1 / 49

Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle

THE CRANIATES: AMNIOTES. Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle Bacolod City. Amniotes : embryos develop within an amniotic sac in association with other extraembryonic membranes . Class REPTILIA (SAUROPSIDA) .

olesia
Télécharger la présentation

Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. THE CRANIATES: AMNIOTES Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle Bacolod City

  2. Amniotes: embryos develop within an amniotic sac in association with other extraembryonicmembranes

  3. Class REPTILIA (SAUROPSIDA) • 1st amniotes; 6,000 living species • Mostly ectothermictetrapods • Respiration by lungs • Skin dry, lacking mucous glands, and covered by epidermal scales, clawed • Reptilian subclasses are classified in part according to presence or absence of temporal fenestraewhich are large holes on the side of the skull serving as muscle attachments. • The resulting greater bulk of muscles results in stronger jaw musculature

  4. Eurypsida

  5. Cotylosaurs- stem reptiles; about 300 mya

  6. MODERN-DAY REPTILES

  7. Subclass ANAPSIDA • Chelonia- turtles & tortoises; unchanged for about 175 million years; identified by bony dermal plates to which ribs & trunk vertebrae are fused • Lepidosauria • Rhynchocephalia (Sphenodonta) - only living representative is the tuatara • Squamata - lizards, geckos, & snakes Tortoise- land dwelling; Turtle-aquatic

  8. Archosauria • Thecodontia- stem archosaurs: common ancestor for pterosaurs, dinosaurs, crocodilians & birds

  9. Saurischia& Ornithischia are the 2 dinosaur orders, with the division based on the shape of the pelvic bone. • Saurischianpubis juts forward, and its ischium points backward. • Herbivorous Ornithischian pubis & ischiumboth point backward; structure similar to birds • The famous carnivorous dinosaurs were from the Saurischianorder, as were the largest herbivorous dinosaurs.

  10. Pterosauria- winged diapsid reptiles; wing was supported by an elongated fourth digit; modified scales that were wing-supporting fibers are analogous to bird feathers Crocodilia- crocodiles and alligators Alligators have "U"-shaped, rounded snout, whereas crocodiles have pointed "V"-shaped noses. In alligators, the upper jaw is wider than the lower so the teeth are hidden when the mouth shuts. In crocodiles, the jaws are the same width, so teeth interlock when the mouth shuts. Crocodiles have salt glands on their making them tolerant to saline water. Alligators prefer to stay in freshwater areas. Crocodiles are also more aggressive than alligators

  11. Subclass EURYAPSIDA- marine reptiles

  12. Subclass SYNAPSIDA- first stage in evolution to mammals (Pelycosauria& Therapsida)

  13. Class AVES • Birds; 8,700 species; endothermic vertebrates with front limbs modified for flight; body covered with feathers; scales on feet. • May have arisen from an archosaurian reptile, perhaps a small bipedal dinosaur • Lost several dinosaur characteristics (e.g., long tail & teeth) but retained others: claws, scales, diapsid skull, single occipital condyle & feathers

  14. Subclass Archaeornithes Archaeopteryxappeared in mid-Mesozoic; it had solid bones, but weakly developed keel & weakly developed flight muscles

  15. Subclass Neornithes

  16. Odontognathae-extinct; toothed marine birds (Hespornis, Ichthyornis); many features of modern birds (e.g., hollow bones & short tail) Paleognathae- small wings but powerful leg muscles; flightless ratites (rhea, ostrich, emus, cassowaries)

  17. Neognathae- birds adapted for sustained flight; with large sternal carina; modifications to reduce weight include: loss of some bones, pneumatic bones, reduced tail, loss of teeth, loss of urinary bladder

  18. Class MAMMALIA • 4,500 species • Hair, mammary glands, 3 middle ear bones, muscular diaphragm, sweat glands, marrow within bones, 2 sets of teeth, biconcave, enucleate red blood cells, well-developed cerebral cortex

  19. Synapsid lineage began with Pelycosaurs (transitional between amphibians and later members), and succeeded by Therapsids from within mammals evolved. Mammals retain therapsid features: 2 occipital condyles, a secondary palate, heterodont dentition, dentary is the largest jaw bone.

  20. Prototherians

  21. Primates- arboreal mammals Apes have mobile, rotary shoulder joint which allows them to brachiate and hang from their arms Monkeys do not have a broad shoulder structure and are quadrupeds.

  22. Prosimians- nocturnal primates; tarsiers and lemurs • Anthropoids- Platyrrhines (New world monkeys, marmosets); Catarrhines (baboons, macaques, rhesus monkeys, man)

  23. Hominid lineage diverged from other primates about 7 million years ago.Humans compared to other hominids:                               • Brain size – large size allows development of language and social behavior. • Jaw shape – shortened to give a flatter face. • Bipedalism - walking on two legs. • Frees hands to do other things. • Eyes set higher; can see farther. • Females smaller than males • Extended parental care changes family structure & enhances learning and social behavior.

  24. THE SUMMIT OF CHORDATE EVOLUTION

  25. QUIZ NEXT MEETING Next: CRANIATE EMBRYOGENESIS

More Related