HOMO

The switch to vocal languages

After the first glacial maximum had passed, European hominins, our ancestors among them, gradually

increased in size, making them less vulnerable to

predation.  This allowed them, over the course of the next million years, to gradually combine their gestural language with vocal elements.

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Gestures can more easily convey emotional responses, such as surprise, as well as spatial relationships and plans of action, but vocalization can alert an entire group of hominins to something that is happening.  This is undoubtedly one reason why hominins began to combine gestures with vocalization.

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Vocalization ensured that everyone was fully aware of

what was going on, so it began to be used in parallel

with gestures, but then another advantage of

vocalization began to assert itself:  Vocal language is more accessible to infants and young children, while their brains are still maturing.

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The switch to vocal languages was not a simple one,

because vocal languages are structured linearly -- words are built out of linear strings of phonemes, and sentences are built out of linear strings of words.  The patch of brain tissue that is in charge of building and decoding the linear structure of vocal speech is called Broca's area, and it is located on the left side of the motor cortex, which is near the front of the brain.

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Broca’s area was strategically located, in the part of the motor cortex that coordinates muscle movements of the lips and tongue.  These muscles, of course, are responsible in large part for producing the phonemes of speech.  (In general, the left side of the motor cortex

coordinates muscle movements on the right side of the body, but muscle movements of the lips and tongue, in the middle of the body, are coordinated by a patch of brain tissue that is located on the left side of the brain.)

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By observing imprints left by the brain on the inner

surfaces of fossilized skulls, scientists have been able to determine that hominins who lived about 1.8 million years ago were still using gestural languages --  their neocortices did not have the extra fold that later resulted from expansion of the patch of brain tissue where Broca's area was located, near the front of the cerebral cortex and on the left side of the brain.

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This patch of tissue needed to expand to accommodate memories of how to pronounce the phonemes and string them together into words and sentences.  It also needed to coordinate with other parts of the brain that put together strings of words and sentences so that they could convey messages.

In order to do all of this, Broca's area (located on the left side of the cerebral cortex and a little to the left of the center line) had to expand.  This expansion pushed one more crease into the surface of the cerebral cortex, which left an imprint on the inner surface of the cranium.

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In the course of the next million years or so, the imprint of this extra fold gradually shows up on the

inner surface of the cranium, but this evidence of

vocal speech is contradicted by another piece of

evidence:  the dimensions of fossilized inner-ear

structures were such that the hominins could not

have heard consonants.  Consequently, vocal speech

must have been based solely on vowel sounds −

tonal sequences and stops − until our more recent

ancestors perfected a purely vocal form of communication that could quickly convey complex information.  (Homo neanderthalensis could hear consonants, but not as easily as Homo sapiens.)

Brain size

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The remarkable increase in the brain sizes that has occurred among most members of our genus in the course of the last two million years or so

is something that needs to be explained somewhere in the story of human evolution, and it is becoming clear that two factors working together jumpstarted the process, starting more than two million years ago.

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The first and earliest factor was bipedalism.  Obviously, bipedalism did not by itself bring about any great brain expansion, because our ancestors have been bipedal for at least eleven million years; but about five million years ago, when our ancestors became fully terrestrial, their hips narrowed, so as to enable them to walk more efficiently.

This adjustment narrowed the opening through which the birth canal had to pass, and since it was difficult or impossible for the head of a fully mature fetus to fit through the narrowed opening, birth had to occur while the infant was immature and still helpless.  This forced changes in family structure; but still, brain sizes did not increase greatly at that time.

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The second factor seems to have made its appearance between two and three million years ago when gestural language developed to the point where the hunting skills of our ancestors began to match those of other predatory animals; not only in the case in which two-legged semi-aquatic hominins drowned competitors and prey alike but also in the case where slow-moving but smart hominins constructed weapons and devised plans of action that would enable them to match the prowess of predatory animals whose skills had been honed by evolution.

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Our ancestors could not afford to wait for millions of years for evolution to give them the brain power to accomplish this feat; they needed a quick fix.  That quick fix was to discard many of the controls on proliferation of neurons in the brain and let neuron proliferation run rampant.  In their small, highly inbred groups, a single member with just the right kind of neuron proliferation could give the group a hunting or communication advantage.  With luck, this new skill would spread throughout the group, and a new species would appear on the scene in the course of a few generations.  This rapid evolution would eventually enable us to master the entire globe, for better or for worse.

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Very ancient ancestors in the east

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Our ancestors may have sheltered in the Levant around the time of the glacial maximum that occurred about 2.5 million years ago.  Archaeologists have not found any fossils of our ancestors that were left there at that time but have found crude stone tools in northern Jordan − flakes that our likely ancestors had skillfully struck off from a rather large rock about 2.5 million years ago.  Moreover, archaeologists have found similar flakes in China, at the southern edge of China's Loess Plateau, in an almost continuous record of occupation extending from 2.12 million years ago to 1.26 million years ago.

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The very largest land animals were not as plentiful in the Levant as they were in Africa, and our Levantine ancestors were forced to become hunters, even though they were not natural carnivores – they needed to obtain most of their energy from fat, rather than from lean meat.

When the climate of Eurasia warmed, following the glacial maximum, some hominins moved back into Eurasia, and some of them again began wandering about looking for piles of bones.  Our ancestors most likely moved into Central Asia at that time and stayed near the southern edge of the Loess Plateau.  They did not wander further onto the plateau, where the animals were migratory, and food for our ancestors would have been scarce during much of the year.

Since the animals at the edge of the plateau were smaller than those in migratory herds, our ancestors found few great piles of bones left behind by huge elephant--like creatures, so they specialized in hunting the smaller animals that wandered through the area, rather than looking for bones and carcasses.

Thus, our ancestors became primarily hunters, rather than scavengers.  This assessment is borne out by archeological discoveries in the Republic of Georgia, west of there, where fossilized butchered bones of medium-sized animals have been found in association with the fossilized remains of humans who lived in the same time period.

Homo georgicus

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By 1.8 million years ago members of the Homo clade had already found their way into Africa, and these early Africans were most likely larger and more uniform in appearance than their contemporaries in Eurasia.  This is because the Eurasian population, as represented by Homo Georgicus, were from the original Eurasian population and those in Africa were a founder population with selected characteristics.

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It is likely that the Eurasian population of hominins, as represented by those whose fossils and tools were found in Georgia, had largely disappeared across Eurasia by 1.8 million years ago, and only persisted along the southern fringes of Eurasia, in places where the climate was relatively mild, like in what is now the Republic of Georgia.

The variation in head sizes seen in the fossils found in Georgia testify to the rapid evolution that was occurring among the survivors.

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The fashioning of garments

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Those whose fossils were found in Georgia may have already begun to practice the art of tailoring. but they also needed to learn to wear garments, and to take care of them.  Inclinations to do all of these things are observable in the behavior of modern humans.

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For instance, the maternal concern that prompts modern mothers to make or buy clothing for their children is like the maternal concern that prompted ancient Levantine mothers to make good garments tor their offspring.  Moreover, cultural norms prompt us to wear clothing or to wear tattoos or other body ornaments that define us.  The pride and sense of identity that we feel when we display fine clothing or jewelry on our bodies are like the behaviors that prompted our Levantine ancestors to take care not to lose their garments, regardless of whether or not body coverings were immediately needed in order to keep warm.

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The behavioral changes of making and wearing garments did not come easily to our ancestors because those behaviors had not been part of the behavioral repertoire of their own ancestors − these behavioral and the ideational changes that enabled our ancestors to make and wear well-fitting garments were acquired through genetic as well as cultural evolution.

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In any event, it is doubtful that these hangers-on from the original population of Eurasian hominins could have produced well-fitting garments without better tools, and even more doubtful that they would have been able to resist the temptation to discard their garments the minute the weather improved.

Homo georgicus

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By 1.8 million years ago members of the Homo clade had already found their way into Africa, and these early Africans were most likely larger and more uniform in appearance than their contemporaries in Eurasia.  This is because the Eurasian population, as represented by Homo Georgicus, were from the original Eurasian population and those in Africa were a founder population with selected characteristics.

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It is likely that the Eurasian population of hominins, as represented by those whose fossils and tools were found in Georgia, had largely disappeared across Eurasia by 1.8 million years ago, and only persisted along the southern fringes of Eurasia, in places where the climate was relatively mild, like in what is now the Republic of Georgia.

Homo antecessor

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It has been suggested that Homo antecessor came from Africa, along with animals that migrated from there.  But northern Africa had been largely emptied of hominins by dry conditions there, and Homo antecessor most likely came from the east; perhaps from present- day Ukraine, where stone tool manufacture and use occurred about 1.4 million years ago.  This is very close to the time when the cold snap occurred.

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The cold snap had reduced much of the forest land in Europe to grasslands, and this allowed grazing herbivores to move into Europe from Asia and Africa. Homo antecessor most likely followed the animals into western Europe.

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Although Homo antecessor later drifted into extinction, their fossils display features that indicate that they must have been closely related to ancestors of many later hominins, including Homo heidelbergensis, Homo neanderthalensis and -- most importantly -- Homo sapiens. Homo antecessor were not, however, in the direct line of descent between Homo georgicus and and Homo sapiens; this is indicated by genomic data.  Instead, they apparently drifted into extinction.

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Fossils of Homo antecessor, dated at about 800,000 or 900,000 years ago, have been found in northern Spain, and show signs of periodic malnourishment which might have been associated with seasonal migrations of the animals they hunted.  In fact, these hominins may have tried to hibernate during periods when the animals they hunted were in short supply.

The fossils that have been found show signs of cannibalism, perhaps by a rival hunting group that wanted to eliminate the competition, and they show signs of extreme wear and cracking. The worn condition of the teeth may have resulted from chewing on the hides of animals in order to soften them or to draw sustenance from them, and the cracking of the teeth may have resulted from trying to draw sustenance from the roots of wild vegetables that were pulled from the soil (with dirt clinging to them) during periods of food scarcity.