Amniota

Question 1

Amniota

Answer 1

Ancestral amniote was essentially a reptile

Keys to invasion of land:

1) Amniotic Egg
2) Tough and desiccation-resistant skin

Question 2

Amniote Synapomorphies

Answer 2

Amniotic Egg and its associated 3 membranes:

1) Amnion
2) Chorion
3) Allantois

Loss of larval stage

Loss of gills

Loss of lateral line system

Keratinized skin (resistant to water loss)

True nails/claws (hardened keratin)

Loss/reduction of skull elements in many derived lineages (as with lissamphibians)

Lungs have a greater internal SA filled by thoracic expansion via a negative pressure produced by rib cage usually with sternum (instead of buccopharyngeal pumping via positive pressure as in lissamphibians)

Internal fertilization (most with intromittent organ): ALL amniotes

True penis: Erectile tissue fills with blood

• -Retained by turtles, crocodylians, and mammals
• -LOST in most birds and lepidosaurs

Question 3

Other characteristics of Amniotes

Answer 3

2 pairs of limbs with 5 digits (ANCESTRAL: CROWN tetrapod synap)
–MANY examples of reduction/loss

Respiration usually exclusively by lungs

Circulatory system divided into pulmonary and systemic circuits with partially to completely divided ventricle (ancestral)

Question 4

Amniota

Answer 4

Origins: Early Carbiniferous

• Came from ANTHRACOSAUR lineage (similar to how lissamphibians originated from a temnospondyl lineage)
• Extinct basal anthracosaur and temnospondyl lineages were oth “amphibian-like”

3 major groups by later Carbiniferous based on SKULL MORPHOLOGY:

1) Anapsids
2) Diapsids
3) Synapsids

Major radiation in Permian (global drying following Carboniferous)

Question 5

Anapsida

Answer 5

NO temporal skull opening behind the orbits (completely roofed by dermal skull bones)

Turtles HISTORICALLY considered anapsids:

• NOT actually anapsids, very derived DIAPSIDS
• -CONVERGENCE

NO extant representatives

POLYPHYLETIC group

Question 6

Diapsida

Answer 6

SYNAPOMORPHY:

• 2 temporal skull openings (fenestrae/fenestrations) behind orbits separated by bony arch
• -Numerous derived conditions in extant taxa obscure original diapsid skull morphology

Represented by ALL living reptiles (HISTORICALLY minus turtles) including birds

2 major lineages:

1) Archosauromorpha
2) Lepidosauromorpha

Question 7

Lepidosauromorpha

Answer 7

MOST BASAL to MOST RECENT:

Ichthyosauria

Pleisiosauria

Lepidosauria

Question 8

Ichthyosauria

Answer 8

Contains ichthyosaurs

Most BASAL lepidosauromorphs

Specialized for aquatic HABIT

Derived from terrestrial ancestors

Basal/ancestral forms had a lizard-like morphology

DERIVED forms had a porpoise-like morphology

• -Showed much convergence with whales; however, they DIFFERED in lateral tail movements:
• –Ichthyosaurs have LATERAL undulation
• —More basal character for a more basal lineage; ancestral character of chordates
• –Whales have DORSOVENTRAL locomotion
• —Whales started as dog-like creatures that TRANSITIONED to water, so had a dorsoventrally articulating spine

Tail-first birth

Question 9

Pleisiosauria

Answer 9

Derived from terrestrial ancestors

Sister taxon to lepidosaurs (maybe)

Specialized for aquatic habit

Necks moderately to extremely long

Paddle-like limbs

Viviparous

Question 10

Lepidosauria

Answer 10

All EXTANT reptiles except turtles, crocodylians, and birds

Tuatara, lizards/snakes/amphisbaenians

Accounts for >95% of extant non-avian reptiles

SYNAPOMORPHIES:

• Periodic epidermal shedding (derived mechanism)
• Caudal autotomy
• -Able to lose and re-grow tail
• Teeth fused to jaw bones (NO tooth sockets in jaw bones)

Question 11

Archosauromorpha

Answer 11

Controversial phylogenetic placement of TESTUDINES (turtles):

• DNA indicates closer relationship to ARCHOSAUROMORPHA
• Morphology (and alternative genetic material like RNA) indicates closer relationship to LEPIDOSAUROMORPHA

Question 12

Archosauria

Answer 12

Includes crocodylians, pterosaurs, dinosaurs, and birds

Flight evolved 2x in Archosauria:

1) Pterosaurs
2) Birds

Repeated evolution of bipedalism

SYNAPOMORPHIES:

• Antorbital and mandibular fenestrations
• Thecodonty (teeth set in SOCKETS)

Question 13

Crocodylia

Answer 13

Member of ARCHOSAURIA

Fossil record >215mya

<1% of extant non-avian reptile species: relict of past diversity

Question 14

Pterosauria

Answer 14

Member of ARCHOSAURIA

Membranous wings

1st vertebrates to evolve POWERED FLIGHT

Sparrow-sized to 12 m wingspan

Insectivores, plankton strainers, piscivores (fish-eaters)

Question 15

Which archosaurs did flight evolve in?

a) birds
b) bats
c) pterosaurs
d) dinosaurs
e) a and c

Answer 15

e) a and c

Bats are NOT archosaurs

Question 16

Dinosauria

Answer 16

Members of ARCHOSAURIA

Archosauria means “ruling lizards” but none of its members (including dinosaurs) are lizards
-Reflects inclusion of dinosaur lineages

Dinosaurs include 2 lineages:

1) Ornithischia
- -“Bird hipped dinosaurs:” Does NOT include birds
2) Saurischia
- -“Lizard hipped dinosaurs:” DOES include birds

2 dinosaur lineages are each a clade and combined probably constitute a clade (Dinosauria)

Question 17

Ornithischia

Answer 17

Member of DINOSAURIA

Chicken-sized to truck-sized

ALL herbivores

MOST quadrupedal but SOME bipedal forms

Question 18

Saurischia

Answer 18

Member of DINOSAURIA

Pigeon-sized carnivores to behemoth herbivores

SYNAPOMORPHY:

• -Mobile S-shaped neck
• –Present in birds, too (which are saurischians)

2 lineages:

• Sauropodomorpha
• Theropoda (includes birds)

Question 19

Sauropodomorpha

Answer 19

Members of SAURISCHIA

Herbivores

Included huge quadropedal forms (to 40m long and 100,000kg): LARGEST land animals ever on earth

Some with very long necks (to 15 cervical) and tails (up to 80 caudal vertebra)

Question 20

Theropoda

Answer 20

STEM Theropoda are small to large carnivores

Most bipedal with reduced forelimbs

Clade includes birds

Question 21

Aves

Answer 21

Birds are theropods, saurischians, dinosaurs, archosaurs, archosauromorphs, diapsids, reptiles, amniotes, and so on…

Question 22

Synapsida

Answer 22

SYNAPOMORPHY:
One temporal skull opening behind orbits

First lineage to diverge from ancestral amniotes
–Sister taxon to all other extant amniotes

Major groups: Pelycosauria, Therapsida, Cynodonta, Mammalia (ONLY extant lineage)