction (Score:3, Interesting)

    by patiwat ( 126496 ) on Friday August 23, 2002 @11:17AM (#4126484)
    The theory of evolution has often been cited in the literature of the philosophy of science as a theory that explains, but can not predict. The idea that a emperically verifiable theory can not make firm predictions about a system often confuses people who are grounded on physics or other "mechanistic" sciences.

    For example, evolution can explain what is happening in a system of living beings in a certain environment, and can can explain the changes in the population given shocks, but predicting the precise pattern of changes occuring within the population is impossible. In terms of pure theory, this has been one of the stumbling blocks to an otherwise beautiful idea.
    • For example, evolution can explain what is happening in a system of living beings in a certain environment, and can can explain the changes in the population given shocks, but predicting the precise pattern of changes occuring within the population is impossible. In terms of pure theory, this has been one of the stumbling blocks to an otherwise beautiful idea.

      Is this really a problem? As much as we'd like to think, we can't calculate/predict everything exactly, without perfect knolwedge of all inital conditions. Our understanding of weather patterns is quite good as is our ability to explain why current weather patterns exist (ie why it is raining today, why it is windy, etc). It is also impossible to (accurately) predict weather one month in the future. A stumbling block in meteorology? No, just the nature of reality.

      SammyJ

      I'd rather be rich than stupid.
      -Jack Handy

    • Re:Evolution, Explanation, and Prediction (Score:4, Informative)

      by tgibbs ( 83782 ) on Friday August 23, 2002 @11:30AM (#4126593)
      The idea that a emperically verifiable theory can not make firm predictions about a system often confuses people who are grounded on physics or other "mechanistic" sciences.
      It shouldn't confuse anybody familiar with quantum mechanics, where often the only predictions that can be made about individual particles are statistical in nature. Much the same is true of evolutionary theory.

    • If you search for texts by adaptionists, you will find explanations of how a theory of evolution will predict that we find adaptions that have ocourred. The prediction of discovering emperical evidence that is in accordance with the theory is similar to predictions made by General Relativity that are also investigated and confirmed experimentally. Thus, I would disagree with the statement that evolutionary theory cannot predict. It does. I believe I ran accross more of this in Darwin's Dangerous Idea by Daniel Dennett, or maybe it was some other Dennett book in which he discusses such claims from a philosophical position.

      Additionally, one of the simplest predictions is that we can predict that careless treatment of bacterial disease with antibiotics will breed bacteria resistant to that treatment. This is simply a matter of applying selection pressures to the population and then witnessing the evolution of it.

      Those unable make predictions based on evolutionary theory may need to try harder to find the right type of predictions.
    • To some extent, though, the theory of evolution can predict some things. When I heard about corn genetically modified to be laced with Bt, a natural insecticide, I thought that it was a boneheaded idea. Insects would, through, natural selection and small-scale evolution, adapt to the presence of the Bt.

      Turns out I was right. In about 5 years, the Bt in the corn isn't worth squat. And anybody who knows a bit about insects adapting to poisons (think of cockroaches as an extreme example) could have predicted it as well.

    • Re:Evolution, Explanation, and Prediction (Score:4, Informative)

      by The Other Dan ( 30260 ) on Friday August 23, 2002 @11:45AM (#4126713)
      Determing the precise pattern of changes is impossible for the same reasons that determing the precise patterns of earthquakes is: we are dealing with very complex systems subject to some random variation. There are two issues here: one is the issue of randomness, which we are never going to get around. Genetic drift, due to the random sampling of alleles in each generation, is a fundemental evolutionary process and means that the best we can hope to do is provide bounds on our uncertaintiy of a prediction. This is no different than any other science.

      The second issue is complexity- both organisms and the environment are phenomenally complex. In order to predict evolutionary change, we would need to know exactly how the environment will change. Ecologists have worked on this for the last 100 years, and while they have made great progress, we are along way from knowing for certain (and probably never will be all the way there.)

      Finally, to predict evolutionary change, we would need know why specific variants have their respective fitnesses in various environments. If we knew this, then we would truly understand why natural selection has operated the way it has. Many people are working (slowly) towards a predictive theory of evolution. For example, my lab [sunysb.edu] has shown that we can predict fitness of E. coli in simple environments based on our understanding of metabolism [nih.gov] .

      So yes, evolution does differ from some sciences (like chemistry) in that is deals with historical explanation. (In shares this with astronomy and geology.) But many of us are also concerned with prediction.

      • My apologies for over-simplifying the contraversial field of the philosophy of science (See http://philsci-archive.pitt.edu/ [pitt.edu]for some great readings).

        But I stand behind my wariness about the strength of evolution as a scientific theory. Sure, it can explain, and yes, it can be tested by observation and experement. And, to limits of complexity and the state of the art, it can predict. It is certainly more beautiful and more pragmatic than creationism.

        But to what extent is the modern theory of natural selection falsifiable? What would a legitimate scientist (not some creationist quack) have to do in order to show that modern evolution theory is fundamentally wrong? BTW, these are legit, not metaphorical, questions. I'd really like to know!
        • It seems like we are running up against the issue of "how do you make generalizations about nature?" In otherwords, we have many studies which demonstrat that natural selection shapes the properties of organisms, but how often (or maybe better, under what conditions) is natural selection (as opposed to say genetic drift) responsible for the change of populations? If this is what you speak of, I guess I agree that it is not strictly falsifiable in Popperian sense- that just isn't a totally resonable way of insiting we learn about the world.

          For example, the field of molecular evolution spent a great deal of time in the 70s and 80s arguing about whether most genetic varation at the level of protiens was selectivly neutral or affected fitness. In the end, the deabte fizzled out unresolved, I think becuase people decided that the interesting question is "Under what circumstances is genetic variation neutral, and when is it selective."

          So what we have to do is try to come up with a general description of how things work. If we find an exception, then the question is how often does it work that way. A single experiment which seems to go against modern theory is likely to be thought of as an oddity until it can be shown to be a general phenomenon, or until we can connect the mecanisms which cause it and other (dis)simmilar events. And then, assuming uniformitarianism (like all historical sciences) apply these princples back in time.

          Does that help, or have I just confused the issue?

  • With all of this talk about order and Disorder, perhaps someone should attempt to define order or disorder, without being circular in their definitions.

    • Re:Define order, Define disorder (Score:5, Informative)

      by Fiver-rah ( 564801 ) <[slashdot] [at] [qiken.org]> on Friday August 23, 2002 @11:42AM (#4126696) Homepage Journal
      perhaps someone should attempt to define order or disorder, without being circular in their definitions.

      Someone did. His name was Boltzmann. The more ordered a system is, the fewer microstates available to it. What does that mean? Well, a macroscopic example is this: imagine you have a bunch of books you're putting on a shelf. There's only one way to put the books alphabetically (assuming you have no duplicate copies). But there's a really large number of ways to put them on if you put them every which way. So let's compare the order of two systems. Our first system is our books on the shelf, restricted to alphabetical ordering. The second is our books on the shelf. The first system has only one way it can be arranged; the second (assuming we have more than one book) has more. So the first system is more ordered.

      This is a little simplistic, but it gets the point across.

      Trust me, entropy really is a well-defined concept. Or don't trust me; read for yourself.

      • Actually, entropy is a thermodynamic concept and really doesn't have any meaning when you apply it to books or lists that are sorted/unsorted. It's really an easy mistake to make, so easy that these sorts of examples are actually used in the classroom.

        Believe me, the entropy of your bedroom is the unchanged regardless of how many socks and T-shirts you have lying on the floor vs. folded neatly in the dresser.

  • definitions of species (Score:4, Interesting)

    by Alien54 ( 180860 ) on Friday August 23, 2002 @11:34AM (#4126629) Journal
    There has been a lack of clarity and precision in the definition of individual species. For example, in certain bears, and other wide ranging creatures, you get variations that lead some scientists to classify two different animals as different species, when in fact they could crossbreed with viable young.

    As an example closer to home take a look at common dogs. I can bet that some biologist in the far future (say 100 million years from now) is going to find all of these dog fossils, especially in pet cemetaries, etc. and conclude that these were all different species of animal. A chihauhau vs a Saint Bernard? the same species? come on now.... ;-)

    This loose grey zone is probably part of the problem. and I can see them trying desperately trying to find the intermediate forms in the fossil record. They will have just "mysteriously appeared"

    • that's the problem that DNA solves - it provides a scientific approach to the data that creates the physical "composition" of life. Humans were breeding animals for different characteristics for thousands of years before they knew exactly what caused the characteristics to come out.

    • Re:definitions of species (Score:4, Insightful)

      by LMCBoy ( 185365 ) on Friday August 23, 2002 @11:53AM (#4126772) Homepage Journal
      The entire concept of a "species" is the problem; the "loose grey zone" is the reality.

      We classify organisms into species in order to make some sense of what we observe, but we should always keep in mind that the classification is artificially imposed, and somewhat arbitrary. The fossil record of any group of related organisms shows discrete snapshots of a continuous variation through time and geography (punctuated equilibrium does not refute this, it just says that the rate of evolution is not constant).

      The species model describes evolutionary change as "creatures evolving from species A to species B to species C", with the implicit understanding that these are just arbitrary markers along the continuous evolutionary path, not coincidentally placed where there are well-preserved examples in the (incomplete) fossil record.

      Unfortunately, this implicit understanding doesn't really get through to popular understanding of evolution; hence the many heated debates about speciation and how to tell when it occurs, when in fact speciation is not a real phenomenon at all, but a classification tool.
    • But can a chihauhau interbreed with a saint bernard ? If the chihauhau was the bitch it would look like the saint bernard was playing with a hand[..] puppet. The other way round would look pretty darn silly too.. "take it all, bitch". Oh well, it's Friday...
    • That has never been the scientist's definition of species. The definition of species is not, "A group of animals that can interbreed and produce viable offspring."

      The definition of species is, and always has been, "A group of animals that can and do produce viable offspring."

      If this seems vague to you, good! The definition of species *is* vague. It has to be. "Species" is a concept that humans invented to help them describe the world around them. Very very often, it doesn't work. There's no way to change it so that it will work.

    • Re:definitions of species (Score:4, Informative)

      by !splut ( 512711 ) <sputNO@SPAMalum.rpi.edu> on Friday August 23, 2002 @12:55PM (#4127320) Journal
      The delineation of species boundaries necessarily takes into consideration more than the ability to interbreed and produce viable offspring. Indeed, the taxonomic definition of the "species" classification is very plastic, and differs with the groups of organisms considered.

      The advent of the use of genetic markers for classification provides some greater degree of accuracy and standardization in the process, but it does not eliminate the inherant flexibility in the definition. (From a bioinformatic standpoint, there is a whole other set of problems with trying to accurately portray evolutionary distances from genetic variation.)

      Consider a group of animals with a continuous distribution over a very large area. All the members of this population are capable of interbreeding, and the uninterrupted distribution allows for genetic drift throughout the entire population. Individuals from different geographic regions will have subtly different physical characteristics, but the whole population is still considered a single species. This is a fairly classic situation. (The benefit of a large gene pool likely outweights the benifit of these subspecies differentiating into wholly different species, if you want to look at it that way.)

      Then, consider a group of animals with a discontinuous distributuion over a large range. Individual populations may be able to interbreed with one another, but there is no natural genetic exchange among these separate populations. Subtle differences between the groups may, in this case, warrent classification as separate species, because they represent different gene pools drifting in different directions.

      The complexity of the issue compounds when one looks outside the animal kingdom. For instance, essentially the entire family or orchids, with some 1000 genera and 20,000 species, exhibits a high degree of genetic plasticity, with species readily hybridizing across genera. And again, the definition of "species" must be reevaluated when one considers the bacterial world.

      Anyway, the point of all this is to show that the grey zone is there for a reason. The alternative is to explicity redefine taxonomic criteria for every different group of organisms, which defeats the entire purpose of a single classification system.

  • The Rise of Evolution Fraud (Score:2, Interesting)

    by Anonymous Coward
    For an opposing viewpoint, I highly recommend The Rise of Evolution Fraud [surf3.net] ISBN 095 0604224.

    Evolution is always promoted as being founded on scientific facts that were collected by Darwin, and this was why it gradually gained acceptance in the universities, schools etc. This book demonstrates that it was promoted for many years before Darwin, his Origin of Species only appearing at the right time.

    The ground work for the acceptance of evolution was laid by Charles Lyell in his Principles of Geology. He quickly befriended Darwin when he returned from the Beagle voyage and the circumstantial evidence is that it was he who suggested to Darwin he should write about evolution. Darwin had no thought of it before then.

    Throughout the famous Beagle voyage, Darwin was far more interested in geology than biology. He did NOT think of evolution whilst visiting the Galapagos and seeing the various beaks of the finches. This was pointed out to him by the ornithologist entrusted with his collection AFTER he had returned to England. He made many such (false) claims in his "biography" which he wrote late in his life.

    • Creationists seem to think that evolutionists in some way hold to Darwin. They do not. They care about the theory itself, not about the bearded fellow who came up with it. Don't think of Darwin as our Jebus.

    • Darwin's contribution. (Score:2, Informative)

      by AlecC ( 512609 )
      Darwin certainly did not claim to have discovered evolution. The evidence for evolution of some sort was accepted by a large number (though far from all) scientists and interested people for some time before Darwin - amongst them, Darwin's Grandfather, Josiah Wedgewood, so the idea was far from new.

      What Darwin did was find an explanation for evolution - a mechanism by which it occurred. Undoubtedly Lyell believed in, and pointed out to Darwin, the operation of evolution. And the ornithologist certainly pointed that all the finches he had brought back (and carelessly jumbled up) appeared to be descended from a singel ancestor. His book is titled "On The Origin of Species by Means of Natural Selection, or The Preservation of Favoured Races in the Struggle for Life", and it is the "Means of natural Selection" bit that is original.

      To assert that Darwin claimed to have discovered Evolution is like claiming that Columbus discovered the Atlantic. Columbnus dicovered how to cross the atlantic, and Darwin discovered hopw to explain Evolution.

  • Why Fundamentalist "Christians" Care (Score:4, Insightful)

    by Tyrone Slothrop ( 522703 ) on Friday August 23, 2002 @12:07PM (#4126893)
    They don't care about evolution but what it implies, which is, according to them, a weakening in the requirement to believe in god.

    Without god, there are no moral absolutes, goes the argument. And without moral absolutes, why, what's to prevent all sorts of immorality?

    Therefore, attempts to debate the theory of evolution with "christian" fundamentalists, or their fellow travelers, is pointless, because you are challenging their entire world view, not objectively evaluating competing scientific theories.

    FWIW, almost all thinking non-fundamentalist Christians, as do most educated people regardless of religious belief/nonbelief, realize evolution is a scientific reality.

    And we, the vast majority, further realize that evolution doesn't imply anything about morality, or the existence of god, one way or the other.

    And therefore there is no reason to waste time in high school science classes teaching theories like creationism that are neither theologically nor scientifically interesting.

    • [quote] FWIW, almost all thinking non-fundamentalist Christians, as do most educated people regardless of religious belief/nonbelief, realize evolution is a scientific reality. [/quote]

      I know it's nitpicky but evolution is a scientific "possibility". It is still regarded as a theory after all. And I know this non-fundamental Christian believes God could have used evolution to create us.

      I would say it's the most likely theory. Ahead of the "we came from another world" theories for certain. But "scientific fact" which was actually "scientific theory" has been proven wrong so many times in the past. And we laugh at those "scientists" of the past and wonder HOW they could have been so stupid but yet we repeat that mistake ourselves.

      • Theory != Some vague possibility (Score:5, Informative)

        by FreeUser ( 11483 ) on Friday August 23, 2002 @12:48PM (#4127257)
        I know it's nitpicky but evolution is a scientific "possibility". It is still regarded as a theory after all.

        All things short of a methematical 'proof' in science is theory, including gravitation and even cause-and-effect itself. The word 'theory' in science has an entirely different connotation to what it has in common parlence, and in particular to the way you use it here.

        In the American vernacular, "theory" often means "imperfect fact" - part of a hierarchy of confidence running downhill from fact to theory to hypothesis to guess.

        Well evolution is a theory. It is also a fact. And facts and theories are different things, not rungs in a hierarchy of increasing certainty. Facts are the world's data. Theories are structures of ideas that explain and interpret facts. Facts don't go away when scientists debate rival theories to explain them. Einstein's theory of gravitation replaced Newton's in this century, but apples didn't suspend themselves in midair, pending the outcome. And humans evolved from ape-like ancestors whether they did so by Darwin's proposed mechanism or by some other yet to be discovered.

        In science "fact" can only mean "confirmed to such a degree that it would be perverse to withhold provisional consent." I suppose that apples might start to rise tomorrow, but the possibility does not merit equal time in physics classrooms.

        Evolutionists have been very clear about this distinction of fact and theory from the very beginning, if only because we have always acknowledged how far we are from completely understanding the mechanisms (theory) by which evolution (fact) occurred.

        -- Stephen J. Gould, "Evolution as Fact and Theory"; Discover, May 1981

        What you are equating evolution with is a hypothesis, not a theory, and the two are very different. Or, put another way,

        A few words need to be said about the "theory of evolution," which most people take to mean the proposition that organisms have evolved from common ancestors. In everyday speech, "theory" often means a hypothesis or even a mere speculation. But in science, "theory" means "a statement of what are held to be the general laws, principles, or causes of something known or observed", as the Oxford English Dictionary defines it.
        [-- Douglas J. Futuyma]

        The theory is not did evolution happen. We already know evolution did and does happen, there is a mountain of factual data underscoring that point. What is theoretical and debated (by scientists) is what the mechanism is by which primates became human and dinasaurs became birds. The fact that it happened is denied only by those with a religious agenda, whose fragile beliefs are challenged by the factual data collected by thousands of researches all over the face of the planet.

        And I know this non-fundamental Christian believes God could have used evolution to create us.

        And I know this Athiest believes aliens could have seeded the Earth with proto-human life, but until I see some sensible evidence indicating that such might be the case, I'm not going to pay the notion much heed.
      • I know it's nitpicky but evolution is a scientific "possibility". It is still regarded as a theory after all

        No it is not. Evolution is accepted as fact by any scientist who subscribes to the scientific method. There are mountains of evidence to back it, no counterexamples to it, and speciation has been directly observed through rigorous experiment. It's as much theory as the "germ theory of disease" or the "theory of relativity".

        I could post a link, but just google for talk.origins FAQ and do some reading.
      • I know it's nitpicky but evolution is a scientific "possibility". It is still regarded as a theory after all.

        Evolution is a fact - it has been observed to happen, which cannot be disputed. HOW it happens is the theory of evolution by natural selection.

        BTW, a theory in science isn't anything like the commonplace notion of a theory. Theories aren't haphazard guesses, they are fully supported by fact and represent the most powerful explanation that we can devise.

        Example: The theory of gravity is "only" a theory, but does anyone go around saying that it's hardly proven to exist?

    • Re:Why Fundamentalist "Christians" Care (Score:4, Insightful)

      by SN74S181 ( 581549 ) on Friday August 23, 2002 @12:35PM (#4127110)
      It's quite possible to believe that God created the universe that evolution is one part of.

      In fact, 'creationists' would build a stronger basis for their faith if they'd just acknowledge this truth. Clinging to their literal interpretation of scripture is vain, even blasphemous.

      • You have to realize that undermining the Creation myth does undermine something that is fundamental to the Christian faith. If you toss out Adam and Eve then nobody ate the apple and there is no original sin. Without sin there is no need for Christ. Christians have to hold on to the creation myth in order to validate the doctrine of salvation, which is central to their religion.

  • read Not By Chance! (Score:3, Interesting)

    by RussP ( 247375 ) on Friday August 23, 2002 @12:31PM (#4127076) Homepage
    For all you fools out there who think evolution is a proven fact, please read a book called Not By Chance! by Lee Spetner, an information theorist from MIT who has studied evolution on the side since the 1960's. He proves rigorously that Neo-Carwinian evolution could not have happened -- or rather is about as unlikely as tossing 10,000,000 coins at random and having them all come up heads (yes, that is "possible", I guess).

    On second thought, don't bother. Your mind is made up and you wouldn't want to be confused with the facts. And Spetner offers no religious alternative, so you cannot attack him as a religious fanatic, so what strawman argument will you fall back on instead?

    Just for the record, I do not personally believe in "creation science", nor do I think that science can explain how "creation" occurred, but I am amazed at how completely fooled Slashdot readers are by the completely discredited neo-Darwinian theory of evolution. If Darwin were here, I think he'd slap you all upside the head.

    RussP.org

    • Re:read Not By Chance! (Score:5, Interesting)

      by tgibbs ( 83782 ) on Friday August 23, 2002 @12:54PM (#4127311)
      He proves rigorously that Neo-Carwinian evolution could not have happened -- or rather is about as unlikely as tossing 10,000,000 coins at random and having them all come up heads (yes, that is "possible", I guess).


      Let's say I toss 10,000,000 coins, and make a careful record of the sequence of heads and tails. Now, I calculate the probability of that exact sequence, and discover that it is exactly as low as the probability of having them all come up heads. Have I proved that the coins are weighted? Or influenced by God? No, because every sequence of coins has exactly the same very low probability, but nevertheless one of them has to come up. This is the falacy of calcuating probabilities backwards. Every attempt I've seen to calculate the probability of evolution falls into that same basic error.



      Remember, also, that natural selection is not a random process, even though it has random elements. For example, it is possible to use an evolutionary simulation to solve an equation, even when there is only one possible solution--and it is far more efficient than trying to guess the answer randomly.

    • But evolution is a fact. It has been observed both in nature and in the laboratory. There really is no question about it.

      Also, you're getting the algorithm wrong for how evolution works. It's not random like flipping a coin at all. Think of how you play the game mastermind - you don't make random plays until you get it, you keep what's good and change what's wrong. A good player can win the game in a very low number of moves.

  • Is it just Evolution Vs. Christianity (Score:3, Interesting)

    by teetam ( 584150 ) on Friday August 23, 2002 @01:01PM (#4127375) Homepage
    I have been reading these arguments about evolution for quite some time on /. and other such fora. It is interesting to note that these discussions often descend into Evolution as a science versus Christianity as a religion.

    That is kinda strange as all religions believe in creationism. However, people of most other religions seem to realize the distinction between faith-based religious beliefs and scientific facts like evolution. Also, this debate seems to be the hottest in America alone. Why is that?

    I don't want to hurt anyone's sensibilities, but history is filled with instances of the Christian church condemning the scientific world and trying to regulate what the scientists say.

    I am interested in knowing the views of all you calm people out there as to why evolution is so vigorously attacked by America's religious Christians alone and not so much by other religions/countries?

    • I am interested in knowing the views of all you calm people out there as to why evolution is so vigorously attacked by America's religious Christians alone and not so much by other religions/countries?

      This is an interesting question. First, though, I would like to point out that it is not only Christians, and not only in America, that evolution is attacked by religious fundamentalists on religious grounds. This does happen in many countries, and typically by many religions. That being said, your point is well taken, that it is mostly Christians, and definitely mostly in the United States, where religious attacks on evolution are prevalent.

      One factor which contributes to this, in my mind, is America's notion of egalitarianism. (Ironically, possibly) There is a notion which I have only seen held by Americans which goes something along the lines of "Everyone's opinion is as good as anyone else's, so to hell with the experts, our opinion needs to be part of the debate". So what's the connection? I think the connection is that a lot of Americans, no matter what their level of education, feel competent to speak on scientific matters. As one might imagine, this typically leads to a lot of expressed opinions which are, to say the least, ill-informed. This is in contrast to other countries, where this attitude of "everyone's opinion is equal" seems much less prevalent. (I grant that I don't have much data to back up the above, so you can fairly categorize it as anecdotal.) What this leads to is that people ignore the experts' opinions on (say) evolution, and think that whatever they feel is a convincing argument for (say) creationism is as good as what the scientific community thinks. This is, IMHO, a specifically American trait, and this is why you see this manifested so much in the US.

      ----Now, don't get me wrong. As an American, I think that usually, this egalitarianism is a great thing. It leads us to have what is probably the closest thing to a meritocracy as is possible in 2002, and I think that is a Good Thing. Just sometimes, it causes a little trouble.----

      Another thing which I think contributes is that Americans are more distrustful of centralized authority than any group of people I can think of. Americans don't believe anything the government says. Conspiracy theories are a staple of American culture. Now, there are other countries which have a CT subculture (France and India do come to mind), but in the US, CT is completely mainstream. I'm reminded of this article [slashdot.org] just recently on /. Anyway, I think that this massive distrust of authority leads to more belief in creationism (and further many other types of pseudoscience). Anything which the Scientific Establishment tells us, but is obvious wrong just by common sense, must be wrong, right?

      A third factor is that many people of my parents' generation (just pre-Baby Boom), and most people of my grandparents' generation, were taught creationism in school. Neither of my parents were taught anything but lip-service concerning evolution, and were explicitly told by their science teachers that evolution was wrong. (I have in my mind's eye a teacher saying "Well, the damnyankees made us put this in the book, but...") Ok, perhaps this is in the South and not over the rest of the country, but this definitely plays a role. I mean, I admit that I have trouble thinking of Kazakhstan as a country (or, hell, even Germany) because it wasn't around when I was in grammar school. I mean, I'm up to date only on the things which I do. Certainly nonscientists will not hear anything about the evolution vs. creationism debate after they finish their eduction, so whatever they heard as kids sticks. Now, I don't have any idea what kids in other countries were taught 40 years ago, so this may or may not be a factor. It will also be interesting to see whether or not these people will be common in my age group in 30 years or so.

      All in all, I could be completely wrong and none of the above plays a role, but it does sound right. And it is an intruiging question: Why American Christians have this one issue, and rarely any other type of religous person makes a big deal out of it. For myself, I am both a practicing religious person and a working mathematician, and I see no conflict between my faith and the scientific method.

      Another very interesting question which I have posed many times in my life, but never found a reasonable answer to is, essentially, Why do people find a conflict between their faith and science? In the context of this discussion, why do creationists feel a need to discredit the scientific community on the subject of evolution? This is something which seems like a complete waste of energy to me.

      One who has faith could say

      1. I believe that there is no conflict between faith and science,
      2. I believe (say) in the Bible literally, and all of this science is crap, so to hell with you scientists, or even
      3. science is ok when it comes to engineering and rocketships, but I don't believe it has anything useful to say about the origins of man, so I will ignore science and listen to the Bible on this score.
      All of these positions seem reasonable (at least philosophically) to me, even though I strongly disagree with the last two. But another alternative, which I have seen a lot and completely bewilders me, is that creationists try to debunk evolution, typically using a combination of both scientific and biblical arguments, and sometimes just scientific. This is analogous to the people who try to use archaeology to "prove" that Noah had an ark with all of these animals in it. First, this proposition strikes me as philosophically absurd, but more importantly, completely useless. Let's say that you prove that there really was a dude named Noah, he really did have an Ark, and it had all these animals on it. So what? Will that make me believe more in the Ten Commandments, or the Five Pillars of Islam, or whatever? I can't imagine that it would, and I can't understand people who think it would. For example, let's say that someone convinces me that the scientists are all wrong on evolution. This will cause me to believe in Jesus?

      I have just never understood this fourth position, since it seems like a complete waste of time. It's also philosophically sort of weird, since people are trying to use scientific arguments to prove the Bible is truth word-for-word. This seems, at least, ironic.

      Well, anyway, just my 2 cents, and I hope the content justified the length.

  • Of all the topics that come up regularly on Slashdot, this is certainly the least productive. I doubt that anyone is interested in hearing anything other than their own comfortable beliefs. For those that don't mind being challenged, here is a discussion from a radio program called The White Horse Inn [alliancenet.org] entitled "How Can I Believe in Creation when Evolution is a Scientific Fact?" [rbn.com] I expect it should make everyone unhappy, but perhaps it will make some on this forum rethink their positions - at least about Christians if not on the evolution/creation debate.

    For those who might be interested in the differences between the various creation theories in the Christian community, there is also part 1 [rbn.com] and part 2 [rbn.com] of a debate on the subject.

    All three are RealAudio, about 25 minutes long.

  • Raising a good question: introductory texts? (Score:4, Interesting)

    by hyacinthus ( 225989 ) on Friday August 23, 2002 @01:51PM (#4127830)
    I hate to intrude into the creationism vs. evolution debates which seem to be dominating this discussion, but I actually have a _different_ question. We all know that high school and perhaps introductory college texts on general biology have often become seriously watered down and error-ridden. Stephen Jay Gould wrote one amusing essay on how a particular error (something to do with _Eohippus_, which isn't named _Eohippus_ anymore I guess, but I like the old name) has propagated itself, unchecked, from text to text.

    Frankly I don't trust many high school or freshman level textbooks in _any_ subject. So I'd like to know: can anyone recommend a scholarly, well-referenced textbook, aimed about about the twelfth-grade level, in biology, in particular one which does a good job of covering evolution? Any particular authors and titles stand out? Any good resources to reviews and critiques of popular science textbooks?

    The popular works have their place, but they're all deficient in some way. Gould is too scattershot--he's an essayist, really--and Dawkins is too polemical (frankly I think Dawkins has become an unmitigated jackass in recent years, and I'm not a creationist.)

    hyacinthus.

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