website
Skip to content

Library

A CATHOLIC PERSPECTIVE

by Catherine Frakas 19 Apr 2021

EVOLUTION: A CATHOLIC PERSPECTIVE by James B. Stenson Since 1859, when Charles Darwin first published his *Origin of Species*, the scientific question of evolution has aroused intense and often bitter controversy. Time and again over the years, a supposed conflict between science and religion has raged in the public forums--in courtrooms, classrooms, and the press. This past decade has witnessed a new and even more heated debate concerning textbooks and school curricula. Television has not ignored the dramatic possibilities of these confrontations. On newscasts and talk shows, partisans from both sides have had their say on camera. On the one hand, fundamentalist Protestants have insisted on an absolutely literal interpretation of Genesis: a special creation of each separate species in only seven days, beginning a few thousand years ago. Opposing them, some scientists-turned-celebrities have proclaimed with equal fervor the supreme triumph of chance: matter blindly developing from molecules to man, with no intervention by a Deity, and no need for One to explain anything. Thus the controversy has been reduced, in public perception, to a disquieting choice--superstition vs. atheism. What is a Catholic to make of this? To anyone who knows even a little theology and science, the choice presented here is clearly false. In this, as in so many other heated controversies, the first casualty is truth. The Catholic faith is dedicated to truth, indeed to Truth Himself. And science, open-mindedly and fairly exercised, is committed to the pursuit of truthful knowledge. A Catholic should suspect, therefore, even before studying the question closely, that faith and scientific knowledge must complement, not contradict, each other. This suspicion is confirmed by fact. The more one studies what the Catholic Church teaches and what science knows for certain, the more clearly he sees that Catholic faith and scientific knowledge are wholly compatible. The conflicts being aired today are really a pseudo- controversy. Dogmatic fundamentalists do not reflect Catholic tradition, and dogmatic evolutionists do not fairly represent science. In the following pages, we want to examine briefly what the Church has clearly taught and what science has clearly learned about evolution, especially in recent years. By an honest pursuit of the truth, we can avoid entanglement in pointless disputes, like the Sadducees whom Our Lord upbraided so long ago--those who knew neither the scriptures nor the power of God (Mt. 22,29). What does evolution mean? Any intelligent understanding of a complex problem requires, at the outset, a definition of terms. In fact, much of the present confusion stems from a vague association of several meanings with the term evolution. Properly speaking, the word should embrace a biological concept founded on careful scientific study from several interrelated disciplines. But by extension the term has also been used in other senses--historical, sociological, and philosophical. We will concern ourselves here with the two principal definitions that impinge upon religious faith: the biological and philosophical. For a properly scientific definition of the term, we may cite a formula established by fifty internationally known scientists at the Darwin Centennial Celebration, held in 1959: *Evolution* is definable in general terms as a one-way irreversible process in time, which in its course generates novelty, diversity, and higher levels of organization. In the field of biology (where revolutionary studies have been most extensive and productive), the term more specifically means: a process whereby organisms change with the passage of time so that descendants differ from their ancestors. Note that these definitions deal with a *process*, a succession of observable events measured over time. Science deals essentially and necessarily with material phenomena, those which can be measured. It tries to deduce reasonable explanations for the cause-and-effect relationships between events. Because it limits itself to material facts, its generalizations are necessarily mechanical. A biologist concerns himself with *how* events occur. For him, the question *why* lies outside the proper limits of his discipline. This is important because, in the properly scientific sense, evolution as a *how* question poses no problem for Catholic belief. For decades now, scientists have established a chronology of how life forms succeeded one another over eons of time. It is beyond reasonable doubt that some sort of process has taken place. (As we shall see later, the mechanics of this succession have yet to be fully understood.) Whatever science determines on this *how* level is compatible with a Catholic principle: that God ordinarily carries out His creative acts in natural ways. No problems with Christian belief generally arise when evolution is loosely used in a broad philosophical sense. This meaning is substantially different from the scientific one above. It may be defined as follows: an ideological frame of mind which sees the entire universe in terms of matter-in-development and which consciously denies the existence of spiritual or supernatural reality; all phenomena--scientific, historical, economic, and social--are explainable in exclusively material terms. This understanding of evolution is not scientific, though it derives much prestige from association with the sciences. It is not founded on experimental knowledge or rational deduction. It is rather a preconceived set of attitudes and values, a prejudice that is not merely unscientific, but irrational. For it is altogether credulous to hold that complex organs like the eye are not indicative of an ordering intelligence, but are instead the result of blind chance which of course cannot know or plan the end (seeing) to which the eye's single parts combine and evolve. In fact, it is a latter-day form of philosophical materialism which has been with us since the time of the Greeks. Inasmuch as it is really an outlook on life, it is a kind of religion. Properly speaking, therefore, this set of beliefs should not be called evolution but rather evolutionism. To subscribe to creation (which is *not* the same as creationism), that is, the contingent world's ultimate dependence on a necessary, creative being, is not, on the contrary, an act of religion at all. It is a matter of philosophy, of drawing sure conclusions from incontrovertible premises. Like the other religion-substitute isms of our time, evolutionism has adherents from all walks of life. Some physicists, astronomers, and geneticists believe in it. But so do many journalists, economists, teachers, and historians--and cab-drivers and businessmen and poets. The atheism of a biochemist is really no more significant than that of a file clerk, but it can have more sway on public opinion. A Catholic can, as we shall see, give qualified assent to evolution in the scientific sense but not to evolutionism. The fact is that many scientists engaged in evolutionary studies are themselves devout Catholics. These people see no contradiction between what the Church teaches and what science, as science, has learned. Let us examine why this is so.* Catholic teachings* It comes as a surprise to many Catholics to learn how little the church teaches in this area--how few tenets are established as true beyond doubt, and therefore how much latitude is left to Catholics for their personal judgment. The Church has not been concerned with evolutionary questions as such, but rather with their possible implications for Catholic belief. The Church has maintained that the first three chapters of Genesis contain historical truth. Their inspired author used a popular literary form of his day to explain certain historical facts of Creation. These were named specifically by the Pontifical Biblical Commission, with the approval of Pope Pius X in 1909. The official document states that the literal historical meaning of the first three chapters of Genesis could not be doubted in regard to: the creation of all things by God at the beginning of time; the special creation of man; the formation of the first woman from the first man; the unity of the human race; the original happiness of our first parents in the state of justice, integrity, and immortality; the command given by God to man to test his obedience; the transgression of the divine command at the instigation of the devil under the form of a serpent; the degradation of our first parents from that primeval state of innocence; and the promise of a future redeemer. Note that the Church says nothing definite about how, in specific detail, God created the world and its various forms of life, or how long any of this took. The only special creation mentioned is that of man, who is unique in having a spiritual immortal soul. In the Church's eyes, Genesis deals with historical fact, not scientific process--with the *what* of creation, not the *how*. In 1950, Pope Pius XII addressed the question of man's origins more specifically in his encyclical *Humani Generis*. With a few terse paragraphs, he set forth the Church's position, which we may summarize as follows: 1. The question of the origin of man's *body* from pre- existing and living matter is a legitimate matter of inquiry for natural science. Catholics are free to form their own opinions, but they should do so cautiously; they should not confuse fact with conjecture, and they should respect the Church's right to define matters touching on Revelation. 2. Catholics must believe, however, that the human *soul* was created immediately by God. Since the soul is a spiritual substance it is not brought into being through transformation of matter, but directly by God, whence the special uniqueness of each person. 3. All men have descended from an individual, Adam, who has transmitted original sin to all mankind. Catholics may not, therefore, believe in polygenism, the scientific hypothesis that mankind descended from a group of original humans. So, from the Catholic point of view, the scientific questions of evolution are largely left open to debate. Evolutionary hypotheses which attempt to explain the development of living things may be accepted except where they conflict with these few explicit truths. This position clearly contrasts with that of many fundamentalist Protestant sects. Lacking belief in the Church's teaching authority, fundamentalists have usually insisted on treating Genesis as a scientifically accurate, as well as historically true, account. Unfortunately, this stance has often appeared in the media as definitive Christian doctrine. Its details have contrasted so sharply with established scientific knowledge that Christian belief has been held in ridicule. To give one example: In the 17th century, an Anglican clergyman, Bishop James Ussher, calculated from Biblical genealogies that God created the world on an October morning in 4004 B.C. Many fundamentalists today would hold this as an article of faith. For virtually all scientists, the figure is absurd. From the Catholic point of view, Bishop Ussher spoke only for himself, not for the Church; his feat was one of arithmetic, not theology. Of course, Catholics *may* share many of these fundamentalist beliefs as their personal opinions. The point is they are not *required* to. With the exception of the few matters mentioned above, Catholics may hold whatever scientific positions seem reasonable and intellectually convincing. This leads to the next consideration. Just how much does science know with certainty? What are the strengths and limitations of science in helping us find the truth?* Scientific certitude* Popular accounts of science--in textbooks, magazines, and television features--are often misleading about the certitude of scientific knowledge. Writers who explain science to the general public must simplify a host of complex matters to make them understandable and interesting. But this task frequently leads to oversimplification. Non-scientists are led to believe that science is essentially a stable body of factual knowledge. In reality, however, it is a dynamic process, constantly engaged in self- correction and even radical revision. Interpretation, guesswork, and imagination play a larger role in scientific study than most people are aware. Consequently, knowledge derived from this inquiry has several distinct but overlapping levels of certitude. Some scientific matters are known to be factually true; that is, they are beyond doubt. Others are reasonable conjectures, generally accepted as true by specialists in the field. Still others are untested hypotheses awaiting verification through further work. Let us take one case in point: *Australopithecus* was an ape-like creature who lived more than a million years ago in Africa. It is fact that his brain size averaged about 500 cc. and that his leg-bone had some humanlike features. It is, however, a conjecture that he walked upright much of the time; this is a reasonable guess but not so certain as the aforementioned facts. But it is only an hypothesis that his body gave rise to that of man. These distinct degrees of probable certitude are often blurred in many popular science articles. The evolutionary sciences are especially susceptible to difficulty in establishing certitude. Unlike physics or chemistry, which are verifiable through controlled laboratory experimentation, the evolutionary disciplines are essentially historical. All the forms of paleontology (including paleoanthropology, the study of ancient man) seek to determine what happened to living things over the course of time. When researchers advance hypotheses to explain fossil phenomena, they are giving *reasonable interpretations* which are verifiable only through subsequent research. Later findings may confirm these explanations, or perhaps render them less plausible, or even prove them *wrong*--that is, very highly unlikely. Thus what is generally accepted by specialists today may be outmoded only a few years from now. The field is highly dynamic. Evolutionary research over the past century, and especially in recent years, has taken many such twists and turns, often leading in unexpected directions. This unsettled condition stands to reason. The relative scarcity of fossil evidence, the high reliance on imaginative interpretation, the inherent problem of verification--all combine to make this detective work subject to ongoing uncertainty. Unfortunately, textbooks seldom convey the cautious and provisional nature of evolutionary thinking at any given time. Science knows less for certain about evolutionary phenomena than is generally supposed. The history of science offers many examples of this self-corrective process. It is worth our while to examine a few of these, even briefly, to see the dynamic at work. (And, parenthetically, it is interesting to see how many outmoded scientific beliefs still survive in popular thinking.)* The cave-man myth*: Fossil evidence does not speak for itself; it must be interpreted, and this task requires imagination. Scientists at the turn of the century took greater liberties in describing ancient man than their counterparts today would. Their image of paleolithic man has entered popular imagination: a hairy, hunched-over, stupid, and ferocious creature, speaking in grunts and living by violence. Countless illustrations have shown him this way, and still do today in some popular media. Today's specialists would disavow this image because it does not fit the facts. From fossil evidence alone, one cannot say anything about ancient man's hairiness or intelligence or speech or facial expression or supposed ill-manners. These details were supplied through imagination. The survival of the fittest motif called for ape-like characteristics in early man, and these were dutifully provided. The bones themselves said nothing. One set of bones was significant, however. In 1911, the famous French anatomist, Marcellin Boule, carefully studied a recently discovered Neanderthal skeleton. This specimen was important for it was the first nearly complete skeleton of an ancient man. Using it, science could understand the details of a typical Neanderthal's body structure. Boule's reconstruction of Neanderthal showed a hunched-over, misshapen creature with bent legs and face thrust forward, not unlike the stance of a gorilla. This depiction was highly influential for decades thereafter; it was reproduced in textbooks, drawings, and museum displays around the world. But later discoveries of Neanderthal finds cast doubt on Boule's work. Then in 1957, a team of anatomists re-examined Boule's original skeleton and found a serious source of error: the Neanderthal man had suffered from a case of severe arthritis. His stance was indeed hunched- over, but it was not genetic in origin and was not typical. Today, we believe that ancient people walked and stood erect almost exactly as we do. The image of ferocity was also without factual support. Over the years, in fact, many archaeological sites have shown evidence of cooperation and even compassion among primitive people. Numerous fossils came from carefully prepared graves, some as old as 100,000 years. In several instances, the deceased had been old and crippled (like Boule's specimen) and had received care for years before being laid to rest. In one grave, a youth had been buried carefully on his side, with one arm tucked under his head, as if he were sleeping; in one hand, he held a beautifully carved quartz knife. In another grave, archaeologists found the body of an elderly Neanderthal who had had his forearm amputated years before in his youth. (Surgery 60,000 years ago!) He had been cared for all his life. And in yet another Neanderthal site, researchers found evidence that the deceased had been buried with flowers. Care for cripples and burial with flowers give a dimension of humanness to ancient man that earlier scientists would have found astonishing.* Species classification*: Several decades ago, scientists habitually classified almost every new hominid (man-like) find into a separate species. These fossil creatures were thus named Peking ape-man, Java ape-man, Neanderthal man, and so forth. Drawings of the day used to show an upward development: some primitive ape leading to the ape-man, who in turn led to Neanderthal, who then led to Cro-Magnon (identical to modern man in nearly every respect). Within the last 25 years, these have all been reclassified. All the ape- man types (from 100,000 to 500,000 years ago and more) now belong to one species, *Homo erectus*, the upright man. Neanderthal, we now believe, was a racial type of modern man, *Homo sapiens*. But this distinction needs some clarification. In what sense were these two forms of man different? Were they really separate and distinct species? The true test for species difference is genetic isolability--that is, whether mating of two individuals will produce sterile offspring or not. But obviously we have no way to determine this among creatures long dead. It is important to realize that, when scientists classify ancient fossils into distinct species, they do so exclusively on the basis of anatomical structure. If a given specimen has bone configurations within the known range of a given species, then it is called by that species' name. If, however, some significant features lie outside that range, then it probably belongs to a different species and is thus classified differently. *Homo erectus* had several anatomical features which differ from those of modern man. He had, for example, a prominent brow ridge over his eyes, a smaller stature, and a smaller average brain size. The key point here is that both were forms of man, the genus *Homo*, with all that this implies. The anatomical variation was possibly, even probably, the only significant difference. We know that *erectus*, even from remotest antiquity, made several types of tools and used fire. Both of these activities show intelligent manipulation of nature. In other words, he, like the *sapiens* form, could think.* Brain size*: At one time, scientists believed that relative brain size correlated closely with intelligence. The viewpoint has been modified considerably because of subsequent research data. Modern man's brain averages 1250 cc., but with wide variation. It typically falls between the extremes of 1000 cc. and 2000 cc. *Homo erectus*, being small in stature, varied between 775 cc. and 1200 cc. All of these figures are much larger than those for apes and ape-like creatures: 450 cc. on the average. But the wide variation in modern man seems unrelated to thinking powers. In at least one instance, a man with 900 cc. brain size exhibited normal intelligence. Consequently, we cannot with certainty predicate a lower level of intelligence to early man merely on the basis of his brain size.* Tool-making*: as far back as man's fossil record indicates (currently about two million years), we find evidence of tool-making. Several decades ago, scientists correlated tool-making skill with native intelligence. A primitive tool indicated a primitive mind; a more complex form, showed a relatively stronger intelligence. This value judgment no longer holds sway among specialists. Today it is generally held that mastery of technique is distinct from native intelligence. Tool-fashioning is a skill acquired through learning and practice. Moreover, today's anthropologists have a much higher regard for the considerable skill which ancient man wielded in fashioning his implements. One remarkable detail is the great variety of these ancient tools. For scores of thousands of years, paleolithic man fashioned dozens of different tools--axes, scrapers, awls, burins, saws, knives, and many other types of implement. These were formed with extraordinary consistency, and even artistry, through hundreds of generations. Many were expertly fashioned in quartz and semi-precious stone. Such variety in this paleolithic tool-chest implies that early man used tools extensively on other materials (wood, leather, bone) which have, of course, perished without a trace. Tools imply intelligence, not only because they are deliberately fashioned (an intelligent act itself), but because they are intended for some purpose further in the future. Such purposeful planning is a clear sign of rationality. So scientists believe today. How much could early man have accomplished with these primitive stone tools? To find out, a team of anthropologists recently hired an expert Scandinavian woodsman and supplied him with a set of genuine paleolithic tools. The craftsman hafted stone axe-heads onto wooden shafts and experimented with various cutting techniques. Shortly afterward, he succeeded in felling large trees, splitting logs and making them into planks. Within three months, the expert constructed a complete one-story frame house. Clearly, skill lies in the minds and hands. Little can be predicted from crudity of the tools.* Current theoretical developments*: Over the past ten years, several major developments in research have left the theoretical picture highly unsettled. These are too complex to explain in detail here, but they are worth noting in brief. From the mid-1920's until the early 1970's, scientists generally believed that man evolved gradually from a small ape-like creature called *Australopithecus*. As we mentioned earlier, this animal lived more than a million years ago and its fossils showed some human-like characteristics. It may have walked upright, at least some of the time, and its teeth approximated those of man. Moreover, researchers often found stone tools scattered among its fossils. The theory during these decades held that some form of *Australopithecus*, enjoying relatively free use of its hands, developed tool-making, and this skill gave rise to an ever-larger brain through the forces of natural selection. Countless drawings in magazines and textbooks showed the furry *Australopithecus* standing next to *Homo erectus*, his distant evolutionary offspring. But in the early 1970's researchers were astonished to discover forms of *Homo erectus* from almost two million years ago, complete with tools. In other words, man had lived alongside and even before some forms of *Australopithecus*. Most likely, it was he who had fashioned the tools found among the ape-man fossils. This discovery threw into question, to say the least, the evolutionary relation between the two forms of life. As of this writing, the problem is still being debated. Around this time, several prominent paleontologists went on record to question the prevailing theory of gradualism, the well-known Darwinian position of evolution through natural selection. (High school and college textbooks taught this as virtual dogma up until recently.) These researchers claimed that, contrary to Darwin's predictions, the fossil record does not show gradual transitions between species. On the contrary, they maintained, the evidence shows extreme stability of form. Species seem to appear suddenly on earth, remain virtually unchanged for millions of years, and then disappear just as abruptly. What could account for this phenomenon? Current theory holds, among other positions, that major genetic alterations resulted in relatively sudden appearances of new species. This genetic leap is called macroevolution. Meanwhile, within species at any given time, the forces of natural selection were at work effecting minor alterations of structure --like reshaping of finches' beaks, noted by Darwin. This process is called micro-evolution. How genetic and environmental forces have interacted to produce new species is, at this point, an open question. Our purpose here has been to demonstrate the dynamic nature of scientific inquiry. Even these few brief sketches show how evolutionary thinking has undergone an evolution of its own and still does. Science has many uncertainties and very few dogmas. This uncertain quality accounts, in large measure, for the fascination scientists find in their work. Catholics have nothing to fear from science's honest inquiries, honestly explained. On the contrary, every new discovery is a source of wonder and a reason for giving praise to God. Of the Creator, we can say with St. Paul, ... from the foundations of the world, men have caught sight of His invisible nature, His eternal power and His divinity, as they are known through His creatures (Rom 1,20). [James B. Stenson, Headmaster of Northridge Preparatory School in Des Plaines, Illinois, is a specialist in the history of evolution science.] Catholic Position Papers Series A -- Number 116 March, 1984 -- Japan Edition Seido Foundation for the Advancement of Education 12-6 Funado-Cho, Ashiya-Shi Japan Original articles published in these Papers may be reprinted without prior permission, if credited to CPP. Copies of all reprints would be appreciated.

930 x 520px

SPRING SUMMER LOOKBOOK

Sample Block Quote

Praesent vestibulum congue tellus at fringilla. Curabitur vitae semper sem, eu convallis est. Cras felis nunc commodo eu convallis vitae interdum non nisl. Maecenas ac est sit amet augue pharetra convallis.

Sample Paragraph Text

Praesent vestibulum congue tellus at fringilla. Curabitur vitae semper sem, eu convallis est. Cras felis nunc commodo eu convallis vitae interdum non nisl. Maecenas ac est sit amet augue pharetra convallis nec danos dui. Cras suscipit quam et turpis eleifend vitae malesuada magna congue. Damus id ullamcorper neque. Sed vitae mi a mi pretium aliquet ac sed elitos. Pellentesque nulla eros accumsan quis justo at tincidunt lobortis deli denimes, suspendisse vestibulum lectus in lectus volutpate.
Prev Post
Next Post
Someone recently bought a
[time] minutes ago, from [location]

Thanks for subscribing!

This email has been registered!

Shop the look

Choose Options

Recently Viewed

Edit Option
Back In Stock Notification
this is just a warning
Shopping Cart
0 items