Unit 2

Question 1

Primatology

Answer 1

Study of non-human primates

Question 2

Homologies

Answer 2

Similarities of organisms from common ancestry

Question 3

Analogies

Answer 3

Convergent evolution

Question 4

Strepsirhini

Answer 4

(Prosimians) Lemurs and Lorises

Nocturnal, no color vision, ALL ENDANGERED

Question 5

Haplorhini

Answer 5

(Anthropoid) tarsiers, monkeys, apes and humans

Question 6

Platyrrhines

Answer 6

(New World Monkeys) small, arboreal, prehensile tail, quadrupeds

Question 7

Catarrhines

Answer 7

(Old World Monkeys)

Question 8

Colobines and Cercopithecines

Answer 8

downward facing nostrils, ischial callosities, double-ridged molars, most are terrestrial, non-prehensile tails, sexual dimorphism

Question 9

Hominoidea

Answer 9

Apes and Humans

Question 10

Gibbons and Siamangs

Answer 10

Sexual dimorphism, solitary, monogamous, nuclear families, brachiation, fruit eaters, mated pairs/sings

Question 11

Orangutans

Answer 11

Vegetarians, arboreal, sexual dimorphism, less social, polyandrous (females have multiple mates)

Question 12

Gorillas (lowland and mountain)

Answer 12

Vegetarians, sexual dimorphism, knuckle walkers, polygynous families, inclusive fitness (silverbacks will die defending the group) ENDANGERED

Question 13

Chimpanzees (Pan troglodytes- common & Pan paniscus- bonobos)

Answer 13

Knuckle walkers, nest in trees, less sexually dimorphic, omnivorous, polygynous, mate only during estrus cycle

Question 14

Sociality

Answer 14

Hallmark of nearly all the haplorhine primates and a fundamental behavioral adaptation

Question 15

Proximate Causes

Answer 15

Hormonal or physiological reason to act

Question 16

Reasons for sociality

Answer 16

Access to mates, food, predator avoidance

Question 17

Behavioral Ecology

Answer 17

Studies the evolutionary basis of social behavior

Question 18

Taphonomy

Answer 18

The study of what happens to the remains of an animal from the time of its death to the time of its discovery

Question 19

Trace fossils

Answer 19

Tracks of an animal

Question 20

Coprolites

Answer 20

Fossilized feces

Question 21

Era

Answer 21

Largest division of geologic time

Question 22

Period

Answer 22

Divisions of eras

Question 23

Epoch

Answer 23

Divisions of periods

Question 24

Relative Dating

Answer 24

Tells us how old something is in spatial relation to something else

Question 25

Provenience

Answer 25

A fossil location

Question 26

Lithostratigraphy

Answer 26

Using rock layer characters to correlate across regions

Question 27

Tephrostratigraphy

Answer 27

Using volcanic ash by chemical fingerprints to correlate across regions

Question 28

Biostratigraphy

Answer 28

Draws on the first appearance of an organism in the fossil record, that organisms evolutionary development over time and the organisms extinction to correlate across regions

Question 29

Radiocarbon Dating

Answer 29

Uses the amount of carbon 14 available in living creatures to determine the time of death by counting half lives (5,730 years)

Question 30

Potassium-Argon Dating

Answer 30

Dates volcanic materials by measuring radioactive emissions (1.3 billion years)

Question 31

Fission Track Dating

Answer 31

Micrometer-sized damage tracks are created in minerals and glasses that have minimal amounts uranium. These tracks accumulate at a fixed rate.

Question 32

Cenozoic Era

Answer 32

65 MYA
Rise of Mammals
Most land masses are tropical or subtropical, mammals replaced reptiles as dominant land animal class, flowering plants become more common which leads to more insects

Question 33

Paleocene Epoch

Answer 33

65 MYA

Primate-like mammals

Question 34

Eocene Epoch

Answer 34

54 MYA

Prosimians

Question 35

Oligocene Epoch

Answer 35

38 MYA

Anthropoids & Monkeys

Question 36

Miocene Epoch

Answer 36

23 MYA

Apes

Question 37

Pliocene Epoch

Answer 37

5 MYA

hominids

Question 38

Pleistocene Epoch

Answer 38

2 MYA

Ice Age

Question 39

Holocene Epoch

Answer 39

11 KYA

Question 40

Visual Predation Theory

Answer 40

Binocular vision, grasping and reduced claws developed because they allowed for capture of insects.

Question 41

Teilhardina asiatica

Answer 41

(55 MYA) found in China, skull with small eyes, active during day, developed enough to suggest earlier ancestor

Question 42

Purgatorius

Answer 42

A euprimate, less specialized teeth, small eyes indicating active during day, prognathic face less pronounced

Question 43

Adapid family

Answer 43

Probable ancestor of strepsirhines. Small eye sockets, slow moving quadruped, eats fruits down leaves, no dental comb

Question 44

Omomyid Family

Answer 44

May contain the common ancestor for tarsiers and anthropoids, diverse, ate insects and fruit, quadrupeds and leapers

Question 45

Darwinus masillae

Answer 45

(47 MYA) discovered in 2009, 95% complete skeleton, adapid with no grooming claws or dental comb

Question 46

Early Anthropoids

Answer 46

(55-45 MYA) most numerous, lived in trees, ate fruits and seeds, fewer teeth, smaller snout, forward eyes and larger brain

Question 47

Parapithecidae

Answer 47

Ancestral to New World Monkeys, three premolars in each quadrant

Question 48

Oligopithecidae

Answer 48

Earliest known with fused frontal bone and post orbital closure, three premolars

Question 49

Propliopithecidae

Answer 49

Ancestors of Catarrhines

Question 50

Aegyptopithecus

Answer 50

Famous ancestor, same tooth pattern as old world monkeys, transitional creature (Anthropoid into Hominoid) small brain and body, looks like link between Monkeys and Apes

Question 51

Oligocene Catarrhines

Answer 51

(38-23 MYA) Old World Monkeys, Apes and Humans

Question 52

Victoriapithecus

Answer 52

One of the first to become terrestrial, longer/lower skull, sagittal crest

Question 53

Early Miocene Hominoidea

Answer 53

Preconsul~> most abundant and successful anthropoids of early Miocene.
Includes three species: P. africanus, P. nyanzae, P. major
Teeth similar to living apes, but below neck more like monkeys

Question 54

Morotopithecus

Answer 54

(20.6 MYA) possible last common ancestor of Great Apes & Humans, short-stiff back of living apes and suspensory shoulder anatomy unlike monkeys

Question 55

Middle Miocene Hominoidea

Answer 55

(17 MYA) spread widely through Europe, Africa, Asia but diversity declined.
Afropithecus, Kenyapithecus, Equatorius in Africa
Sivapithecus in Asia

Question 56

Sivapithecus

Answer 56

(13 MYA) Brachiation, facial and dental similarities to Orangutans, may be ancestral

Question 57

Gigantipithecus

Answer 57

(~400 KYA) 9 ft tall, 660 lbs, all fossils are of teeth and jaw, ate bamboo, coexisted with Homo erectus in Asia

Question 58

Oreopithecus

Answer 58

Probable ancestor of gibbons and siamangs, partial upright walking capability, on hominin line but unique

Question 59

Pryopithecus

Answer 59

(12-8 MYA) Europe, anatomy that is like primitive Preconsul and gibbons, one nearly complete skeleton and many teeth, jaws and an upper arm bone

Question 60

Sahelanthropus tchadensis

Answer 60

(7-6 MYA) earliest evidence of upright walking, discovered in 2001 in Chad, ape-like brain, sloping face, prominent brow ridge, elongated skull, small canine teeth, spinal cord opening at base of skull

Question 61

Orrorin tugenensis

Answer 61

(6 MYA) central Kenya, discovered in 2001. Femur shows muscle attachments for walking upright.

Question 62

Ardipithecus kadabba

Answer 62

(5.8-5.5 MYA) discovered in 1997, ancestor of australopithecines. Ape-like in size, anatomy and habitat. Direct evidence of upright walking.

Question 63

Australopithecines anamensis

Answer 63

(4.2-3.9 MYA) first discovered in Kenya in 1994, bipedal, shin shows expanded area for support, human-like ankle joint, long forarms and wrist features indicate climbing

Question 64

Australopithecines afarensis

Answer 64

(3.9-2.9 MYA) Discovered in Afar, Ethiopia in 1974. “Lucy”, large jaws and teeth, bipedal, sexually dimorphic, ape-like face with small canines
Laetoli Footprints

Question 65

Australopithecines africanus

Answer 65

(3-2.5 MYA) rounder cranium with larger brain, smaller teeth, long arms, sloping face. Discovered at Olduvai Gorge.
“Taung Child” - discovered in 1924, small skull, bipedal, 3 years old at death

Question 66

Paranthropus aethiopicus

Answer 66

(2.7 MYA) defined by black skull, discovered in 1985, very small cranium, large jaws and teeth, sagittal crest.

Question 67

Paranthropus boisei

Answer 67

(2.3 MYA) nutcracker man, 520 cc cranium, large teeth and sagittal crest

Question 68

Paranthropus robustus

Answer 68

(1.8 MYA) 150 lbs, Heavy jaws and teeth, 530 cc cranium, gorilla-like sagittal crest