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The Edge of Evolution: The Search for the Limits of Darwinism
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The Edge of Evolution: The Search for the Limits of Darwinism

4.6 16
by Michael J. Behe

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When Michael J. Behe's first book, Darwin's Black Box, was published in 1996, it launched the intelligent design movement. Critics howled, yet hundreds of thousands of readers -- and a growing number of scientists -- were intrigued by Behe's claim that Darwinism could not explain the complex machinery of the cell.

Now, in his long-awaited follow-up, Behe


When Michael J. Behe's first book, Darwin's Black Box, was published in 1996, it launched the intelligent design movement. Critics howled, yet hundreds of thousands of readers -- and a growing number of scientists -- were intrigued by Behe's claim that Darwinism could not explain the complex machinery of the cell.

Now, in his long-awaited follow-up, Behe presents far more than a challenge to Darwinism: He presents the evidence of the genetics revolution -- the first direct evidence of nature's mutational pathways -- to radically redefine the debate about Darwinism.

How much of life does Darwin's theory explain? Most scientists believe it accounts for everything from the machinery of the cell to the history of life on earth. Darwin's ideas have been applied to law, culture, and politics.

But Darwin's theory has been proven only in one sense: There is little question that all species on earth descended from a common ancestor. Overwhelming anatomical, genetic, and fossil evidence exists for that claim. But the crucial question remains: How did it happen? Darwin's proposed mechanism -- random mutation and natural selection -- has been accepted largely as a matter of faith and deduction or, at best, circumstantial evidence. Only now, thanks to genetics, does science allow us to seek direct evidence. The genomes of many organisms have been sequenced, and the machinery of the cell has been analyzed in great detail. The evolutionary responses of microorganisms to antibiotics and humans to parasitic infections have been traced over tens of thousands of generations.

As a result, for the first time in history Darwin's theory can be rigorously evaluated. The results are shocking. Although it can explain marginal changes in evolutionary history, random mutation and natural selection explain very little of the basic machinery of life. The "edge" of evolution, a line that defines the border between random and nonrandom mutation, lies very far from where Darwin pointed. Behe argues convincingly that most of the mutations that have defined the history of life on earth have been nonrandom.

Although it will be controversial and stunning, this finding actually fits a general pattern discovered by other branches of science in recent decades: The universe as a whole was fine-tuned for life. From physics to cosmology to chemistry to biology, life on earth stands revealed as depending upon an endless series of unlikely events. The clear conclusion: The universe was designed for life.

Editorial Reviews

With its thesis of irreducible complexity, Michael Behe's 1996 Darwin's Black Box helped launch the intelligent design movement. In this new-millennium follow-up, he argues that the genetic revolution now enables us to perceive more clearly the limitations of random mutation and natural selection. Dr. Behe contends that this new data offers strong indications that nonrandom mutations have been responsible for the main thrust of evolutionary history on our planet. This evidence, he maintains, indicates that the universe was hard-wired for life.
Publishers Weekly

With his first book, Darwin's Black Box, Behe, a professor of biology at Lehigh University, helped define the controversial intelligent design movement with his concept of "irreducible complexity." Now he attempts to extend his analysis and define what evolution is capable of doing and what is beyond its scope. Behe strongly asserts, to the likely chagrin of young earth creationists, that the earth is billions of years old and that the concept of common descent is correct. But beginning with a look at malaria and the sickle cell response in humans, Behe argues that genetic mutation results in only clumsy solutions to selective pressures. He goes on to conclude that the statistical possibility of certain evolutionary changes taking place is virtually nil. Although Behe writes with passion and clarity, his calculations of probability ignore biologists' rejection of the premise that evolution has been working toward producing any particular end product. Furthermore, he repeatedly refers to the shortcomings of "Darwin's theory—the power of natural selection coupled to random mutation," but current biological theory encompasses far more than this simplistic view. Most important, Behe reaches the erroneous conclusion that the workings of an intelligent designer is the only reasonable alternative to evolution, even without affirmative evidence in its favor. B&w illus. (June 5)

Copyright 2007 Reed Business Information
Kirkus Reviews
More on Intelligent Design from its chief proponent, who trots out even more minutiae on the "irreducible complexities" of cells and their parts previously discussed in Darwin's Black Box (1996). There are some additions and subtractions. Now Behe (Biological Sciences/Lehigh Univ.) readily concedes evolutionary modification through descent. Species were not created separately as creationists hold, he writes; DNA evidence indicates descent from a common ancestor. He also admits that random mutation can account for some useful genetic changes, such as the development of the sickle-cell trait to protect against malaria and the malarial parasite's evolved resistance to chloroquine. But he denigrates these changes as essentially weakening genomes. If random mutation is so good, Behe goes on to ask, why hasn't the malaria parasite developed defenses against sickling? This question ignores the fact that the organism as it exists right now is enormously successful. The text repeatedly casts Darwinian randomness as powerless or trivial in the face of the dizzying probabilities required (at least according to Behe) to generate the bacterial flagellum, a cell's cilium, assorted protein-protein interactions and all the critical developmental events that transform egg into baby. The author agrees that there are ways in which genomes can change more than one nucleotide at a time, but ignores Stephen Jay Gould's punctuated equilibria or such events as the incorporation of a bacterium into a primordial cell. Nor does Behe adduce any experiments that could be performed to demonstrate Intelligent Design. What we have is a sophisticated version of William Paley's watch needing a watchmaker, with the authorquoting respected scientists on the wonders of nature that have led some to invoke the anthropic principle or the existence of "multiverses." Behe opts for a designer-not necessarily God, though for him, as a Roman Catholic, it is. Not science, but a tract to comfort those who want to believe.
From the Publisher
"With this book, Michael Behe shows that he is truly an independent thinker of the first order. He carefully examines the data of evolution, along the way making an argument for universal common descent that will make him no friends among young-earth creationists, and draws in new facts, especially the data on malaria, that have not been part of the public debate at all up to now. This book will take the intelligent design debate into new territory and represents a unique contribution to the longstanding question of philosophy: Can observation of the physical world guide our thinking about religious questions?"
-- Professor David Snoke, Department of Physics and Astronomy, University of Pittsburgh

"In The Edge of Evolution Michael Behe carefully assesses the evidence of what Darwin's mechanism of random mutation and selection can achieve in well documented cases, and shows that even in those cases that maximize its power as a creative force it has only been able to generate very trivial examples of evolutionary change. Could such an apparently impotent and mindless force really have built the sophisticated molecular devices found throughout nature? The answer, he insists, is no. The only common-sense explanation is intelligent design."
-- Michael Denton, M.D., Ph.D., author of Nature's Destiny

"In crystal-clear prose Behe systematically shreds the central dogma of atheistic science, the doctrine of the random universe. This book, like the natural phenomena it so elegantly describes, shows the unmistakable signs of a very deep intelligence at work."
-- JEffrey M. Schwartz, M.D., Research Psychiatrist, UCLA, and author of The Mind & The Brain

"Until the past decade and the genomics revolution, Darwin's theory rested on indirect evidence and reasonable speculation. Now, however, we have begun to scratch the surface of direct evidence, of which this book offers the best possible treatment. Though many critics won't want to admit it, The Edge of Evolution is very balanced, careful, ¬and devastating. A tremendously important book."
-- Dr. Philip Skell, Evan Pugh Professor of Chemistry, Emeritus, at Pennsylvania State University, and member of the National Academy of Sciences

"With this book, Michael Behe shows that he is truly an independent thinker of the first order. In a day when the media present all issues in the football metaphor as two teams fighting, the intelligent design debate is presented simplistically as authors who are lapdogs for young-earth creationists versus evolutionists who are lapdogs for atheists. Michael Behe is no lapdog. He carefully examines the data of evolution, along the way making an argument for universal common descent that will make him no friends among young-earth creationists, and draws in new facts, especially the data on malaria, that have not been part of the public debate at all up to now. This book will take the intelligent design debate into new territory and represents a unique contribution on the longstanding question of philosophy: can observation of the physical world guide our thinking about religious questions?"
- Professor David Snoke, Department of Physics and Astronomy, University of Pittsburgh

"Until the past decade and the genomics revolution, Darwin's theory rested on indirect evidence and reasonable speculation. Now, however, we have begun to scratch the surface of direct evidence, of which this book offers the best possible treatment. Though many critics won't want to admit it, The Edge of Evolution is very balanced, careful, and devastating. A tremendously important book."
-- Dr. Philip Skell, Evan Pugh Professor of Chemistry, Emeritus, at Pennsylvania State University, and member of the National Academy of Sciences

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The Edge of Evolution

The Search for the Limits of Darwinism
By Michael J. Behe

Free Press

Copyright © 2007 Michael J. Behe
All right reserved.

ISBN: 9780743296205

Chapter One: The Elements of Darwinism

Life on earth developed over billions of years by utter chance, filtered through natural selection. So says Darwinism, the most influential idea of our time. If a rare random mutation in a creature's DNA in the distant past helped the lucky mutant to leave more offspring than others of its species, then as generations passed the species as a whole would have changed. Incessant repetition of this simple process over eons built the wonders of biology from the ground up, from the intricate molecular machinery of cells up to and including the human mind.

That's the claim, at least. But is it true? To answer that question, Darwin's theory has to be sifted carefully, because it isn't just a single concept -- it actually is a mixture of several unrelated, entirely separate ideas. The three most important ideas to keep straight from the start are random mutation, natural selection, and common descent.

Common descent is what most people think of when they hear the word "evolution." It is the contention that different kinds of modern creatures can trace their lineage back to a common ancestor. For example, gerbils and giraffes -- two mammals -- are both thought to be the descendants of a single type of creature from the far past. And so are organisms from much more widely separatedcategories -- buffalo and buzzards, pigs and petunias, yaks and yeast.

That's certainly startling, so it's understandable that some people find the idea of common descent so astonishing that they look no further. Yet in a very strong sense the explanation of common descent is also trivial. Common descent tries to account only for the similarities between creatures. It says merely that certain shared features were there from the beginning -- the ancestor had them. But all by itself, it doesn't try to explain how either the features or the ancestor got there in the first place, or why descendants differ. For example, rabbits and bears both have hair, so the idea of common descent says only that their ancestor had hair, too. Plants and animals both have complex cells with nuclei, so they must have inherited that feature from a common ancestor. But the questions of how or why are left hanging.

In contrast, Darwin's hypothesized mechanism of evolution -- the compound concept of random mutation paired with natural selection -- is decidedly more ambitious. The pairing of random mutation and natural selection tries to account for the differences between creatures. It tries to answer the pivotal question, What could cause such staggering transformations? How could one kind of ancestral animal develop over time into creatures as different as, say, bats and whales?

Let's tease apart that compound concept. First, consider natural selection. Like common descent, natural selection is an interesting but actually quite modest notion. By itself, the idea of natural selection says just that the more fit organisms of a species will produce more surviving offspring than the less fit. So, if the total numbers of a species stayed the same, over time the progeny of the more fit would replace the progeny of the less fit. It's hardly surprising that creatures that are somehow more fit (stronger, faster, hardier) would on average do better in nature than ones that were less fit (weaker, slower, more fragile).

By far the most critical aspect of Darwin's multifaceted theory is the role of random mutation. Almost all of what is novel and important in Darwinian thought is concentrated in this third concept. In Darwinian thinking, the only way a plant or animal becomes fitter than its relatives is by sustaining a serendipitous mutation. If the mutation makes the organism stronger, faster, or in some way hardier, then natural selection can take over from there and help make sure its offspring grow numerous. Yet until the random mutation appears, natural selection can only twiddle its thumbs.

Random mutation, natural selection, common descent -- three separate ideas welded into one theory. Because of the welding of concepts, the question, Is Darwinism true? has several possible answers. One possibility, of course, is that those separate ideas -- common descent, natural selection, and random mutation -- could all be completely correct, and sufficient to explain evolution. Or, they could all be correct in the sense that random mutation and natural selection happen, but they might be inconsequential, unable to account for most of evolution. It's also possible that one could be wholly right while the others were totally wrong. Or one idea could be right to a greater degree while another is correct to a much lesser degree. Because they are separate ideas, evidence for each facet of Darwin's theory has to be evaluated independently. Previous generations of scientists readily discriminated among them. Many leading biologists of the late nineteenth and early twentieth centuries thought common descent was right, but that random mutation/natural selection was wrong.

In the past hundred years science has advanced enormously; what do the results of modern science show? In brief, the evidence for common descent seems compelling. The results of modern DNA sequencing experiments, undreamed of by nineteenth-century

scientists like Charles Darwin, show that some distantly related organisms share apparently arbitrary features of their genes that seem to have no explanation other than that they were inherited from a distant common ancestor. Second, there's also great evidence that random mutation paired with natural selection can modify life in important ways. Third, however, there is strong evidence that random mutation is extremely limited. Now that we know the sequences of many genomes, now that we know how mutations occur, and how often, we can explore the possibilities and limits of random mutation with some degree of precision -- for the first time since Darwin proposed his theory.

As we'll see throughout this book, genetic accidents can cause a degree of evolutionary change, but only a degree. As earlier generations of scientists agreed, except at life's periphery, the evidence for a pivotal role for random mutations is terrible. For a bevy of reasons having little to do with science, this crucial aspect of Darwin's theory -- the power of natural selection coupled to random mutation -- has been grossly oversold to the modern public.

In recent years Darwin's intellectual descendants have been aggressively pushing their idea on the public as a sort of biological theory-of-everything. Applying Darwinian principles to medicine, they claim, tells us why we get sick. Darwinian psychology explains why some men rape and some women kill their newborns. The penchant for viewing the world through Darwinian glasses has spilled over into the humanities, law, and politics. Because of the rhetorical fog that surrounds discussions of evolution, it's hard for the public to decide what is solid and what is illusory. Yet if Darwinism's grand claims are just bluster, then society is being badly misled about subjects -- ranging from the cause of illnesses to the culpability of criminals -- that can have serious real-world consequences.

As a theory-of-everything, Darwinism is usually presented as a take-it-or-leave-it proposition. Either accept the whole theory or decide that evolution is all hype and throw out the baby with the bath water. Both are mistakes. In dealing with an often-menacing nature, we can't afford the luxury of elevating anybody's dogmas over data. The purpose of this book is to cut through the fog, to offer a sober appraisal of what Darwinian processes can and cannot do, to find what I call the edge of evolution.

The Importance of the Pathway

On the surface, Darwin's theory of evolution is seductively simple and, unlike many theories in physics or chemistry, can be summarized succinctly with no math: In every species, there are variations. For example, one animal might be bigger than its brothers and sisters, another might be faster, another might be brighter in color. Unfortunately, not all animals that are born will survive to reproduce, because there's not enough food to go around, and there are also predators of many species. So an organism whose chance variation gives it an advantage in the struggle to survive will tend to live, prosper, and leave offspring. If Mom or Dad's useful variation is inherited by the kids, then they, too, will have a better chance of leaving more offspring. Over time, the descendants of the creature with that original, lucky mutation will dominate the population, so the species as a whole will have changed from what it was. If the scenario is repeated over and over again, then the species might eventually change into something altogether different.

At first blush, that seems pretty straightforward. Variation, selection, inheritance (in other words, random mutation, natural selection, and common descent) seem to be all it takes. In fact, when an evolutionary story is couched as abstractly as in the previous paragraph, Darwinian evolution appears almost logically necessary. As Darwinian commentators have often claimed, it just has to be true. If there is variation in a group of organisms, and if the variation favorably affects the odds of survival, and if the trait is inherited, then the next generation is almost certain to have more members with the favorable trait. And the next generation after that will have even more, and the next more, until all members of the species have it. Wherever those conditions are fulfilled, wherever there is variation, selection, and inheritance, then there absolutely must be evolution.

So far, so good. But the abstract, naive logic ignores a huge piece of the puzzle. In the real world, random mutation, natural selection, and common descent might all be completely true, and yet Darwinian processes still may not be an adequate explanation of life. In order to forge the many complex structures of life, a Darwinian process would have to take numerous coherent steps, a series of beneficial mutations that successively build on each other, leading to a complex outcome. In order to do so in the real world, rather than just in our imaginations, there must be a biological route to the structure that stands a reasonable chance of success in nature. In other words, variation, selection, and inheritance will only work if there is also a smooth evolutionary pathway leading from biological point A to biological point B.

The question of the pathway is as critical in evolution as it is in everyday life. In everyday life, if you had to walk blindfolded from point A to point B, it would matter very much where A and B were, and what lay between. Suppose you had to walk blindfolded (and, to make the example closer to the spirit of Darwinism, blind drunk) from A to B to get some reward -- say, a pot of gold. What's more, suppose in your sightless dizziness the only thought you could hold in your head was to climb higher whenever you got the chance (this mimics natural selection constantly driving a species to higher levels of fitness). On the one hand, if you just had to go from the bottom of a single enclosed stairwell to the top to reach the pot of gold, there might be little problem. On the other hand, if you had to walk blindfolded from one side of an unfamiliar city to the top of a skyscraper on the other side -- across busy streets, bypassing hazards, through doorways -- you would have enormous trouble. You'd likely stagger incoherently, climb to the top of porch steps, mount car roofs, and so on, getting stuck on any one of thousands of local high points, unable to step farther up, unwilling to back down. And if, just trying to climb higher whenever possible, you had to walk blindfolded and disoriented from the plains by Lubbock, Texas, to the top of the Sears Tower in Chicago -- blundering randomly over flatlands, through woods, around canyons, across rivers -- neither you nor any of billions of other blindfolded, disoriented people who might try such a thing could reasonably be expected to succeed.

In everyday life, the greater the distance between points A and B, and the more rugged the intervening landscape, the bleaker are the odds for success of a blindfolded walk, even -- or perhaps especially -- when following a simple-minded rule like "always climb higher; never back down." The same with evolution. In Darwin's day scientists were ignorant of many of the details of life, so they could reasonably hope that evolutionary pathways would turn out to be short and smooth. But now we know better. The great progress of modern science has shown that life is enormously elegant and intricate, especially at its molecular foundation. That means that Darwinian pathways to many complex features of life are quite long and rugged. The problem for Darwin, then, as with a long, blindfolded stroll outdoors, is that in a rugged evolutionary landscape, random mutation and natural selection might just keep a species staggering down genetic dead-end alleys, getting stuck on the top of small anatomical hills, or wandering aimlessly over physiological plains, never even coming close to winning the biological pot of gold at a distant biological summit. If that is the case, then random mutation/natural selection would essentially be ineffective. In fact, the striving to climb any local evolutionary hill would actively prevent all drunkards from finding the peak of a distant biological mountain.

This point is crucial: If there is not a smooth, gradually rising, easily found evolutionary pathway leading to a biological system within a reasonable time, Darwinian processes won't work. In this book we'll examine just how demanding a requirement that is.

A Brief Look Back

As a practical matter, how far apart do biological points A and B have to be, and how rugged the pathway between them, before random mutation and natural selection start to become ineffective? How can we tell when that point is reached? Where in biology is a reasonable place to draw the line marking the edge of evolution?

This book answers those questions. It builds on an inquiry I began more than a decade ago with Darwin's Black Box. Then I argued that irreducibly complex structures -- such as some stupendously intricate cellular machines -- could not have evolved by random mutation and natural selection. To continue the above analogy, it was an argument that the blindfolded drunkard could not get from point A to point B, because he couldn't take just one small step at a time -- he'd have to leap over canyons and rivers. The book concluded that there were at least some structures at the foundation of life that were beyond random mutation.

That conclusion stirred a lot of discussion. In particular, a lot of heat was generated in the scientific community by my inference that the structures are intelligently designed. Many people are viscerally opposed to that conclusion, for a variety of reasons. In this book, although my conclusions are ultimately the same, and will undoubtedly be opposed by some, I spend the bulk of the chapters drawing on molecular evidence, genomic research, and -- above all

-- crucial long-term studies of evolutionary changes in single-celled organisms to test Darwinism without regard to conclusions of design. Readers who cannot accept my final conclusions should still be able to consider the evidence presented in the bulk of these chapters, before taking issue with my conclusions in the final three chapters of the book. As I will argue, mathematical probabilities and biochemical structures cannot support Darwinism's randomness, except at the margins of evolution. Still, as we seek to find the line marking the edge of randomness, there is no need to infer design.

Breaking the LogJam

Darwin's Black Box was concerned to show just that some elegant structures in life are beyond random mutation and natural selection. This book is much more ambitious. Here the focus is on drawing up reasonable, general guidelines to mark the edge of evolution -- to decide with some precision beyond what point Darwinian explanations are unlikely to be adequate, not just for some particular structures but for general features of life. This can be compared to the job of an archeologist who discovers an ancient city buried under sand. The task of deciding whether random processes produced things like intricate paintings on walls of the city buildings (perhaps by blowing sand) is pretty easy. After all, elegant paintings aren't very likely to be made by chance processes, especially if the paintings portray not just simple geometric patterns, but images of people or animals.

But once the cherry-picking is over, the going gets tougher. Are the dark markings at the side actually a part of a painting, or just smudges? Is a pile of stones next to an exterior wall a table or an altar of some sort, or just a random collection of rocks? Is ground near the wall the remnant of a tilled field? Where lies the border of the city? Where does civilization stop and raw nature begin? Deciding on marginal cases like those is harder work, and the conclusions will necessarily be more tentative. But at the end of the study the archeologist will be left with a much clearer picture of where the city leaves off and random natural processes take over.

In a way, archeologists have it easy. Although they have to worry about the effects of physical processes on artifacts they study, they don't usually concern themselves much with biological ones. In puzzling out where might lie the far boundaries of Darwinism, uniquely biological processes of course come strongly into play. Random mutations of DNA might be likened to random accidents that befall inanimate objects. But plants and animals reproduce, stones don't. Natural selection works on living objects, not on nonliving ones. Darwin's theory claims that random genetic accidents and natural selection working over eons will yield results that don't look at all like the effects of chance.

Life has been on earth for billions of years. During that time huge numbers of organisms have lived and died. Fierce struggles between different lineages over the ages are supposed by Darwinists to have led to biological "arms races" -- tit-for-tat improvements of the capacity to wage biological warfare, analogous to the sophisticated twentieth-century arms race between humans in the United States and the Soviet Union. Maybe the results of those biological arms races were sophisticated living machinery, far beyond what we would ordinarily think of as the result of chance.

That's the theory. But it has proven extremely difficult to test adequately. Modern laboratory studies of random mutation/natural selection have suffered from an inability to examine really large numbers of creatures. Typically, even with heroic efforts by the best investigators, only a relative handful of organisms can be studied, only for a comparatively short amount of time, and changes in a few chosen traits are followed. At the end of such studies, while some interesting results may be at hand, it's usually impossible to generalize from them. Although scientists would love to undertake larger, more comprehensive studies, the scale of the problem is just too big. There aren't nearly enough resources available to a laboratory to perform them.

So, in lieu of definitive laboratory tests, by default most biologists work within a Darwinian framework and simply assume what cannot be demonstrated. Unfortunately, that can lead to the understandable but nonetheless corrosive intellectual habit of forgetting the difference between what is assumed and what demonstrated. Differences between widely varying kinds of organisms are automatically chalked up to random mutation and natural selection by even the most perceptive scientists, and even the most elegant of biological features is reflexively credited to Darwin's theory.

Breaking the theoretical logjam would require accurate evolutionary data at the genetic level on an enormous number of organisms that are under ceaseless pressure from natural selection. That data simply hasn't been available in the past. Now it is.

Leaps and Bounds

Even just ten years ago any attempt to locate the edge of evolution with any precision would have been well-nigh impossible. Too little was known. But with the relentless march of science, especially in the past decade, the task has become feasible.

A major difficulty of evaluating an evolutionary theory like Darwin's has been that, while we can easily observe large changes in animals and plants, the reasons for those changes are obscure. Darwin and other early scientists could examine, say, alterations of finch beaks, but they couldn't tell what was causing the modifications. Closer to our own day, mid-twentieth-century scientists could determine that some bacteria evolved resistance to antibiotics, but they didn't know exactly what gave them that power. Only in the past half century has science shown that visible changes are caused by mutations in invisible molecules, in DNA and proteins. The only way to get a realistic understanding of what random mutation and natural selection can actually do is to follow changes at the molecular level. It is critical to appreciate this: Properly evaluating Darwin's theory absolutely requires evaluating random mutation and natural selection at the molecular level. Unfortunately, even today such an undertaking is intensely laborious. Yet there is no other way.

The good news is that, with much effort and insight, modern science has developed the tools to do so. A triumph of twentieth-century science has been its elucidation of one requirement of Darwin's theory -- the underlying basis of variation. We now know that variation in organisms depends on hidden changes in their DNA. (For a summary of DNA structure, see Appendix A.) What's more, scientists have catalogued myriad ways in which DNA can change. Not only can single units (called nucleotides) of DNA accidentally change when the DNA is copied in a new generation, but whole chunks of the double helix can accidentally either be duplicated or be left out. Very rarely all of the DNA in a cell is copied twice, yielding offspring with double the DNA of its parents. Other times active DNA elements resembling viruses can insert copies of themselves at new positions in the genome, sometimes dragging other bits of DNA with them. Opportunities for nature to alter an organism's DNA are virtually boundless.

Not only has the hard work of many scientists shown the underlying basis of variation, the rate of mutation has been worked out fairly well, too. As a rule, the copying of DNA is extremely faithful. On average, a mistake is made only once for every hundred million or so nucleotides of DNA copied in a generation. But there are exceptions. In some viruses such as HIV the mutation rate is speeded up enormously.

Another critical advance in our ability to properly test Darwinism has come from DNA sequencing. In the past few decades the amount of DNA sequenced has been growing exponentially, and the number of organisms studied by sequencing has been expanded. In the mid-1990s the first complete sequence of an organism's genome -- a tiny bacterium named Hemophilus influenzae -- was published. Now the sequences of hundreds of genomes are known. Not only whole genome sequencing, but the easy ability to sequence at least key pieces of an organism's DNA gives scientists the ability to nail down the molecular changes that underlie genetic diseases, or that cause resistance to antibiotics.

Yet all that scientific progress would still not be enough to draw reasonably firm conclusions about the abilities of Darwinian evolution if sufficient numbers of organisms couldn't be studied. The more organisms there are, the more opportunities random mutation has to stumble across a beneficial change and pass it on to natural selection, the firmer our conclusions about what Darwinism can do become. Studies of animals like finches can at best follow hundreds at a time. In the laboratory thousands of fruit flies might be examined. That's better, but still far from enough. With thousands or even millions of organisms, a mutation comes along relatively rarely, and few of the mutations that do come along are helpful.

The natural world of course teems with organisms. There can be billions of a mammalian species on the planet at a time, such as humans or rats. In the seas there are huge numbers of fish. And these represent just the larger forms of life. There are also untold numbers of microscopic entities such as bacteria and viruses. While laboratories can't grow enough creatures to get a reasonable handle on the abilities of Darwinian evolution, nature has no such problems.

Evolution from a common ancestor, via changes in DNA, is very well supported. It may or may not be random. Thanks to evolution, scientists who sequence human DNA and find mutations that are helpful -- against, say, our natural enemies -- are not just studying the DNA of one person. They are actually observing the results of a struggle that's gone on for millennia and involved millions and millions of people. An ancestor of the modern human first sustained the helpful mutation, and her descendants outcompeted the descendants of many other humans. So the modern situation reflects an evolutionary history involving many people. When scientists sequence a genome, they are unfurling rich evidence of evolution -- Darwinian or otherwise -- unavailable by any other method of inquiry.

Darwinism's Smoking Gun

Thanks to its enormous population size, rate of reproduction, and our knowledge of the genetics, the single best test case of Darwin's theory is the history of malaria. Much of this book will center on this disease. Many parasitic diseases afflict humanity, but historically the greatest bane has been malaria, and it is among the most thoroughly studied. For ten thousand years the mosquito-borne parasite has wreaked illness and death over vast expanses of the globe. Until a century ago humanity was ignorant of the cause of malarial fever, so no conscious defense was possible. The only way to lessen the intense, unyielding selective pressure from the parasite was through the power of random mutation. Hundreds of different mutations that confer a measure of resistance to malaria cropped up in the human genome and spread through our population by natural selection. These mutations have been touted by Darwinists as among the best, clearest examples of the abilities of Darwinian evolution.

And so they are. But, as we'll see, now that the molecular changes underlying malaria resistance have been laid bare, they tell a much different tale than Darwinists expected -- a tale that highlights the incoherent flailing involved in a blind search. Malaria offers some of the best examples of Darwinian evolution, but that evidence points both to what it can, and more important what it cannot, do. Similarly, changes in the human genome, in response to malaria, also point to the radical limits on the efficacy of random mutation.

Because it has been studied so extensively, and because of the astronomical number of organisms involved, the evolutionary struggle between humans and our ancient nemesis malaria is the best, most reliable basis we have for forming judgments about the power of random mutation and natural selection. Few other sources of information even come close. And as we'll see, the few that do tell similar tales.

(Caveat lector: Unfortunately, in order to fully understand and appreciate the difficulties facing random mutation, and how humanity's battle with malaria illustrates them, we have to grit our teeth and immerse ourselves in details of the battle at the molecular level. I make every effort to keep technical details to a minimum, and some of them are confined to the appendices. But there is no way around the fact that this subject requires technical details.)

Although the number of malarial cells is vast, it's much less than the number of organisms that have existed on earth. Nonetheless, as I will explain, straightforward extrapolations from malaria data allow us to set tentative, reasonable limits on what to expect from random mutation, even for all of life on earth in the past several billion years. Not only that, but studies of the bacterium E. coli and HIV, the virus that causes AIDS, offer clear confirmation of the lessons to be drawn from malaria. HIV, in particular, is something of a Rosetta stone for studying random mutation, because such viruses mutate at extraordinary rates, ten-thousand times faster than the mutation rate of cells. Viruses contain much less genetic material, but it mutates so rapidly, and there are so many copies of it, that HIV alone, in just the past fifty years, has undergone more of at least some kinds of mutations than all cells have experienced since the beginning of the world.

Most of this book will focus on the operations of cells and molecules, but in the last two chapters I go further. In recent years, as science has progressed at an amazing clip, some molecular details underlying the development of different classes of animals have come to light. I make some inferences about the limits of the use of random mutation to explain features of animal life. In the final chapter I show that the conclusions reached in this book about random processes in biology mesh well with recent results from other scientific disciplines such as physics and cosmology. Together they illuminate the role of chance in nature as a whole.

Glimmers of the Edge

One difficulty of writing a book questioning the sufficiency of Darwin's theory is that some people mistakenly conclude you're rejecting it in toto. It is time to get beyond either or thinking. Random mutation is a completely adequate explanation for some features of life, but not for others. This book looks for the line between the random and the nonrandom that defines the edge of evolution. Consider:

  • On the one hand, there's malaria. An ancient scourge of humanity, in some regions of the world malaria kills half of all children before the age of five. In the middle part of the twentieth century miracle drugs were discovered that could cure the dreaded disease and hopes swelled that it could even be totally eradicated. But within a decade the malarial parasite evolved resistance to the drugs. New drugs were developed and thrown into the fight, but with only fleeting effect. Instead of humans eradicating malaria, there are worries that malaria could eradicate humans, at least in some parts of the world, as the number of deaths from the disease increased dramatically in recent years. The take-home lesson of malaria is: Evolution is relentless, brushing aside the best efforts of modern medicine.
  • On the other hand, there is sickle cell disease. Although in the United States sickle cell disease is an unmitigated disaster, in Africa it shows a silver lining. It takes two copies (one from each parent) of the mutated sickle gene to get the disease. People who have just one copy do not have the disease, but they do have resistance to malaria, and they often live when others die. The gene that carries the sickle mutation arose in a human population in Africa perhaps ten thousand years ago. The mutation itself is a single, simple genetic change -- nothing at all complicated. Yet despite having a thousandfold more time to deal with the sickle mutation than with modern drugs, malaria has not found a way to counter it. While the evolutionary power of malaria stymies modern medicine, a tiny genetic change in its host organism foils malaria.
  • On the one hand, there's HIV. The human toll from AIDS in modern times is comparable to that from the Black Death in the Middle Ages. Modern research has developed a number of drugs to combat AIDS, but after a brief time -- months, sometimes just days -- they invariably lose their effectiveness. The reason is Darwinian evolution. The genome of HIV, the virus that causes AIDS, is a minute scrap of RNA, roughly one-millionth the size of the human genome. Its tiny size and rapid replication rate, as well as the huge number of copies of the virus lurking in an infected person, all combine to make it an evolutionary powerhouse. Random changes during viral replication, combined with the selective pressure exerted by medicines, allow drug-resistant varieties of HIV to prosper in a quintessentially Darwinian process. Here, evolution trumps medicine.
  • On the other hand, there's E. coli. A normal inhabitant of the human intestinal tract, E. coli has also been a favorite bacterium to study in the laboratory for over a century. Its genetics and biochemistry are better understood than that of any other organism. Over the past decade E. coli has been the subject of the most extensive laboratory evolution study ever conducted. Duplicating about seven times a day, the bug has been grown continuously in flasks for over thirty thousand generations. Thirty thousand generations is equivalent to about a million human-years. And what has evolution wrought?

    Mostly devolution. Although some marginal details of some systems have changed, during that thirty thousand generations, the bacterium has repeatedly thrown away chunks of its genetic patrimony, including the ability to make some of the building blocks of RNA. Apparently, throwing away sophisticated but costly molecular machinery saves the bacterium energy. Nothing of remotely similar elegance has been built. The lesson of E. coli is that it's easier for evolution to break things than make things.

  • On the one hand, there are the notothenioid fish in the Antarctic region, which can survive temperatures that should freeze their blood solid. Studies have shown that in the past ten million years tiny, incremental changes in the fishes' DNA have given them the ability to make a strange new kind of antifreeze -- an antifreeze that sticks to seed crystals of ice and stops them from growing. A triumph of natural selection.
  • On the other hand, there's (again) malaria. The fierce malarial parasite -- the same evolutionary dynamo that shrugs off humanity's drugs -- has an Achilles' heel: It won't develop in its mosquito host unless temperatures are at the very least balmy, so it's restricted mainly to the tropics. If the parasite could develop at lower temperatures it could spread more widely. But despite tens of thousands of years and a huge population size, much larger than that of Antarctic fish, it has not done so. Why can fish evolve ways to live at subfreezing temperatures while malaria can't manage to live even at merely cool temperatures?

Somewhere in the middle of such examples lies the edge of evolution.

Copyright © 2007 by Michael J. Behe


Excerpted from The Edge of Evolution by Michael J. Behe Copyright © 2007 by Michael J. Behe. Excerpted by permission.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
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Meet the Author

Michael J. Behe is a professor of biological sciences at Lehigh University in Pennsylvania and the author of Darwin's Black Box, which was named by the National Review and World magazine as one of the 100 most important books of the twentieth century.

Patrick Lawlor has recorded over three hundred audiobooks in just about every genre. He has been an Audie Award finalist multiple times and has garnered several AudioFile Earphones Awards, a Publishers Weekly Listen-Up Award, and many Library Journal and Kirkus starred audio reviews.

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The Edge of Evolution: The Search for the Limits of Darwinism 4.6 out of 5 based on 0 ratings. 16 reviews.
Guest More than 1 year ago
A major question that this book attempts to answer is, ¿Can evolution accomplish what its advocates claim, namely produce humans from simple molecules by natural selection selecting variations ultimately caused by mutation?¿ In other words, can DNA copying mistakes produce you from goo by way of the zoo? The answer from what we know today is clearly no. Behe lets the empirical evidence speak for itself and this book reviews his very persuasive case. As Darwin recognized over a century ago, the fossil record, irreducible complexity, and the other difficulties with evolution were problems in his day which he felt time would solve. Time has only made these problems far worse. One problem Darwin did not recognize was the enormous complexity of the cell, often regarded as the most complex machine in the universe. Darwin and his contemporaries felt cells were as complex as a bowel of jelly. As a cell biologist, I am reminded with every scientific article I read and every lecture I give that this is far from true. New developments occur almost daily and this is one of many factors that make this field so interesting. Kinesin, a class of motor proteins used in cells, accomplishes transport by 'walking' along a microtubule to its destination carting a packaged load complete with address label. Darwin never dreamed such machines existed. Behe in this book deals with the estimates of mutation occurrence and applies this data to cell populations, a discussion that sounds boring, but Behe makes it fascinating. He is a good writer and effective in helping his readers understand why the science now argues against Darwinism. If Darwin were alive today I believe that he would not have postulated his theory. It has a hold on the population largely because it is now part of our heritage and the sooner we can break the Darwinian shackles, the sooner science can progress beyond this albatross on our neck.
Guest More than 1 year ago
Bebhe introduces readers to post 90's discoveries in microbiology that reveal the incredible complexity of cell life. In the book, Bebhe demonstrates that redical evolutionary advance is statistically impossible if only random DNA variations occur. To radically improve design or create whole new species variation would take hundreds of billions of years, not the centuries that Neo Darwinists assume. Bebhe's thesis does not incur Biblical sorts of counter theory. He merely proves that something more than randomness must influence evolution. What that influence is, Behbe leaves for others to discover.
Guest More than 1 year ago
Behe's latest book is a goldmine. Of much interest to professionals and written so that educated laypersons can follow the arguments, he attempts to determine the edge of evolution. In other words, microevolution, as is well known, can produce a wide variety of dogs and cause, by mutations, changes in the ribosome of bacteria so that certain antibiotics are no longer effective, producing resistant strains. We know from the fossil record that most all forms of life, from turtles to bats to the platypus, to pesky flies are unchanged from when they first appeared in the fossil record. Other life forms have changed more then most animal types. Behe tries to determine the possible limits that mutations and natural selection can achieve using bacteria as a model. Bacteria are an excellent choice because the population of many types doubles every 20 minutes and bacteria are more susceptible to mutations for several reasons, such as they do not have the complex repair system that eukaryotes posses. Behe uses the peer reviewed literature to attempt to estimate the limits of Darwinism. He convincingly shows that the limit is from the Genera to the Order level. Actually, he is being very optimistic in his assessment. In my judgment, the limit is around the Genera level. This is an area that I have worked on at my university, only we looked at eukaryotes. I am confident that this important work will be replicated and I am certain will confirm Behe's conclusions.
ria bela More than 1 year ago
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Anonymous More than 1 year ago
We are beginning to see through the lies of evolution, which is a mere mans theory anyway! Great work!
Anonymous More than 1 year ago
Behe has avoided the peer review process in this tripe. He incorrectly states claims that HIV has not evolved new protein bonding sites. He has been caught quote mining (where you use a truncated quote to change the meaning of the original quote) in this book. At the Dover trial expert Professor Behe admitted that his broadened definition of science, which encompasses ID, would also embrace astrology. Again at the Dover Trial, "In fact, on cross-examination, Professor Behe was questioned concerning his 1996 claim that science would never find an evolutionary explanation for the immune system. He was presented with fiftyeight peer-reviewed publications, nine books, and several immunology textbook chapters about the evolution of the immune system; however, he simply insisted that this was still not sufficient evidence of evolution, and that it was not "good enough."
RedLightOn More than 1 year ago
It's telling to hear people say: "This book is crap...do your own research...from serious scientists." Just don't use this book to form your opinion, right? It proves there is something in the book that rattles people's individual agendas. I recommend this book because it ACTUALLY MAKES YOU THINK!!!! Heaven forbid someone challenge scientific theory!!!! I'm not necesarrily an intelligent design proponent, but I do believe evolution and Darwinism are severely flawed. Behe explains the flaws and does so flawlessly. It's funny how "simple" biologists ardently support evolution and claim to be "making discoveries" through the theory of evolution daily, but a large number of mathemeticians, paleontologiests and molecular biologists alike are doubtful. It is because Darwinism is utilized fictionally by fiction-like-writers who concoct stories ("theories") about how changes come about; when there is no evidence whatsoever to support it. They should be writing novels, not essays. It's intellectually insulting sometimes!!!! But this book is not. Nevertheless, I gave the book four out of five because it is itself agenda driven in favor of intelligent design only and does not leave room for a secular, alternative theory.
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Excellent book
Anonymous More than 1 year ago
This is excellent book .
Anonymous More than 1 year ago
Overwhelming book ever written
Anonymous More than 1 year ago
Some just will not give up their anti-evolution notions no matter how wrong those notions are or how many times shown to be wrong. This book is an example. He has been repeatedly shown to be wrong in his supposed examples.