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Human Evolution Essay, Research Paper

Human evolution is the biological and cultural development of humans. A

human is any member of the species Homo sapiens, meaning ?wise man.? Since at

least the Upper Paleolithic era, some 40,000 years ago, every human society has

devised a creation myth to explain how humans came to be. Creation myths are based

on cultural beliefs that have been adopted as a legitimate explanation by a society as to

where we came from. The science of paleoanthropology, which also tries to create a

narrative about how humans came to be, is deeply technical. Paleoantropology is the

science of the evolution of humans, and it is the base of all research in that field.

Humans have undergone many different changes during the last hundred million years,

and it is the paleoanthropologist?s job to identify and explain these changes. In this

research paper I will examine: human physical traits that define their species, human

origins from pre-humans to modern humans, major discoveries and the history of

human evolution, and what the future may hold as far as evolution for the human

species.

Homo sapiens are the only living representative of the family Hominidae. The

Hominidae, or hominids are a group of upright walking primates with relatively large

brains. So all humans are hominids, but not all hominids could be called human. Next

all humans are primates. The mammalian order of primates include about 180 species

of prosimians (lemur like animals), monkeys, apes, and ourselves. Primates are

unusual mammals for they have evolved such distinctive traits as highly developed

binocular vision, mobile fingers and toes with flat nails instead of claws, a shortened

snout with a reduced sense of smell, and large brains relative to body size. If primates

are unusual for mammals, humans are even more unusual for primates. We are

essentially elaborated African apes. We share almost 99 percent of our genetic material

with chimpanzees. Yet we have several traits that are very different.

Two legged walking, or bipedalism seems to be one of the earliest of the major

hominine characteristics to have evolved. To accommodate this strange position, we

have developed a specialized pelvis, hip and leg muscles, and an S-shaped vertebral

column. Because these changes can be documented in fossil bone, bipedalism is seen

as the defining trait of the sub family Homininae.

Much of the human ability to make and use tools and other objects stem from

the large size and complexity of the human brain. Most modern humans have a

braincase volume of between 79.3 and 91.5 cubic inches. In the course of human

evolution the size of the brain has more than tripled. The increase in brain size may be

related to changes in hominine behavior. Over time stone tools, and other artifacts

became increasingly numerous and sophisticated. It is likely that the increase in

human brain size took place as part of a complex interrelationship that included the

elaboration of tool use and tool making, as well as other learned skills which permitted

our ancestors to be increasingly able to live in a variety of environments.

The earliest hominine fossils show evidence of marked differences in body size,

which may reflect a pattern of the different sexes in our early ancestors. The bones

suggest that females may have been 3 to 4 ft in height and about 60 to 70 lb. in weight,

while males may have been somewhat more than about 5 ft tall, weighing about 150 lb.

The reasons for this body size difference are disputed, but may be related to specialized

patterns of behavior in early hominine social groups. This extreme difference between

sexes appears to disappear gradually sometime after a million years ago.

The third major trend in hominine development is the gradual decrease in the

size of the face and teeth. All the great apes are equipped with large, tusklike canine

teeth that project well beyond the level of the other teeth. The earliest hominine

remains possess canines that project slightly, but those of all later hominines show a

marked reduction in size. Also, the chewing teeth, the premolars and molars, have

decreased in size over time. Associated with these changes is a gradual reduction in the

size of the face and jaws. In early hominines, the face was large and positioned in front

of the braincase. As the teeth became smaller and the brain expanded, the face became

smaller and its position changed. Thus, the relatively small face of modern humans is

located below, rather than in front of, the large, expanded braincase.

Evidence of immediate relatives of the human species begins about five million

years ago with the Australopithecus genus and leads in to the primitive Homo genus to

modern humans. The nature of the human?s evolution before that is uncertain, but

scientists have hypothesized some ideas. What they do know is that between 7 and 20

million years ago, primitive apelike animals were widely distributed on the African and

later on the Eurasian continents. Although many fossil bones and teeth have been

found, the way of life of these creatures, and their evolutionary relationships to the

living apes and humans, remain matters of strong disagreement among scientists. One

of these fossil apes, known as Sivapithecus, appears to share many features with the

living Asian great ape and the orangutan, whose direct ancestor it may well be. None

of these fossils, however, offers convincing evidence of being on the evolutionary line

leading to the hominid family generally. But they do help paint a picture of what early

human relatives could have been like.

The convincing fossil evidence for human evolution begins with

Australopithecus. Fossils of this genus have been discovered in a number of sites in

eastern and southern Africa, and were first identified in South Africa in 1924. Earliest

fossils show them existing about 3.9 million years ago, and the genus flourished until it

seemed to have become extinct about 1.5 million years ago. All the australopithecines

were efficiently bipedal and thus indisputable hominines. In details of their teeth, jaws,

and brain size, however, they differ enough among themselves to warrant division into

four species: A. afarensis, A. africanus, A. robustus, and A. boisei.

The earliest australopithecine is A. afarensis, which lived in eastern Africa

between 3 and 3.9 million years ago. Found in the Afar region of what is now Ethiopia

and in Tanzania, A. afarensis had a brain size a little larger than those of chimpanzees.

Some of the species possessed canine teeth somewhat more projecting than those of

later hominines. No tools of any kind have been found with A. afarensis fossils.

Between about 2.5 and 3 million years ago, A. afarensis apparently evolved into

a later australopithecine, A. africanus. Known primarily from sites in southern Africa,

A. africanus possessed a brain similar to that of its predecessor. However, although

the size of the chewing teeth remained large, the canines, instead of projecting, grew

only to the level of the other teeth. As with A. afarensis, no stone tools have been

found in association with A. africanus fossils.

By about 2.6 million years ago, the fossil evidence reveals the presence of at

least two, and perhaps as many as four, separate species of hominines. An evolutionary

split seems to have occurred in the hominine line, with one group evolving toward the

genus Homo, and finally to modern humans, and the others developing into

australopithecine species that eventually became extinct. The australopithecine species

that eventually became extinct includes the robust australopithecines, A. robustus, that

lived in southern Africa, and A. boisei, found only in eastern Africa. The robust

australopithecines represent an unusual adaptation because their principal difference

from other australopithecines lies in the large size of their chewing teeth, jaws, and jaw

muscles. The robust australopithecines became extinct about 1.5 million years ago.

Although scientists do not agree, many believe that after the evolutionary split

that led to robust australopithecines, A. africanus evolved into the genus Homo. This

was a species called Homo habilis, or “handy man.” Appearing about 2.5 million years

ago, the new hominid probably didn’t look terribly different from its predecessors, but it

had a somewhat larger brain. And, perhaps as a result of some mental connection other

hominids were unable to make, Homo habilis figured out for the first time how to make

tools.

Earlier species had used tools like bits of bone for digging, or sticks for fishing

termites out of their mounds (something modern chimps still do). But Homo habilis

deliberately hammered on rocks to crack and flake them into useful shapes. The tools

were probably not used for hunting, as scientists once thought. Homo habilis, on

average, was less than 5 ft. tall and weighed under 100 lbs., and it could hardly have

competed with the lions and leopards that stalked the African landscape. The hominids

were probably scavengers instead, supplementing a mostly vegetarian diet with meat

left over from predators’ kills. Even other scavengers like hyenas, jackals and the such

were stronger and tougher than early humans. But Homo habilis presumably had the

intelligence to anticipate the habits of predators and scavengers, and probably used

tools to butcher leftovers quickly and get back to safety.

Their adaptations to the rigors of prehistoric African life enabled members of

the Homo habilis species to survive for 500,000 years or more, and at least one group

of them apparently evolved, around 2 million years ago.

Around this time, East African mammals adapted to drier more open grassland

conditions. It was about this time that the new form of human emerged in Africa, a

hominid with a much larger brain, excellent vision, and limbs and hips fully adapted to

an upright posture. Paleoanthropologists call this hominid Homo Erectus, a human

much taller than its diminutive predecessors, standing on average five feet six inches

tall, with hands capable of precision gripping and many kinds of tool-making. The

skull is more rounded than those of earlier hominids, but still had a sloping forehead

and retreating brow ridges. Homo Erectus was more numerous and more adaptable

than Homo habilis, and, on present evidence, was a much longer lived species.

Archaeological sites for this species appear at higher, cooler elevations in southern,

eastern, and northern Africa. Homo erectus may have been a skilled big game hunter,

capable of organizing quite elaborate hunting and foraging expeditions, and using

multipurpose axes and cleaving tools.

Like all hunters and foragers, Homo Erectus had probably learned to live with

natural fires and was not afraid of them. In time, the new hominid may have made a

habit of conserving fire, taking advantage of smoldering tree stumps ignited by

lightning strikes and other natural causes to light dry bush. Then came the biggest step

of all, the making of fire. Perhaps as early as 1.5 million years ago, Homo erectus may

have learned to create fire in East Africa, but scientists still debate the issue. Fire

offers not only warmth, but protection against predators and an easy way of hunting

game, even insects and rodents. The toxins from many common vegetable foods can

be roasted or parched out in hot ashes, allowing people to use a wider range of foods in

their diet.

Homo erectus was a much larger species than its predecessors meaning that the

newcomers needed larger quantities of food to satisfy higher metabolic rates. This

meant they had to range over much larger hunting territories perhaps moving into more

open country, where trees were rarer. Perhaps, the bands now carried fire brands with

them as a weapon that would enable them to operate safely away from trees, and to

occupy dark caves where predators often lurked. It also enabled Homo erectus to settle

and live in far cooler environments. It may be no coincidence that the earliest human

settlement of Europe and Asia occurred after Homo Erectus could make as well as

tame, fire.

Somewhere between 200,000 and 300,000 years ago, Homo erectus evolved

into Homo sapiens. There is no particular reason to identify why evolution happened

during this period and exactly when it happened. In fact, certain fossils from this period

are classified as late Homo erectus by some scientists and as early Homo sapiens by

others, depending on the scientists belief in what happened.

Even though they are in the same genus and species as modern humans, these

early Homo sapiens do not have identical physical traits to modern humans. New fossil

evidence suggests that modern man, sometimes called Homo sapiens sapiens (a

sub-species of Homo sapiens), first appeared more than 90,000 years ago. There is

some disagreement among scientists on whether the hominine fossil record shows a

continuous evolutionary development from the first appearance of Homo sapiens to

modern humans. This disagreement has especially focused on the place of Neandertals

(or Neanderthals), often classified as H. sapiens neanderthalis, in the chain of human

evolution. The Neanderthals (named for the Neander Valley in Germany, where one of

the earliest skulls was found) occupied parts of Europe and the Middle East from

100,000 years ago until about 35,000 to 40,000 years ago, when they disappeared from

the fossil record. Fossils of additional varieties of early Homo sapiens have been

discovered in other parts of the Eurasia.

The dispute over the Neanderthals also involves the question of the evolutionary

origins of modern human populations, or races. Although a precise definition of the

term race is not possible (because modern humans show continuous variation from one

geographic area to another), widely separate human populations are marked by a

number of physical differences. Most of these differences represent adaptations to

local environmental conditions, a process that some scientists believe began with the

spread of Homo erectus sometime after a million years ago. In their view, human

development since Homo erectus has been one continuous, in-position evolution,

meaning, local populations have remained, changing in appearance over time. What

they are trying to say is that the peopling of the world, the spreading of humans, has not

changed since Homo Erectus. The Neanderthals and other early Homo sapiens are

seen as descending from Homo erectus and are ancestral to modern humans.

Other scientists view racial differentiation as a relatively recent phenomenon. In

their opinion, the features of the Neanderthals which are a low, sloping forehead, large

brow ridge, and a large face without a chin are too primitive for them to be considered

the ancestors of modern humans. They place the Neanderthals on a side branch of the

human evolutionary tree that became extinct. According to this theory, the origins of

modern humans can be found in southern Africa or the Middle East. Evolving perhaps

90,000 to 200,000 years ago, these humans then spread to all parts of the world,

supplanting the local, earlier Homo sapiens populations. In addition to some

fragmentary fossil finds from southern Africa, support for this theory comes from

comparisons of mitochondrial DNA, a DNA form inherited only from the mother,

taken from women representing a worldwide distribution of ancestors. These studies

suggest that humans derived from a single generation in southern Africa or

southeastern Asia. Because of the tracing through the material line, this work has come

to be called the ?Eve? hypothesis. Its results are not accepted by most scientists, who

consider the human race to be much older.

Whatever the outcome of this scientific disagreement, the evidence shows that

early Homo sapiens groups were highly efficient at exploiting the sometimes harsh

climates of Ice Age Europe. Further, for the first time in human evolution, hominines

began to bury their dead deliberately, the bodies sometimes being accompanied by

stone tools, by animal bones, and even by flowers.

Although the evolutionary appearance of modern peoples did not dramatically

change the basic pattern of adaptation that had characterized the earlier stages of

human history, some innovations did take place. In addition to the first appearance of

the great cave art of France and Spain some anthropologists have argued that it was

during this time that human language originated, a development that would have had

profound implications for all aspects of human activity. About 10,000 years ago, one of

the most important events in human history took place, plants were domesticated, and

soon after, animals as well. This agricultural revolution set the stage for the events in

human history that eventually led to civilization.

The next evolutionary stage, is modern humans as we know them. Early Homo

sapiens developed the traits that were discussed earlier, and man as we know it, came

to exist. But how do we know all these things occurred, and why? It all comes from

several very important steps in paleoanthropology. The earliest human skeleton ever

found was discovered in 1974 in a remote region of Ethiopia, a very well preserved A.

afarensis fossil. Nicknamed Lucy, paleoanthropologists have found out periods of

millions of years through her, and have used that knowledge to speculate on other

discoveries. Footprints, bones, teeth, etc. are all used to help piece together the puzzle.

Human evolution may have reached a dead end, foreseeable for a while at least.

Despite the enormous changes that we have wreaked on our environment, major

evolutionary changes in humans will not occur in the distant future. Scientists dismiss

the idea that the species is ?going somewhere? under natural selection and then

describe how most successful species are stable through their geological lifetimes.

Furthermore, given the relative pace of cultural change and lack of isolation of human

populations, there is little chance for a new different human species.

Modern understanding of human evolution rests on known fossils, but the

picture is far from complete. Only future fossil discoveries will enable scientists to fill

many of the blanks in the present picture of human evolution. Employing sophisticated

technological devices as well as the accumulated knowledge of the patterns of

geological deposition, anthropologists are now able to pinpoint the most promising

locations for fossil hunting more accurately. In the years ahead this will result in an

enormous increase in the understanding of human biological history.

Edgar, Blake, and Johanson, Donald. From Lucy to Language. New York: Simon and

Schuster, 1996.

Fagan, Brian. The Journey from Eden – The Peopling of Our World. London: Thames

and Hudson, 1990.

Gallagher, Richard B., Michael Murphy, and Luke O?Neill. ?What Are We? Where Did

We Come From? Where Are We Going?? Science 14 Jan. 1994: 181-183

Gibbons, Ann, ?When It Comes to Evolution, Humans Are in the Slow Class.? Science

31 March. 1995: 1907-1908

?Human Evolution.? Microsoft Encarta. 1996 ed. [CD-ROM]

Leakey, Richard. The Origin of Humankind. New York: Basic Books, 1994.

Lemonick, Michael ?New Thinking on Human Evolution? Time 14 March 1994: 81-87


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