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Invertebrate and Vertebrate Evolution and Diversity

Invertebrate and Vertebrate Evolution and Diversity. Animal Evolution. Cnidaria. Nematoda. Annelida. Echinoderm. Porifera. Platyhelminthes. Mollusca. Arthropoda. Chordata. sponges. jellyfish. flatworms. roundworms. mollusks. segmented worms. insects spiders. starfish.

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Invertebrate and Vertebrate Evolution and Diversity

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  1. Invertebrate and Vertebrate Evolution and Diversity

  2. Animal Evolution Cnidaria Nematoda Annelida Echinoderm Porifera Platyhelminthes Mollusca Arthropoda Chordata sponges jellyfish flatworms roundworms mollusks segmentedworms insectsspiders starfish vertebrates backbone segmentation endoskeleton coelom body cavity bilateral symmetry tissues multicellularity Ancestral Protist

  3. Phylum Porifera food taken into each cell by endocytosis • Sponges • no distinct tissues or organs • do have specialized cells • no symmetry • sessile (as adults)

  4. Phylum Cnidaria • Jellyfish, hydra, sea anemone, coral • tissues, but no organs • two cell layers • radial symmetry • predators • tentacles surround gut opening • extracellular digestion • release enzymes into gut cavity

  5. mouth tentacles sensory cell discharged nematocyst stingingcell undischarged nematocyst hydra trigger stinging cell with nematocyst Stinging cells of Cnidarians

  6. ectoderm mesoderm endoderm Phylum Platyhelminthes • Flatworms • tapeworm, planaria • mostly parasitic • bilaterally symmetrical • allows high level of specialization within parts of the body • now have a mouth at one end & an anus at the other!

  7. Phylum Nematoda • Roundworms • bilaterally symmetrical • have both mouth & anus • well-developed digestive system • many are parasitic • hookworm C. elegans

  8. Phylum Mollusca • Mollusks • clams, snails, squid • bilaterally symmetrical (with exceptions) • soft bodies, mostly protected by hard shells • true coelem

  9. Phylum Annelida • Segmented worms • earthworms, leeches • segments are not specialized • bilaterally symmetrical • true coelem fan worm leech

  10. Phylum Arthropoda • Spiders, insects, crustaceans • most successful animal phylum • bilaterally symmetrical • segmented • allows jointed appendages • exoskeleton • chitin + protein

  11. Arthropod groups arachnids 8 legs, 2 body parts spiders, ticks, scorpions crustaceans gills, 2 pairs antennae crab, lobster, barnacles, shrmp insects 6 legs, 3 body parts

  12. Phylum Echinodermata • Starfish, sea urchins, sea cucumber • Water vascular system (hydraulic canals) • Locomotion, feeding, gas exchange • radially symmetrical • spiny exoskeleton

  13. Phylum Chordata • Two subphyla of invertebrate animals… • And the subphylum Vertebrata • fish, amphibians, reptiles, birds, mammals • internal bony skeleton • backbone encasing spinal column • skull-encased brain hollow dorsal nerve cord becomes brain & spinal cord becomes gills or Eustachian tube Oh, look…your firstbaby picture! pharyngeal pouches becomes vertebrae postanal tail becomes tail or tailbone notochord

  14. 450 mya salmon, trout, sharks Vertebrates: Fish • Characteristics • body structure • bony & cartilaginous skeleton • jaws & paired appendages (fins) • scales • body function • gills for gas exchange • two-chambered heart; single loop blood circulation • ectotherms • reproduction • external fertilization • external development in aquatic egg gills body

  15. Humerus Femur Ulna Pelvis Shoulder Tibia Radius Lobe-finned fish Fibula Femur Pelvis Humerus Shoulder Radius Tibia Ulna Fibula Early amphibian Transition to Land Evolution of tetrapods

  16. lung buccal cavity glottis closed 350 mya frogs salamanders toads Class Amphibia • Characteristics • body structure • legs (tetrapods) • moist skin • body function • lungs (positive pressure) & diffusion through skin for gas exchange • three-chambered heart;veins from lungs back to heart • ectotherms • reproduction • external fertilization • external development in aquatic egg • metamorphosis (tadpole to adult)

  17. leathery shell embryo amnion chorion allantois yolk sac 250 mya dinosaurs, turtles lizards, snakes alligators, crocodile Class Reptilia • Characteristics • body structure • dry skin, scales, armor • body function • lungs for gas exchange • thoracic breathing; negative pressure • three-chambered heart • ectotherms • reproduction • internal fertilization • external development in amniotic egg

  18. lung trachea anterior air sacs posterior air sacs 150 mya finches, hawk ostrich, turkey Class Aves (Birds) • Characteristics • body structure • feathers & wings • thin, hollow bone;flight skeleton • body function • very efficient lungs & air sacs • four-chambered heart • endotherms • reproduction • internal fertilization • external development in amniotic egg

  19. muscles contract diaphragm contracts 220 mya / 65 mya mice, ferret elephants, batswhales, humans Class Mammalia • Characteristics • body structure • hair • specialized teeth • body function • lungs, diaphragm; negative pressure • four-chambered heart • endotherms • reproduction • internal fertilization • internal development in uterus • nourishment through placenta • birth live young • mammary glands make milk

  20. Class Mammalia • Sub-groups • monotremes • egg-laying mammals • duckbilled platypus, echidna • marsupials • pouched mammals • short-lived placenta • koala, kangaroo, opossum • placental • true placenta • shrews, bats, whales, humans

  21. Vertebrate quick check… • Which vertebrates lay eggs with shells? • Which vertebrates are covered with scales? • What adaptations do birds have for flying? • What kind of symmetry do all vertebrates have? • Which vertebrates are ectothermic and which are endothermic • Why must amphibians live near water? • What reproductive adaptations made mammals very successful? • What characteristics distinguish the 3 sub-groups of mammals?

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