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The Origin and Early Evolution of Amniotes

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The Origin and Early Evolution of Amniotes Amniotes diverged from anthracosaurs in the Carboniferous period (late Paleozoic) The Amniotic Egg (shelled egg ... – PowerPoint PPT presentation

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Title: The Origin and Early Evolution of Amniotes


1
The Origin and Early Evolution of Amniotes
  • Amniotes diverged from anthracosaurs in the
    Carboniferous period (late Paleozoic)
  • The Amniotic Egg (shelled egg) - Enclosing the
    Pond
  • Amnion membrane enclosing the embryo (cushioned
    in amniotic fluid)
  • Allantois sac serves as respiratory surface and
    waste container highly vascularized
  • Yolk Sac contains nutrients for embryo modified
    into part of placenta in live-bearers
  • Chorion outer membrane highly vascularized (gas
    exchange occurs)
  • Shell porous, parchment-like or leathery in
    reptiles calcium absorbed by growing embryo
  • Skull Morphology and Amniote Radiation
  • Anapsid no temporal opening behind orbit
    (extinct groups, incl. mesosaurs)
  • Diapsid two pairs of temporal openings,
    separated by arch (incl. extant reptiles)
  • Synapsid single pair low on cheeks, bordered by
    arch (extinct taxa, led to mammals)
  • Other Derived Characteristics of Amniotes
  • Jaws bones and muscles allow crushing and
    gripping forces (vs. suction of fishes)
  • Rib ventilation draw air into lungs
    (aspiration) limbs freed rib muscles for new
    function
  • Thicker, waterproofed skin more keratin (beta
    keratin in reptiles) ? scales and scutes
  • Circulation atria completely partitioned two
    ventricles incompletely separated (excl.
    crocodiles, w/ complete separation)
    functionally separated pulmonary, systemic flows
  • Excretion excretion of ammonia (amphibians)
    involves loss of water bladder in reptiles
    absorbs water, nitrogenous waste excreted as
    uric acid
  • Nervous system enlarged cerebrum related to
    sensory integration and locomotion

2
FIG. 26.3
3
Fig. 26.1
4
Fig. 26.2
5
Fig. 26.4
6
Class Reptilia Diversity and Taxonomy
  • Class Reptilia 8,000 extant species Age of
    Reptiles in Mesozoic era (165 my span) most
    ectothermic many extinct forms (ex. dinosaurs,
    ichthyosaurs)
  • Order Testudines (Chelonia) Turtles
  • Little change in morphology from appearance in
    Triassic
  • Shell with carapace (dorsal) and plastron
    (ventral) outer layer of keratin and inner layer
    of bone (fused ribs and vertebrae) limbs and
    girdles positioned inside ribs, can be withdrawn
    (and head) for defense
  • Respiration hindered by shell lungs ventilated
    by limb movement and false diaphragm
  • Small brain, poor hearing, but acute olfaction
    and vision
  • Internal fertilization oviparous, with gender
    dependent on nest temperature in some (high
    temperatures produce females)
  • Diversity includes snapping turtles, giant
    tortoise, desert tortoise, sea turtles (incl.
    leatherback)
  • Order Squamata Lizards and Snakes (95 of
    extant reptiles) with kinetic skulls
    (movable joints) that allow prey manipulation
  • Suborder Sauria (lizards) include geckos,
    iguanids, skinks (reduced limbs), monitors (incl.
    Komodo dragon), chameleons, and beaded lizards
    (venomous) ectothermic eyelids
  • Suborder Serpentes (snakes) limbless two halves
    of lower jaw kinetic (allows ingestion of large
    prey) opening of trachea anterior rely mainly
    on chemoreception most oviparous
  • Order Sphenodonta Tuataras
  • Two species of Sphenodon in New Zealand
    (protected) living fossils parietal (3rd) eye
  • Order Crocodilia Crocodiles and Alligators
  • Elongated skull with massive jaw muscles
    secondary palate allows breathing with full
    mouth oviparous, with high nest temperatures
    producing males (vs. females in turtles)
  • Traits shared with birds true four-chambered
    heart, thecodont teeth (in sockets)
  • Diversity includes American alligator, saltwater
    crocodile, Nile crocodile, caimans

7
Fig. 30.16
8
Fig. 26.6
9
Fig. 26.9
10
Fig. 26.12
11
? FIG. 26.13
FIG. 26.14 ?
12
FIG. 26.15
13
? FIG. 26.16
FIG. 26.18 ?
14
Fig. 26.17
15
Fig. 26.19
16
Fig. 26.20
? FIG. 26.20
FIG. 26.24 ?
17
Fig. 26.27
18
FIG. 26.28
19
Fig. 26.5
20
Snakes Locomotion, Prey Capture, and Special
Senses
  • Locomotion
  • Lateral undulation lateral force exerted against
    surface irregularities
  • Concertina movement braces S-shaped loops
    against sides of channel
  • Rectilinear movement sections of body rest on
    ground with intervening sections pulled forward
    by muscles
  • Side-winding throws body forward in loops with
    body at 60 angle to direction of travel
    little contact with ground used by sidewinder
  • Prey Capture most snakes capture prey with
    mouth and swallow alive
  • Venom 20 of species vipers with movable,
    tubular fangs in front of mouth cobra family
    (incl. mambas, coral snakes, and kraits) with
    short, erect fangs in front of mouth most sea
    snakes rear-fanged Australia 4/1 ratio
    venom/non
  • Constriction capture prey larger than mouth
    most ambush (ex. pythons)
  • Special Senses
  • Jacobsons (vomeronasal) organs pair of pit-like
    organs in roof of the mouth, lined with
    chemoreceptors forked tongue picks up scent
    molecules of prey (can impart direction to prey)
  • Pit organs found only in pit vipers (Subfamily
    Crotalinae, incl. cottonmouths, copperheads, and
    rattlesnakes) heat-sensitive pit organs between
    nostrils and eyes enclose free nerve endings
    sense differences of 0.003 C track prey and
    aim strikes

21
Fig. 26.22
22
Fig. 26.26
23
Fig. 26.23
24
Fig. 26.21
25
Fig. 26.25
26
The Evolution and Extinction of the Dinosaurs and
Other Mesozoic Reptiles
  • Diversity of Extinct Reptiles evidence of
    parental care, herding, and endothermy for
    certain taxa
  • Order Saurischia (lizard-hipped)
  • Sauropods herbivorous, massive, quadrupedal (ex.
    Brachiosaurus)
  • Theropods carnivorous, bipedal
    (ex.Tyrannosaurus, Velociraptor) certain taxa
    gave rise to birds
  • Order Ornithischia (bird-hipped) most armored
    or with horns all herbivorous (ex. Stegasaurus,
    Triceratops, hadrasaurs)
  • Order Pterosauria winged, flying archosaurs (ex.
    Pteranodon)
  • Therapsids and Pelycosaurs early mammal-like
    amniotes (ex. Dimetrodon) relatives of early
    mammals
  • Ichthyosaurs dolphin-like marine reptiles (incl.
    Shonisaurus)
  • Plesiosaurs large, long-necked marine reptiles
  • Extinction of the Dinosaurs
  • Evidence suggests that many dinosaurs were
    already in decline before meteor impact at end
    of Cretaceous (K/T boundary) impact crater
    located off Yucatan Peninsula evidence for
    impact included shocked quartz, iridium layer

27
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