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Transcript of Physical Anthropology
S k u l l I D P r o j e c t | 1
Skull Identification Project
Brother George Bales, C.F.A.
University of Missouri-St. Louis
Physical Anthropology 1005
Lab Session: Monday 12:30-1:30 p.m.
Dr. Pamela Ashmore
December 7, 2009
S k u l l I D P r o j e c t | 2
This fossil cast’s field identification number
is KNM ER 1813 and it was discovered in
1973 by Kamoya Kimeu in Koobi Fora,
Kenya (Smithsonian Natural History Museum [SNHM]
Homo habilis, 2009). Homo habilis is the
taxonomic identification given to this species of hominin and it is commonly referred to as the
“handy man,” although it is thought to be a female. The name was given to the first specimen
found by the Leaky team in Olduvai Gorge, Tanzania because stone tools were found in the same
geologic location with the fossils. The tools are known as Oldowan tools or “pebble tools.” The
ability to make tools, a behavior, is what the Leaky team decided separated Homo habilis from
other hominins, thus, placing the species into the genus Homo (SNHM Homo habilis, 2009).
It is certain that Homo habilis lived between 2.3 to 1.5 mya. Interestingly, Homo habilis
is contemporaries with another hominin species called Homo rudolfensis. There is a lot of
debate to whether the two should be considered separate species (SNHM Homo habilis, 2009).
Homo habilis also lived at the same time as the Australopithecines. Homo habilis fossils have
been found in East Turkana, Kenya, Tanzania, Ethiopia, and South Africa. Homo habilis
occupied the east and southern regions of the African continent.
The estimated cranial capacity of Homo habilis is 680cc. Interestingly, the cut off was
between 700cc to 800cc to be considered in the genus Homo. The Leaky team lowered this
number to 600cc (SNHM Homo habilis, 2009). Homo habilis has expanded frontal and parietal
regions and a more rounded occipital as compared to earlier hominins. Homo habilis has
reduced alveolar prognathism as well. Furthermore, Homo habilis has a parabolic dental arcade
with larger anterior teeth corresponding to posterior pre molar and molars. In other words, there
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S k u l l I D P r o j e c t | 3
is an absence of postcanine megadontia (Kreger Homo habilis, 2009). Although there is less
sexual dimorphism with Homo habilis, it is still more than in later hominins. It is certain that
habilis is bipedal and has a precision grip in order to make tools. It is apparent that there is
digital shortening and the hallax is larger and fully abducted. There is definite thickening of the
metatarsal shaft with a human-like cross-sectional shape (Kreger Homo habilis, 2009).
Culturally, it is believed that Homo habilis lived in structures that were constructed on
the ground. They are believed to be the first hominins to create tools. It is debated whether they
were actually hunting or whether they were scavenging. Most likely, they were taking the
leftovers from other predators’ kills. It is believed that Homo habilis was the first hominin to
leave Africa.
This fossil cast’s field number is identified
as KNM WT 17000 and it was discovered
on August 29, 1985 by Alan Walker in
West Turkana, Kenya (SNHM Paranthropus
aethiopcus, 2009). It is believed to be a male
specimen. Paranthropus aethiopcus is the taxonomic identification given to this
species of hominin. Paranthropus aethiopicus was extant between 2.4 to 2.6 mya and
overlapped with Australopithecus africanus, Homo rudolfensis, and Homo habilis. This
specimen is commonly referred to as the “Black Skull” because of the dark color of the fossil
which is due to the high manganese content of the matrix it was embedded within. It is a
complete fossil of a “robust” early human (SNHM Paranthropus aethiopcus, 2009). Specimens
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S k u l l I D P r o j e c t | 4
have been found at sites in the East African Rift Valley, West Turkana, Kenya, and Omo,
Ethiopia. Paranthropus aethiopicus’ brain capacity was not much larger than that of a modern
chimp at 410cc (SNHM Paranthropus aethiopcus, 2009). Well under the cutoff set for genus
Homo.
Interestingly, Paranthropus aethiopcus’ cranial morphology is unique in that it has
adaptations for heavy chewing. That is to say, “the prominent sagittal crest running along the
midline at the top of the skull is the largest ever discovered in the human lineage” and the flaring
zygomatics, which are the bones that arch around the side of the skull to join below the eyes and
the saggital crest are all adaptive for chewing tough, hard, and fibrous material (SNHM
Paranthropus aethiopcus, 2009). It has a v-shaped jaw which is one reason discovers decided it
was different than other robusts. There is not much written about the post cranial morphology of
Paranthropus aethiopcus or about the cultural behavior because not enough fossils have been
discovered in order to draw better conclusions.
This fossil cast’s field identification
number is KNM ER 1470 and it was
discovered in Koobi Fora, Kenya by
Bernard Ngeneo in August of 1972 (SNHM
Homo rudolfensis, 2009). It is thought that
KNMER 1470 is a male specimen (Kreger Homo
rudolfensis, 2009). Homo rudolfensis is the taxonomic identification given to this species of
hominin. Homo rudolfensis was extant 2.4 to 1.8 mya and overlapped with Australopithecus
africanus, Homo habilis, Paranthropus aethiopicus, and Paranthropus boisei.
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S k u l l I D P r o j e c t | 5
Specimens have been found at sites in the East African Rift Valley. Koobi Fora, Kenya.
Homo rudolfensis’ brain capacity was 750cc (SNHM Homo rudolfensis, 2009). Interestingly,
Homo rudolfensis has a slight supraorbital torus across the forehead with no depression or
sulcus. There is some post orbital constriction. The species has a much longer face than Homo
habilis and the frontal bones of the cranium show that the species has a larger brain consisting of
early frontal lobe growth (Kreger Homo rudolfensis, 2009). There is a lack of a crest and heavy
muscle markings and the occipital is smoothly rounded. The dental morphology of Homo
rudolfensis consists of broader molar crowns as opposed to the narrower molar crowns of Homo
habilis. Moreover, the teeth are squared and some teeth are double rooted (Kreger Homo
rudolfensis, 2009). The lack of postcranial remains makes an assessment of body size very
difficult to measure, although due to the size of the teeth, it is thought to be bigger than Homo
habilis (Dorey Homo rudolfensis, 2009).
There is no evidence from archeological digs of Homo rudolfensis making tools;
however, they were living at a time when other species were making tools. It is possible that
these hominins were using Oldowan tools as well (Dorey Homo rudolfensis, 2009).
This fossil cast’s field number is NG 6 and
it was discovered between the years 1931
and 1933 by C. ter Haar and GHR von
Koenigswald in Ngandong, Java (SNHM Homo
erectus, 2009). Homo erectus is the taxonomic
name given to this species because when the first fossil was discovered in Indonesia in 1891 by a
Dutchmen who was looking for the “missing link,” he decided to call it the upright man to play
on the fact it was bipedal (Dorey Homo erectus, 2009).
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S k u l l I D P r o j e c t | 6
“[Homo erectus] lived between 100,000 and 1.6 million years ago, although some
estimates extend this to between 35,000 and 1.8 million years ago” during the Pleistocene era
(Dorey Homo erectus, 2009). Homo erectus was alive at the same time as Paranthropus
robustus, Paranthropus boisei, Homo heidelbergensis, Homo neanderthalensis, and Homo
sapiens. Traditionally, all the fossils found in Asia, Africa, and Europe were considered Homo
erectus; however, now, paleoanthropologists consider the specimens from each geographical
location different species. Namely, the fossils from Asia are identified as Homo erectus with
those in Africa being Homo ergaster and those in Europe being Homo heidelbergensis.
Homo erectus’ brain capacity is large at 600cc to 1250cc with an average of 984cc;
however, it is still smaller than anatomically modern humans. The face of Homo erectus was
large with a massive supra orbital torus, and a broad flat nose. The skull was flattened and
elongated with occipital angled with pronounced nuchal muscles. Homo erectus’ cranial bones
are thick with a distinct saggital keel shape. The mandible is large and thick without a pointed
chin and the molar teeth have large roots but are becoming more like modern humans (Dorey
Homo erectus, 2009). The incisors are shovel shaped at the posterior.
The post cranial morphology of Homo erectus is only part of the Chinese fossils and it is
thought that Homo erectus is shorter and stockier than anatomically modern humans (Dorey
Homo erectus, 2009). The pelvic girdle was narrow and the hind limbs were longer and the fore
limbs were shorter like modern humans; however, the “bones were thicker which suggests a
physically demanding lifestyle” (Dorey Homo erectus, 2009).
“Burnt stones and animal bones, charcoal and ash deposits indicate these people may
have used fire about 500,000 years ago but it is difficult to prove whether this use was
S k u l l I D P r o j e c t | 7
controlled” (Dorey Homo erectus, 2009). Certainly Homo erectus made simple tools such as
choppers and flakes but there is not many found in Asia; however, it is thought that many were
made from bamboo which does not preserve well like stone tools.
This fossil cast’s field number is OH 5
and it was discovered by Mary Leaky
in Olduvai Gorge, Tanzania on July
17, 1959 (SNHM Paranthropus boisei, 2009).
Paranthropus boisei is the taxonomic name
given to this “robust” hominin; however, it was
originally called “Zinjanthropus boisei” and is still referred to as “Zinj” or the “Nutcracker Man”
(SNHM Paranthropus boisei, 2009). The later name “boisei” is to honor Charles Boise who
funded the dig (Dorey Paranthropus genus, 2009). Considering the very pronounced saggital
crest running along the top of the skull it is said this is probably a male specimen (Dorey
Paranthropus boisei, 2009).
Paranthropus boisei lived between 1.0 and 2.3 million years ago at the same time as
Paranthropus robustus, Australopithecus africanus, Homo habilis, Homo ergaster, Homo
rudolfensis, and Homo erectus. Specimens attributed to Paranthropus boisei have been
discovered in Ethiopia, Tanzania, and Kenya in East Africa. Brain capacity was around 520cc
just a little over a chimp brain. Cranial features of Paranthropus boisei are ape-like with a flat
forehead and a prominent brow ridge or supraorbital torus above the eye and the face is relatively
broad, short, and flat with flaring zygomatics. The massive saggital crest and large mandible
helped in chewing a very hard diet. The postcanine teeth or molars were huge compared to the
anterior teeth. The large molars also aided in chewing and crushing tough dietary material.
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S k u l l I D P r o j e c t | 8
Males were a lot larger than the females in this species. The rib cage is “cone-shaped”
like the rib cage of apes as opposed to the “barrel-shape” of human rib cages (Dorey
Paranthropus boisei, 2009). However, the legs and pelvis have human-like features that
indicate bipedal locomotion but without the sophisticated stride of humans. The arms are rather
long compared to the legs (Dorey Paranthropus boisei, 2009).
According to Fran Dorey (2009), the Exhibition Project Coordinator for the Australian Museum,
The majority of scientists believe that these species did not manufacture stone tools, but
they may have used sticks or unmodified stone to access the tubers or hard nuts that were
part of their diet. It has been suggested that these species may have lived in social groups
based around a dominant male and several females, similar to modern gorillas (Dorey
Paranthropus boisei, 2009).
This fossil cast’s field number is
KNM-ER 3733 and it was
discovered by Bernard Ngeneo in
Koobi Fora, East Turkana, Kenya in 1975
(SNHM Homo ergaster, 2009). It is dated
to between 1.5 and 1.9 million years old and considered to be a female specimen (Dorey Homo
ergaster, 2009). Homo ergaster is the taxonomic identification given to this hominin. Homo
ergaster means “workman” and it is named this because large stone tools were found at some of
the sites (Dorey Homo ergaster, 2009).
“The core group within this species lived between 1.5 and 1.9 million years ago although
some classifications include additional individuals that extend their range to between about
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S k u l l I D P r o j e c t | 9
700,000 and 2 million years ago” (Dorey Homo ergaster, 2009). Fossils of this species of
hominin have been found in Africa and Eurasia. Important sites include regions around Lake
Turkana and Lake Victoria, Koobi Fora, Nariokotome, Olorgesailie, Swartkrans and Dmanisi,
Georgia (Dorey Homo ergaster, 2009).
The average brain size for this species was around 860 cubic centimeters solidifying it in
the genus Homo. The cranium or braincase was domed like modern humans; however, the
cranium had a moderate post-orbital constriction unlike modern humans. The face shows some
prognathism but not as much as earlier ancestors. A distinct groove is right between the distinct
double-arched supraorbital torus and the frontal bone. This species has a human like nose, that is
to say, the nose projects outward rather than being flat (Dorey Homo ergaster, 2009).
The jaw is short and lightly constructed unlike earlier species, which consequently gives
it a flatter, shorter face. There is not a chin like in modern humans and the teeth are intermediate
between that of humans and apes, that is to say, the side teeth were much more apart at the back
of the mandible than at the anterior position. The canines are modern in that they are short and
blunt like humans and the premolars and molars are smaller like human rather than earlier
species (Dorey Homo ergaster, 2009).
It is thought that the body is taller and slender with longer limbs to maximize cooling of
the body from the heat from the intense dry heat. The body might have not had as much hair as
earlier species as a consequence of environment and the heat as an adaptation to cool the body
with sweating (Dorey Homo ergaster, 2009). Culturally, Homo ergaster may have used fire
because charcoal, burnt earth and bones that had been burned have been found at sites near fossil
remains (Dorey Homo ergaster, 2009).
S k u l l I D P r o j e c t |
10
This fossil cast’s field identification number is STS 5
and it was discovered by Robert Broom and John T.
Robinson on April 18, 1947 in Sterkfontein, South
Africa. It is dated at 2.6 mya and is a female specimen commonly
referred to as “Mrs. Ples” (SNHM Australopithecus africanus,
2009). Australopithecus africanus is the taxonomic
identification given to this species of hominin. The name literally
mean “southern ape.” This species lived between 3.2 and 2
million years ago. The only known specimens have only been found in South Africa (Dorey
Australopithecus africanus, 2009).
The cranial capacity is on average approximately 480 cubic centimeters. This was small
but still relatively large when compared with a modern chimpanzee’s brain. When compared to
other species of the same genus, Australopithecus africanus shows some more human like
features such as a smaller supraorbital torus and a slightly arched as opposed to flat forehead and
of course the spine derived from the center of the skull base rather than from the back of the
skull (Doris Australopithecus africanus, 2009). The mandible and dental morphology are
intermediate of those of humans and apes and earlier species of the Australopithecines. The
incisors are smaller and shorter and a diastema between the canine teeth and the adjacent teeth is
rarer; however, premolars and molars are still rather large in size (Doris Australopithecus
africanus, 2009).
Post cranial morphology that is more apelike than human like includes a “cone shaped’
rib cage and long forearms but not as long as the legs. The foot bones show that this species
7
S k u l l I D P r o j e c t |
11
walks bipedal and the pelvis is completely adaptive for walking on two legs; however, in
comparison to human legs it is not as round and has a narrower birth canal (Doris
Australopithecus africanus, 2009).
According to Fran Doris (2009) “[this species] probably used simple tools such as sticks
found in the immediate surroundings and scavenged animal bones … [and] stones may also have
been used as tools, however, there is no evidence that these stones were shaped or modified
(Doris Australopithecus africanus, 2009).
This fossil cast’s field identification number is
Skhul V and it was discovered by T. McCown
and H. Moivus, Jr. on May 2, 1932 in Mount
Carmel, Israel and it is a male specimen dated at 90, 000
years old (SNHM Homo sapiens, 2009). The taxonomic
name given to this species of hominin is Homo sapiens,
which means “wise human.” This is the only extant
hominin and is relatively a young species only going back 300, 000 years to the present.
This species of hominin is found on every continent on the planet. Fossils of the earliest
members of this species, called archaic Homo sapiens have been found in Africa, and modern
Homo sapiens have been found in many sites across much of the world (Doris Homo sapiens,
2009). “Homo sapiens living today have an average brain size of about 1350 cubic centimeters
which makes-up 2.2% of our body weight (Doris Homo sapiens, 2009).
The Homo sapiens skull has a very high braincase and a short base unlike the other
species of Homo where the skull is very broad on top. Consequently, there is not any post orbital
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S k u l l I D P r o j e c t |
12
constriction. The nuchal muscles are reduced significantly and the occipital is rounded. The
face is small with a protruding nose and the mandible is short and has a chin which results in a
vertical face.. The supra orbital torus is very small and the forehead long. The orbits or eye
sockets are not round but rather square in Homo sapiens (Doris Homo sapiens, 2009). The jaw
has a parabolic dental arcade with the teeth arranged with the side rows splayed outwards rather
than parallel like in the species early ancestors. The front incisors and canine teeth are a lot
smaller than the species early ancestors as well (Doris Homo sapiens, 2009).
The archaic Homo sapiens have bodies that are slender with long limbs, which is an
adaptation for surviving in equatorial geographical regions. It helped to cool the surface of the
skin. More robust builds eventually evolved as population migrated to colder environments and
adapted to retain body heat.
Culturally, according to Fran Doris,
The earliest Homo sapiens had a relatively simple culture, although it was more advanced
than any previous species. Rare evidence for symbolic behavior appears about 100,000
years ago, but it is not until about 40,000 years ago that complex and highly innovative
cultures appear and include behavior that we would recognize as typical of modern
humans today (Doris Homo sapiens, 2009).
S k u l l I D P r o j e c t |
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Bibliography
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2009, from http://australianmuseum.net.au/Homo-rudolfensis/
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S k u l l I D P r o j e c t |
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