The origins of race cannot be understood without some knowledge of the evolutionary origins of man himself, a subject that has been studied for many decades.
The first great scientific problem was to determine which came first, large brains or upright posture. Charles Darwin argued that bipedalism and large brains evolved together, along with the invention of stone weapons that could not be used unless arms and hands were free from locomotion. Use of weapons led to increased social interaction, which in turn led to increased brain size.

Darwin has been proven wrong. In the late 1960s, blood protein research showed that humans diverged from apes about seven million years ago. Early hominids are known from fossil finds to have been bipedal from four to as much as seven million years ago. Since use of tools — a sign of growing intelligence — began only about 2.5 million years ago, bipedalism must have come before large brains.

But what caused proto-hominids to walk upright? Many scientists think it may have been a geologically unique event — the formation of the mountainous Great Rift Valley region about 10 million years ago. This created a dry, isolated ecological system in East Africa by interrupting the flow of moist air from the west. This gave rise to a grassy savannah, which was dramatically different from the tropical rain forests in which tree-dwelling apes evolved. For the apes trapped in this newly formed environment, bipedal movement conferred survival advantages in finding food and avoiding enemies.

The first bipedal hominid was Australopithecus (“southern ape”), which lived in Africa from about seven million to one million years ago. The oldest species believed to be ancestral to humans is Australopithecus afarensis, a small biped that retained many of the anatomical features of tree-dwelling apes. East African fossils have been found that are three to four million years old. Lucy, the most famous example, was found by Donald Johanson in Ethiopia in 1974.

Australopithecus africanus appeared later, 2.3 to three million years ago, possessing an elongated skull and a steeper forehead — features more like today’s humans. Australopithecus africanus’ cranial capacity was about 400 cubic centimeters, less than one-third that of modern humans.

The Cerebral Rubicon

The earliest fossil to bear the name Homo was found by Jonathan Leaky at Olduvai Gorge in Tanzania in 1970. He found a cranium fragment that was much thinner than any from the known australopithecine species. It had smaller cheek teeth and, more important, greatly increased cranial capacity.

Though Leaky’s find had a capacity of about 650 cubic centimeters, subsequent fossils placed the average at about 800 cc, well above the “cerebral Rubicon” of 750 cc first proposed for genus Homo by British anthropologist Sir Arthur Keith. The first member of the human family was named Homo habilis, or “handy man,” because it emerged coincident with the earliest known use of stone tools, about 2.5 million years ago.

About 1.7 million years ago Homo habilis was replaced by Homo erectus. In The Origin of Humankind, Richard Leaky wrote: “Homo erectus was the first human species to use fire; the first to include hunting as a significant part of its subsistence; the first to be able to run as modern humans do; the first to make stone tools according to some definite mental template; and the first to extend its range beyond Africa.”

Dr. Leaky appears to have been wrong about the final point. Fossils were recently found in central China that are at least 1.9 million years old and which have been identified as Homo habilis, the direct ancestor of Homo erectus. The crude stone tools found with the fossils are very similar to those of Homo habilis excavated at Olduvai Gorge.

Africa remains the origin of the very oldest proto-human fossils, but the Chinese find raises two intriguing possibilities. One is that Homo erectus actually evolved in Asia and then migrated back to Africa. The other is that Asian strains of man (and perhaps others) have been evolving outside of Africa for nearly two million years. [John Wilford, Bones in China put new light on old humans, NYT, 11/16/95, p. A8.]

Homo erectus may have had spoken language and may also have mated for life. Australopithecines were markedly dimorphic — males and females differed in size — suggesting that dominant males monopolized available females. Homo erectus males and females were nearly the same size, which some scholars regard as evidence of pair bonding.

Homo erectus had a cranial capacity of between 900 and 1100 cc and developed a rich variety of stone artifacts. These are known today as the Acheulean culture, named after the French village, St. Acheul, where important finds from this culture were made. Although no physical remains of Homo erectus have been found in Europe or West Asia, Acheulean artifacts suggest the presence of Homo erectus in those areas.

These artifacts have not been found in East Asia although Homo erectus fossils have been found, indicating that East Asian Homo erectus may have been less advanced than its African and European cousins. This finding is consistent with the possibility that Homo erectus may have evolved in Asia and migrated back to Europe and Africa.

About 300,000 years ago, the first hominids appeared with a large enough cranial capacity — 1200 to 1500 cc — to merit the name Homo sapiens (modern European males average over 1400 cc). Covering most of the Old World, these archaic humans were more robust than today’s variety, with larger teeth, thicker skulls, etc. Neanderthal Man, a European variant named for Germany’s Neander Valley — site of an 1856 skull find — appeared about 150,000 years ago.

He had a low, sloping forehead, a receding chin, and heavy brow ridges. He probably traveled in bands of no more than 30, and his maximum population is not likely to have exceeded a few tens of thousands. He appears to have buried his dead and may have practiced cannibalism.

Neanderthal man is probably not an ancestor of modern man; both are thought to have descended from Homo erectus, with the divergence taking place as many as 200,000 years ago. Neanderthal man disappeared from Europe around 30,000 years ago. He may have been driven off or exterminated by more advanced humans, or he may have passed on his genes by breeding with them.

Some anthropologists believe that remnants of these early Neanderthal-like races still survive in isolated areas of the world. Carleton Coon once said of New Guinean aborigines that they were so thick of brow it looked like they were still sloughing off erectus traits.

Origins of Race

There are two theories of how Homo sapiens evolved from Homo erectus and/or archaic humans: the “multiregional” theory and the “replacement” theory. The multiregional theory holds that today’s races derive from local Homo erectus populations, and the recent Chinese find suggests even more ancient origins. Migration and interbreeding — a process known as “gene flow” — would have prevented these local populations from diverging into entirely separate species. Defenders of the “multiregional” theory, such as Carleton Coon and Milford Wolpoff, cite fossil evidence. For example, there are similarities, such as round skulls and shovel-shaped incisors, between modern Chinese and an East Asian variant of Homo erectus.

The replacement theory holds that the ancestors of modern humans arose in Africa between 140,000 and 200,000 years ago and spread over the earth, replacing all previous hominids without interbreeding with them. Those that entered Eurasia subsequently evolved into the diverse non-African races of mankind as a result of further evolution in their new environments. Supporting evidence includes DNA studies suggesting common ancestry of people of different races that is far more recent than would be the case if evolution from Homo erectus had been “multiregional”.

Anatomically modern humans appear in the fossil record virtually simultaneously in East Africa and the Middle East, about 100,000 years ago. Named Homo sapiens sapiens to distinguish them from archaic versions, the debate over their place of origin is unresolved. In The History and Geography of Human Genes, a massive 1,000-page compendium of research on genetic differences, authors Luca Cavalli-Sforza, Paolo Menozzi and Alberto Piazza lean towards the replacement theory, but do not think the question is settled. This is their scenario for how the first modern humans may have developed from archaic forms:

“Ancestors of modern Caucasoids and modern East Asians (let us call them Eurasians) developed either in northeastern Africa, or in West Asia or southeastern Europe from an originally African source during the period between 100 and 50 kya [thousand years ago]…

“Whether or not it partially hybridized with local descendants of archaic H. sapiens or H. erectus, the Eurasian moiety was ready for an expansion, perhaps about 50-40 kya, and expanded in all directions: north and then east, occupying northeastern Asia, the Arctic, and America; west toward West Asia and Europe; and southeast, where it may have mixed with the descendants of the southern branch of the African migration.”

The African Eve

In the late 1980s, a furor arose over a dramatic new theory that modern humans derived from a single African female — quickly dubbed “Eve” by the media. Michael Brown traced the course of this flap in his 1990 book The Search for Eve. The idea appeared in a 1987 article in Nature by Allan Wilson, Mark Stoneking and Rebecca Cann called “Mitochondrial DNA and human evolution.” Its opening was provocative: “Mitochondrial DNAs from 147 people, drawn from five geographic populations, have been analyzed by restriction mapping. All these mitochondrial DNAs stem from one woman who is postulated to have lived about 200,000 years ago…"

The research, conducted primarily at the University of California, Berkeley, was based on the fact that once two groups diverge, random mutations begin to accumulate at a (usually) constant rate. The longer the groups are separate, the greater the number of mutations and the more different from each other they become. If the mutation rate is known, the mutations form a molecular clock from which the date of divergence can be computed.

For example, if Asians and Europeans share a genetic characteristic not present in Africans, it means that the mutation that formed the genetic feature occurred after the common ancestor of Asians-and-Europeans split off from the African stream but before Asians and Europeans diverged from each other.

However, even within a single breeding group, mutations do not occur uniformly and at the same time in all members of the group, so sophisticated statistical analysis is required to determine when divergence took place. Mitochondrial DNA — which controls certain aspects of energy production at the cellular level — seems an ideal vehicle for such studies because it is simpler than nuclear DNA and, more important, is inherited only from the mother.

According to the Berkeley study, the African samples of mitochondrial DNA (actually African-American samples) appeared to be the oldest. If so, modern humans must have originated in Africa and dispersed from there, replacing all archaic humans without a single instance of interbreeding. The impact of this article — Nature is one of the most prestigious science publications in the world — was immediate. Eve, the “mother of us all,” was African and therefore black. This ignited sanctimonious celebration by liberals. If other races had only recently split off from Africans, how could racial discrimination be justified? Blacks were quick to accept their new role as progenitors of mankind.

However, all was not well in Eden. Questions about Eve surfaced as scientists examined the evidence carefully. Doubt was raised about the validity of using American blacks — who average roughly 25 percent white genes due to miscegenation — to represent Africans. The persistence in modern Chinese of distinctly East Asian Homo erectus characteristics — round skulls and shovel-shaped incisors — demanded explanation. Milford Wolpoff asked how Homo sapiens sapiens eliminated earlier forms without a single instance of interbreeding. He coined the term “Pleistocene Holocaust” for the implied planet-wide massacre of archaic humans by the African invaders.

Scientists questioned the mutation rate used by Professors Wilson, Stoneking and Cann to calibrate their molecular clock. Given a more realistic clock rate, the common ancestor — if there was one — lived half a million years or more ago, an era populated solely by Homo erectus. The putative common ancestor might simply represent movement of Homo erectus or one of his precursors out of Africa. In 1992, flaws were found in the statistical techniques used by the Berkeley group.

The decline of Eve’s fortune did not rule out the replacement theory, and expert opinion is still sharply divided. It is difficult to know what to believe when specialists disagree. However, Carleton Coon’s comment about New Guinean aborigines still sloughing off Homo erectus traits is compelling, and Australian aborigines have heavy brow ridges and massive skulls that suggest a markedly different ancestry from that of other races.

Ultimately, of course, it makes no difference whether the races of man diverged 30,000 or 300,000 years ago. The fact remains that the differences are real, and clearly reflect differing capacities to build and maintain civilization. Today, the work of millennia is being undone as the less intelligent races not only outbreed the more intelligent but push their way into the homelands of the northern races.

In his masterwork, Race, John Baker traces the history of men who spoke about race. Perhaps the most important was Arthur Comte de Gobineau, whose book, Essay on the Inequality of Human Races, explained why civilizations decay and die: “mixture, mixture everywhere, always mixture …” Hybridization of intelligent, creative, racially pure founding stock, he said, was destroying the West, just as it destroyed all previous civilizations — a theme developed by Tenney Frank in History of Rome and Elmer Pendell in Why Civilizations Self-Destruct.

In a more recent book, The Decline of Intelligence in America, Seymour Itzkoff writes of the “encompassing embrace” of third-world immigration to Europe and the United States: “It is an embrace that will suck us back into evolutionary history if we delay too long.” What Lothrop Stoddard called “the rising tide of color” may well be reversing the course of human evolution.

35,000 years ago a new human race appeared somewhere in western Eurasia. Scientists do not know the precise point of origin or exactly how this new Homo sapiens sapiens became differentiated from his immediate predecessors, but differences there were, and in abundance. Though anatomically modern humans appeared more than 100,000 years ago, this new race possessed a remarkable constellation of new talents: creativity, ingenuity and a restless wanderlust that forever altered the course of life on earth.

Known as people of the Upper Paleolithic Period (the end of the Paleolithic — from approximately 60,000 to 10,000 B.C.), they were identified in 1868 by the discovery of fossils in a cave in southern France called Cro-Magnon. Soon exquisite cave paintings, clay figurines, ivory and calcite carvings, jewelry and musical instruments were found in other caves in France, Spain and Germany. Vivid images of mammoth, bison, horses and Cro-Magnon females indicated awareness not only of the physical world but also of sexual reproduction.

Formed in the crucible of a European ice age, Cro-Magnon had a cranial capacity of well over 1500 cubic centimeters. This is larger than modern Northern Europeans and East Asians, who have an average, including both males and females, of about 1350 cubic centimeters. Modern Africans have an average cranial capacity of about 1250 cubic centimeters. Since the correlation between brain size and intelligence is now well established, the intellectual capabilities of Cro-Magnon must have been impressive.

Cro-Magnon people looked very similar to modern Europeans. David de Laubenfels, a Syracuse University anthropologist, said of them: “All have certain physical characteristics in common; all have well formed chins, high straight foreheads, smaller modern teeth, and brains as big as Neanderthal but without the heavy brow ridges… The original Upper Paleolithic people would, if they appeared among us today, be called Caucasoid …”

Technologically advanced Cro-Magnon people expanded outward from Northwest Europe during the Mesolithic era, 20,000 years ago or more, moving into West Asia and North Africa, as well as into Northeast Asia, where mixing with indigenous proto-Mongoloids appears to have been substantial. The mountains of Central Asia formed a barrier to their penetration into Southeast Asia. As a result, Southeast Asia today is largely a mix of early Mongoloids, Australoids and Negritos (possibly descended from earlier migrations of Africans).

The impact of the dispersal of these early Caucasians on the creation of civilization is incalculable. As the map on this page shows, every place on earth where history records the rise of great civilizations lies on a Cro-Magnon migration path. Prof. De Laubenfels adds:

“There is reason to believe that the significant changes associated with the cultural advance known as the Upper Paleolithic had fully as great an impact on the human condition as any one of the familiar more recent great economic ‘revolutions’ [agricultural, industrial, etc.] … The Upper Paleolithic techniques … overwhelmed all regional bounds and spread inexorably in all directions ultimately to transform the economy in all parts of the inhabited world … The resulting population realignment produced for the most part the familiar modern racial groups and for the first time placed humans in the dominant ecological role in the world.”

What Prof. de Laubenfels attributes to “cultural advance” and “techniques” may be ascribed to intellect and temperament. Culture follows these traits and not the other way around. And, as numerous researchers have suggested — for example, Philippe Rushton of the University of Western Ontario and Edward Miller of the University of New Orleans — these traits have genetic origins. Even so timid a source as The History and Geography of Human Genes, by Professors Cavalli-Sforza, Menozzi and Piazza, affirms that “the prototype of modern humans comes from Cro-Magnon.”

Civilization, throughout time and place, is therefore the virtually exclusive creation of the new race that was shaped in the forests and caves of Europe 35,000 years ago. This creation is not merely cultural. It is organic and genetic, and followed the restless migrations of Upper Paleolithic peoples into nearly every corner of the earth.

Ice People and Sun People

Prior to the arrival of Cro-Magnon, humans lived mainly in small, genetically homogeneous groups with restricted ranges. These isolated groups tended to diverge genetically. The result, according to de Laubenfels, was that “[b]y the end of the Middle Paleolithic period [250,000 to 60,000 B.C.] there had developed substantial divisions between peoples of different regions of the world and these resulting human types can be called early races.” [emphasis in original]

Modern races — Caucasoid, Mongoloid, Negroid, Australoid, etc. — were formed by isolation and adaptation to local conditions, the most powerful of which is climate. Intellectual adaptations that allowed early humans to survive long, cold ice-age winters were vastly different from those sufficient to sustain existence in a tropical climate, rich with year-round nourishment. These adaptations appear not only in external physical differences but in dramatically different IQ profiles, and in traits such as foresight, altruism, mating fidelity, anxiety, diligence, thriftiness, etc.

Philippe Rushton has used life history theory to explain such adaptations (see full treatment of this theory in AR, Dec. 1994). Citing Edward O. Wilson, the father of sociobiology, he explains:

"Evolutionary biologists assume that each species (or subspecies, such as a race) has evolved a characteristic life history adapted to the particular ecological problems encountered by its ancestors. A life history is a genetically organized suite of characteristics that evolved in a coordinated manner so as to allocate energy to survival, growth, and reproduction. These strategies may be organized on a scale.

“At one end are ‘r-strategies’ that emphasize gamete production, mating behavior, and high reproductive rates and, at the other, ‘K-strategies’ that emphasize high levels of parental care, resource acquisition, kin provisioning, and social complexity. The K-strategy requires more complex nervous systems and larger brains … [A]rchaic versions of what were to become the modern Caucasoid and Mongoloid peoples dispersed out of Africa about 100,000 years ago and adapted to the problem of survival in predictably cold environments. This evolutionary process required a bioenergetic tradeoff that increased brain size and parenting behavior (‘K’) at the expense of egg production and sexual behavior (‘r’).”

Edward Miller has proposed a concept called paternal investment theory. He suggests that “in cold climates males were selected for provisioning, rather than for mating success. In warm climates, where female gathering made male provisioning unessential, selection was for mating success. Male-hunted meat was essential [in cold climates] for female winter survival.

Genes that encouraged mating success were selected for in warm climates. Negroes (blacks) evolved in warm climates, while Caucasians (whites) and Mongoloids (Asians) evolved in colder climates. Mating is assisted by a strong sex drive, aggression, dominance, sociability, extroversion, impulsiveness, sensation seeking, and high testosterone. Provisioning is assisted by anxiety, altruism, empathy, behavioral restraint, gratification delay, and a long life span.”

The History and Geography of Human Genes devotes an early section, “Scientific Failure of the Concept of Human Races,” to denying what the average man knows instinctively, i.e. that races exist. The authors then spend a thousand pages proving what they have just denied. As Edward Miller says in his review of the book, “there do appear to be three major groups that include very large numbers of people, and whose gene frequencies differ. These are the three traditional groups of Negroids, Caucasoids and Mongoloids. American Indians and Australians constitute other large groupings with distinctive gene frequencies.”

The History and Geography of Human Genes presents a variety of techniques to illustrate genetic differences. They can be used to calculate a measure of “genetic distance,” which shows how much any two ethnic groups differ. Since the authors analyze only a few of the 100,000 human genes — and since the easily-measured genes from blood samples are not those that affect obvious traits that vary by race such as skin and eye color, hair texture, temperament, etc. — their genetic distances must be viewed as relative and approximate.

The above table provides data for a few ethnic groups, selected from the book’s analysis of 42 ethnic groups worldwide. On this scale, the English and the Danish differ by 21 points, the smallest difference among the 42 groups. The English differ from the Caucasoids of India by 280 points. The largest difference, 4573, occurs between Central African Mbuti Pygmies (not shown) and New Guinean aborigines. Approximate IQs have been added, based on work by Richard Lynn.

The Sorcerer’s Seed

The table shows the enduring imprint of Upper Paleolithic people. Cro-Magnon and his progeny seeded northern Eurasia with his genes, giving rise to civilization. Europeans, exemplified by the English, are genetically and intellectually closer to East Asians (typified by Koreans) than they are to black Africans and New Guinean aborigines, who have the lowest IQs.

Northeast Asians received a substantial infusion of Caucasoid genes during and after the Mesolithic period. During his expeditions to Mongolia in the 1920s, American scientist Roy Chapman Andrews found Cro-Magnon skeletons as far east as central Mongolia and dating from 20,000 years ago. More recently, four-thousand-year-old Caucasoid corpses have been found in the Tarim Basin area of Central China, confirming ancient Chinese legends about men having, in the words of researcher Victor H. Mair, “great height, deep set blue or green eyes, long noses, full beards, and red or blonde hair.”

American Indians are descended from Northeast Asians who, about 30,000 years ago, crossed a land bridge that spanned what is now the Bering Strait. They are genetically closest to present-day Northeast Asians but more distant than Asians from Europeans.

Why are American Indians not as intelligent as Northeast Asians? Upper Paleolithic people spread outward 20,000 years ago but Asians may have come to America 10,000 years earlier. It may be that Asians crossed the Bering Strait land bridge before Cro-Magnon’s descendants migrated into Northeast Asia — or before they arrived in large enough numbers to raise Asian intelligence. The Amerind IQ data suggest that climate-related evolution may have initially lifted Northeast Asian IQs moderately above those of Africans and Australoids but that it was the Cro-Magnon influx that lifted Asian IQ to the European level.

In an unpublished paper, Edward Miller writes: “When Australia and the Americas were settled the original populations lacked certain alleles because the relevant mutations had not yet occurred, or because these mutations had not reached the relevant parts of Eurasia. After Australia and the Americas came to be isolated from the larger Eurasian populations, they did not receive further immigrants … Thus, the intelligence of the Australian and American aboriginal populations came to lag behind that of the rest of the world.”

Evolution in Reverse

There is great intellectual resistance to the view that Cro-Magnon genes played a fundamental role in creating modern civilization, just as there is resistance to the view that human intellectual potential differs by race. Nevertheless, these concepts explain much of human life experience and we ignore them at our peril.

There is no guarantee that evolution will always move forward. In the white nations, low birthrates, non-white immigration, and miscegenation are weakening the gene pool. Current racial policies can lead only to genetic submersion.

Welfare has recreated an environment similar to that of Africa and has produced similar behavior. Recipients can subsist on government subsidies without having to plan for long, cold winters, much as early Africans could obtain food year-round in a tropical climate. Males can engage in promiscuous sexual activity and a substantial number of their offspring will reach maturity to repeat the cycle. Males are not needed for provisioning; females can rear children alone, sustained by government food and medicine. As a result, a violent new underclass has appeared, free from Nature’s culling forces.

Just as welfare drives evolution backwards, immigration is bringing to the West millions of people who cannot build or sustain our civilization. What will be lost if we do not act now to reverse this trend?

In The Decline of Intelligence in America, Seymour Itzkoff writes: “These words may sound crass. They are. But the situation is crassly serious. The United States, along with other European cultures around the world, is at risk. An epochal change is in process. For the past 35,000 years, the genetics of European intelligence, passed around the world, have laid the groundwork for what we call and treasure as civilization. Civilization in the West is now in jeopardy.”

Civilization is in jeopardy because our genetic heritage is in jeopardy. Humans with the endowments required to create civilization have arisen only once in the history of man. Cro-Magnon’s progeny will always create civilization; it is his destiny to do so. But without the genes that make it possible, there will be no rebirth if the West should fall.

Source: [Originally appeared on Amren in 1996]