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Hominid Origins

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Title: Hominid Origins


1
Chapter 8
  • Hominid Origins

2
Chapter Outline
  • Early Primate Evolution
  • Miocene Fossil Hominids
  • Definition of Hominid
  • The Bipedal Adaptation
  • Biocultural Evolution The Human Capacity for
    Culture
  • Paleoanthropology as a Multidisciplinary Science

3
Chapter Outline
  • Dating Methods
  • Early Hominids from Africa
  • Australopithecus from East Africa
  • Early Homo
  • South African Hominids
  • Interpretations What Does It All Mean?

4
Early Primate Evolution
  • The roots of the primate order go back to the
    beginnings of the placental mammal radiation
    circa 65 m.y.a.
  • The earliest primates were diverging from quite
    early primitive placental mammals.
  • A vast number of fossil primates from the Eocene
    (5534 m.y.a.) have been discovered and now total
    more than 200 recognized species.

5
Eocene Primates
  • Fossil primates from the Eocene display
    distinctive primate features.
  • Looking at the whole array of Eocene primates, it
    is certain that they were
  • Primates
  • Widely distributed
  • Mostly extinct by the end of the Eocene.

6
Early Eocene Primates Features
  • Chinese fossils dating from the early Eocene
    (5545 m.y.a. have three interesting features
  • Forward rotation of the eyes, a feature that
    makes them distinct from the lemur-loris lineage.
  • The cranium shows small eye sockets, suggesting
    they may have been diurnal.
  • They were all apparently extremely small,
    weighing less than 1 ounce.

7
Oligocene Primates
  • The Oligocene (3423 m.y.a.) yielded fossil
    remains of several species of early anthropoids.
  • By the early Oligocene, continental drift had
    separated the New World from the Old World.
  • It has been suggested that late in the Eocene or
    very early in the Oligocene, the first
    anthropoids arose in Africa and reached South
    America by rafting over the water separation on
    drifting chunks of vegetation.

8
Major Events inEarly Primate Evolution
9
Miocene Hominoid Distribution, From Fossils Thus
Far Discovered
10
Miocene Fossil Hominoids
  • African forms (2314 m.y.a.)
  • Especially from western Kenya, these hominoids
    are, in many ways, primitive.
  • European forms (1611 m.y.a.)
  • From scattered localities in France, Spain,
    Italy, Greece, Austria, Germany, and Hungary,
    most are quite derived.

11
Miocene Fossil Hominoids
  • Asian forms (167 m.y.a.)
  • The largest and most varied group from Turkey
    through India/Pakistan and east to southern
    China, most are highly derived.

12
Miocene Hominoid Fossils
  1. These are hominoidsmore closely related to the
    ape-human lineage than Old World monkeys.
  2. Mostly large-bodied hominoids, more akin to the
    lineages of orangutans, gorillas, chimpanzees,
    and humans than smaller-bodied apes.
  3. Most of the Miocene forms thus far discovered are
    so derived that they are probably not ancestral
    to any living form.

13
Miocene Hominoid Fossils
  1. One lineage that appears well established relates
    to Sivapithecus from Turkey and Pakistan. This
    form shows some derived facial features similar
    to the modern orangutan, suggesting a fairly
    close evolutionary link.
  2. Evidence of definite hominids from the Miocene
    has not yet been indisputably confirmed. However,
    exciting new finds from Kenya, Ethiopia, and Chad
    (the latter dating as far back as 7 m.y.a.)
    suggest that hominids diverged sometime in the
    latter Miocene.

14
Patterns of Evolution
  • Mosaic evolution
  • Evolutionary pattern in which physiological and
    behavioral systems evolve at different rates.
  • Biocultural evolution
  • Biology makes culture possible and developing
    culture further influences biological evolution.

15
Mosaic Evolutionof Hominid Characteristics
Locomotion
Modern Homo sapiens Bipedal shortened pelvis body size larger legs longer fingers and toes not as long
Early hominid Bipedal shortened pelvis differences from later hominids, smaller body size and long arms relative to legs long fingers and toes probably capable of considerable climbing
Miocene, generalized hominoid Quadrupedal long pelvis some capable of considerable arm swinging, suspensory locomotion
16
Mosaic Evolutionof Hominid Characteristics
Brain
Modern Homo sapiens Greatly increased brain sizehighly encephalized
Early hominid Larger than Miocene forms, moderately encephalized prior to 6 m.y.a., no more encephalized than chimpanzees
Miocene, generalized hominoid Small compared to hominids, but large compared to other primates a fair degree of encephalization
17
Mosaic Evolutionof Hominid Characteristics
Dentition
Modern Homo sapiens Small incisors canines further reduced molar tooth enamel caps thick
Early hominid Moderately large incisors canines somewhat reduced molar tooth enamel caps very thick
Miocene, generalized hominoid Large front teeth (including canines) molar teeth variable, depending on species some have thin enamel caps, others thick enamel caps
18
Mosaic Evolutionof Hominid Characteristics
Toolmaking Behavior
Modern Homo sapiens Stone tools found after 2.5 m.y.a. increasing trend of cultural dependency apparent in later hominids
Early hominid In earliest stages unknown no stone tool use prior to 2.5 m.y.a. more oriented toward tool manufacture and use than chimpanzees
Miocene, generalized hominoid Unknownno stone tools probably had capabilities similar to chimpanzees
19
Revised Classificationof Hominoids
20
The Bipedal Adaptation
  • Efficient bipedalism as the primary form of
    locomotion is seen only in hominids.
  • Advantages of bipedalism
  • Freed the hands for carrying objects and for
    making and using tools.
  • In the bipedal stance, animals have a wider view
    of the surrounding countryside.
  • Bipedal walking is an efficient means of covering
    long distances.

21
Obligate Bipedalism
  • Bipedalism as the only form of hominid
    terrestrial locomotion.
  • Since major anatomical changes in the spine,
    pelvis, and lower limb are required for bipedal
    locomotion, once hominids adapted this mode of
    locomotion, other forms of locomotion on the
    ground became impossible.

22
Major Features of Hominid Bipedalism
  • The foramen magnum (shown in red) is repositioned
    farther underneath the skull, so that the head is
    more or less balanced on the spine (and thus
    requires less robust neck muscles to hold the
    head upright).

23
Major Features of Hominid Bipedalism
  • The spine has two distinctive curvesa backward
    (thoracic) one and a forward (lumbar) onethat
    keep the trunk (and weight) centered above the
    pelvis.

24
Major Features of Hominid Bipedalism
  • The pelvis is shaped more in the form of a basin
    to support internal organs moreover, the ossa
    coxae are shorter and broader, thus stabilizing
    weight transmission.

25
Major Features of Hominid Bipedalism
  • Lower limbs are elongated, as shown by the
    proportional lengths of various body segments
    (e.g., in humans the thigh comprises 20 of body
    height, while in gorillas it comprises only 11).

26
Major Features of Hominid Bipedalism
  • The femur is angled inward, keeping the legs more
    directly under the body modified knee anatomy
    also permits full extension of this joint.

27
Major Features of Hominid Bipedalism
  • The big toe is enlarged and brought in line with
    the other toes in addition, a distinctive
    longitudinal arch forms, helping absorb shock and
    adding propulsive spring.

28
Paleoanthropology
  • Paleoanthropology is defined as the study of
    early humans.
  • Paleoanthropologists reconstruct the anatomy,
    behavior, and ecology of our ancestors
  • It is a diverse multidisciplinary pursuit seeking
    to reconstruct every bit of information possible
    concerning the dating, anatomy, behavior, and
    ecology of our hominid ancestors.

29
Components of Paleoanthropology
Physical Sciences Biological Sciences Social Sciences
Geology Physical anthropology Archaeology
Geomorphology Ecology Ethnoarchaeology
Geophysics Primatology Cultural anthropology
Chemistry Psychology
Taphonomy
30
Dating Methods
  • Paleoanthropologists use two types of dating
    methods to tell us the age of sites and fossils
  • Relative dating determines only whether an object
    is older or younger than other objects.
  • Chronometric (absolute) dating provides an
    estimate of age in years based on radioactive
    decay.

31
Relative and Chronometric Dating
Relative Dating Chronometric Dating
Examples Stratigraphy Fluorine Dating K/Ar Radiocarbon (14 C) Fission-track
Methodological basis Provides a sequence only i.e., no estimates in actual number of years Most techniques are radiometric i.e., steady decay of radioactive isotope provides estimate in actual number of years
32
Relative Dating Techniques
  • Stratigrapy - based on the law of superposition,
    that a lower stratum (layer) is older than a
    higher stratum.
  • Fluorine analysis applies to buried bones and
    groundwater seepage. Bones incorporate fluorine
    during fossilization.

33
Relative Dating Techniques
  • Biostratigraphy - related to changes in the
    dentition of animals.
  • Paleomagnetism - based on the shifting of the
    geomagnetic pole.

34
Chronometric Dating Techniques
  • The age of an object can be determined by
    measuring the rate of disintegration
  • Potassium/argon (k/Ar) dating involves the decay
    of potassium into argon gas. K/Ar has a half-life
    of 1.25 billion years.
  • Carbon-14 is a radiometric method commonly used
    by archeologists. Carbon 14 has a half-life of
    5730 years.

35
Position of the Foramen Magnum
  • (a) a human and (b) a chimpanzee.
  • Note the more forward position in the human
    cranium.

36
Key Very Early Fossil Hominid Discoveries
(pre-Australopithecus)
Site Dates(m.y.a.) Hominids
East Africa Middle Awash (Ethiopia five localities) 5.85.2 Ardipithecus
East Africa Aramis (Ethiopia) 4.4 Ardipithecus ramidus
Central Africa Tugen Hills 6.0 Orrorin tugenensis
Central Africa Toros-Menalla 7.0 Sahelanthropus tchadenis
37
Features of Australopithecus
  1. They are all clearly bipedal (although not
    necessarily identical to Homo in this regard).
  2. They all have relatively small brains (i.e., at
    least compared to Homo).
  3. They all have large teeth, particularly the back
    teeth, with thick to very thick enamel on the
    molars.

38
Laetoli
  • Dated at between 3.5 and 3.7 m.y.a.
  • Fossilized hominid footprints were found in an
    ancient volcanic bed.
  • Despite agreement that these individuals were
    bipedal, some researchers feel they were not
    bipedal in the same way as modern humans.

39
Hadar (Afar Triangle)
  • Dating suggests a range from 3.9 to 2.3 m.y.a.
  • Recovered
  • "Lucy" an Australopithecus afarensis female, was
    recovered here.
  • Group of bones representing 13 individuals,
    including 4 infants, suggest a social unit died
    at the same time.
  • Some stone tools may be 2.5 million years old,
    making them the oldest cultural evidence yet
    found.

40
Koobi Fora (East Lake Turkana)
  • This site yielded the richest assemblage of
    Plio-Pleistocene hominids from the African
    continent.
  • Most of the hominids date to 1.8 m.y.a., others
    date back to 3.3 m.y.a.
  • 150 hominid specimens recovered at Koobi Fora
    represent at least 100 individuals.

41
West Turkana
  • Two important discoveries
  • Discovery of a nearly complete 1.6 m.y.a. Homo
    erectus adolescent.
  • Discovery of the black skull, a well-preserved
    2.4 million year old skull which caused a major
    reevaluation of Plio-Pleistocene evolution.

42
Olduvai Gorge
  • Louis and Mary Leakey conducted continuous
    excavations from the 1930's to early 1980.
  • Paleontological evidence includes more than 150
    species of extinct animals which can provide
    clues to the ecological conditions of early
    hominid habitats.

43
South African Sites
  • The first australopithecine the missing link
    between apes and humans was discovered at a
    quarry at Tuang.
  • As the number of discoveries accumulated, it
    became clear that the australopithecines were not
    simply aberrant apes.
  • The acceptance of the australopithecines as
    hominids required revision of human evolutionary
    theory.

44
Estimated Body Weights and Stature in
Plio-Pleistocene Hominids
Body Weight Body Weight Stature Stature
Male Female Male Female
A. afarensis 99 lb 64 lb 59 in. 41 in.
A. africanus 90 lb 65 lb 54 in. 45 in.
South Africanrobust 88 lb 70 lb 52 in. 43 in.
East African robust 108 lb 75 lb 54 in. 49 in.
H. habilis 114 lb 70 lb 62 in. 49 in.
45
Steps in Interpreting Homind Evolutionary Events
  1. Selecting and surveying sites.
  2. Excavating sites and recovering fossil hominids.
  3. Designating individual finds with specimen
    numbers for clear reference.
  4. Cleaning, preparing, studying, and describing
    fossils.

46
Steps in Interpreting Homind Evolutionary Events
  1. Comparing with other fossil materialin
    chronological framework if possible.
  2. Comparing fossil variation with known ranges of
    variation in closely related groups of living
    primates and analyzing ancestral and derived
    characteristics.
  3. Assigning taxonomic names to fossil material.

47
Groups of Plio-Pleistocene Hominids
  • Specimens represent 200 individuals from South
    Africa and more than 300 from East Africa.
  • Divided into four broad groupings
  • Set I Basal Hominids.
  • Set II Early Primitive Australopithecus.
  • Set III Later, more derived Australopithecus.
  • Set IV Early homo.

48
Set I. Basal Hominid(4.4 m.y.a.)
  • The earliest and most primitive remains are those
    from Aramis.
  • They have been classified as Ardipithecus
    ramidus, a different genus from all other
    Plio-Pleistocene forms.

49
Set II. Early Primitive Australopithecus,
4.2-3.0 m.y.a.)
  • The hominids from Laetoli and Hadar are assigned
    to Australopithecus afarensis.
  • A. afarensis is so primitive in the majority of
    dental and cranial features that if it were not
    for evidence of bipedalism, this primate would
    not be classified as a hominid.

50
Set III. Later, More Derived Australopithecus
(2.5-1.0 m.y.a.)
  • Robust Australopithecines
  • Larger body size
  • Small cranial capacities
  • Very large, broad faces
  • Massive back teeth and lower jaws
  • Gracile Australopithecines
  • Different face dentition

51
Set IV. Early Homo (2.4-1.8 m.y.a.)
  • The earliest appearance of our genus, Homo may be
    as ancient as the robust Australopithecines.
  • Leakey named these specimens Homo habilis ("handy
    man")
  • H. habilis differs from Australopithecus in
    cranial cavity and dental proportions.

52
Quick Quiz
53
  • 1. The primary task of an archeologist at a
    paleoanthropological site is to
  • search for hominid "traces."
  • reconstruct the ancient environment of the site.
  • establish the relationships of any fossil humans
    recovered.
  • perform dating techniques to establish the time
    period.

54
Answer a
  • The primary task of an archeologist at a
    paleoanthropological site is to search for
    hominid "traces."

55
  • 2. _________________ dating indicates that
    something is older or younger than something else.

56
Answer Relative
  • Relative dating indicates that something is older
    or younger than something else.

57
  • 3. The radiometric dating technique used to date
    material from a few hundred years old to 75,000
    years old is ___________.

58
Answer Carbon-14
  • The radiometric dating technique used to date
    material from a few hundred years old to 75,000
    years old is ___________.

59
  • 4. Efficient bipedalism as a primary form of
    locomotion is only seen in hominids.
  • True
  • False

60
Answer True
  • Efficient bipedalism as a primary form of
    locomotion is only seen in hominids.
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