The diapsids Flashcards
Chelonia morphology
Turtles - fossils 220mya
•staggered bits at back of skull suggest holes covered
•no teeth - lost, have horny beak for rasping at food
•can bend neck into their shell
•2 different groups bend it in an S shape or to the side
Chelonia skeleton modifications
•covered by carapace (on top) and plastron (bottom)
-restrictive but provides protection
•carapace has keratinised scoots on top making pattern
-made of bone underneath, extensions of the ribs
•vertebral column and ribs fused to carapace
•plastron has some bone, also covered in keratin on outside
Chelonia respiration
Has to be different due to carapace fused with ribs and vertebrae
•lungs at top of body/shell
•fused to viscera beneath membrane
•muscles below viscera
•animal breathes due to changes in viscera
•muscles contract and push on viscera - upwards, lungs become smaller and exhales - vice versa for inhaling
-linked to legs too
•aquatic breathe through cloaca which is vascularised, some using mouths
Sexes in Chelonia
Environmental sex determination using temperature
•reach certain temp suddenly all F - 30+°C, below = M
•lizards get F at lower, and M at higher temps
•usually sex that is bigger at higher temps
Lepidosaurs
- Sphenodonta - tuatara
2. Squamates - lizards and snakes
Sphenodonta
Tuatara
•found in NZ - extinct on mainland, but found in surroundings
•diapsid skull
•nocturnal - associated with burrows of seabirds, live alongside seabirds in their burrows
•mainly feed on inverts, but sometimes chicks
•nocturnal has low body temp but still active
•can raise this in day when sunny
Squamates
- modified diapsid skull
- snakes lost both bars, lizard only one (bottom bar)
- 95% of all living reptiles
Lizards
•large range in size
•smaller are insectivorous (associated with humans as attracted to light)
•larger are herbivores as can’t feed on insects
-some carnivores, Komodo dragon and Tegu
•limb reduction - evolved over 60 times independently
-burrowing and living in vegetation
•surface dweller limbless lizards - have longer tails, can control movements better
-burrowing limbless lizards - shorter tails as long gets in way, cannot burrow effectively
Snakes evolution
•essentially specialised limbless lizards
•evolved from lizards that were burrowing - then became surface dwellers - losing limbs and becoming blind
•snakes have different eyes form lizards - went blind in burrowing or developed differently and came back to surface with different eyes
-theory came from marine E but burrowing is better
Snake morphology
- very long thorax and short tail (varies) and neck
- Oct4 manipulated gene leads to increase in thorax length and causes reduction of limb development (seen in mice)
- most lack pelvic and pectoral girdles - but some are vestigial
- long body - concentrates weight to be distributed into tube, reducing diabetes as a consequence
Snake eating and adaptations for this
- jaw is extremely flexible, can take in food bigger than diameter
- 5 points of articulation in jaw, where it can move apart
- do not dislocate jaw, just flexible
- backward pointing teeth to help push food back into stomachs
Snake predation methods
•some snakes swallow prey whole alive
•some subdue prey by…
-fangs injecting venom to kill or subdue
-constrictors will wrap around prey restricting blood flow to vital organs causing death that way, requires strong body muscles
Crocodylia
Alligators, gharials and crocodiles
•close relationship to birds
•diapsid with some features like mammals
•sensory structures in mouth, little bulges are very sensitive to movement and touch
•jaws used for different purposes
•moves in different ways - crawls with legs down, lift legs up and walk on back, and gallop
Diapsid skull and head adaptations
- teeth imbedded in skull - thecodont teeth (convergent evolution with mammals)
- secondary palette which allows them to breathe whilst underwater
Jaws used for…
- manipulate food - forelimbs are too small
- needs to be sensitive to find prey
- use it for parental care - carry young in mouth and open up the egg when offspring hatching
