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Animal diversity and relationships

Animal diversity and relationships. Living forms. At least 30 phyla But only x “important” ones Importance = numerous, ecologically important, and fit into our conceptions of evolution. Porifera = sponges Assymetrical, 2 cell layers , internal silica spicules = skeleton.

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Animal diversity and relationships

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  1. Animal diversity and relationships

  2. Living forms At least 30 phyla But only x “important” ones Importance = numerous, ecologically important, and fit into our conceptions of evolution

  3. Porifera = sponges Assymetrical, 2 cell layers , internal silica spicules = skeleton.

  4. Cnideria, jellyfish, corals Radially symmetrical, 2 cell layers, one ended digestive system. Often with algae inside to provide nourishment Light sensitivity.

  5. Ctenophora – comb jellies Bilateral, one ended gut, marine

  6. Platyhelminthes = flat worms. Three cell layers, no body cavity, one ended digestive system, brain, nerves, many are parasitic.

  7. Two ended digestive system Head and tail, have an internal cavity – not solid. Very numerous in soil.

  8. Annelida = segmented worms; bigger most free living. Have nerves, three cell layers, true body cavity = coelom, circulatory system, excretory system. Skin breathing and many have legs. Some carnivorous, soil eaters or leaches – blood suckers

  9. Mollusca: clams, snails, squid, octopus, slugs Two ended gut, nerves, circulation, filter feeders or carnivorous. Some (squid, octopus) with eyes, brain, etc. Remnants of segmentation – chitins.

  10. Arthropods – joint leg = insects, crustacea Segmented, brain, sense organs, excretory system

  11. Echinoderms – pentaradiate, Starfish, urchins, sea lillys.

  12. Chordata, including vertebrata . Backboned organisms.

  13. The fossil record How to determine relationships – try fossils first.

  14. Burgess Shale in British Columbia, a unique preservation at the right age.

  15. Segmented worms (with legs?)

  16. arthropods

  17. Chordate – similar to early members of this group

  18. sponge

  19. ????

  20. Result of fossil record: all major groups plus some other odd ones appear almost simultaneously = no sequental appearance.

  21. How to make sense out of diversitywithout fossils. Rules: simple to complex symmetry (assymetrical, radial, bilateral) Cell layers – 1 to 2 to 3 Embryology - (old ontogeny recapitulates phylogeny statement of Haeckel) Digestive system design; one ended to two ended

  22. Ernst Haeckel, 1866; “ontogeny recapitulates phylogeny” = early stages of development mirror evolutionary changes. Note – gill clefts in all embryos, tail present, etc. Basis; development is often incremental – add new stages to old – harder to change the beginning stages.

  23. Classic example of this, the aortic arches in vertebrates. Start with a complete set; need gill arches to deposit them. All embryos have gill clefts and a complete set of arches To get to adult stages, loose some of the arches.

  24. Because of assymetry, doesn’t fit into any neat story – so viewed as a development separate from everything else. Phylum porifera; sponges. assymetrical

  25. Symmetry, bilateral or radial

  26. Radial symmetry plus one ended digestive system = primitive Jellyfish, corals, radial cnideria

  27. Bilateral symmetry; all other groups.

  28. Clues from development • Hollow ball of cells • Then 2 cell layers, one opening,radial symmetry= cnidaria • Then three cell layers – new opening • bilateral symmetry = all higher forms

  29. Cell layers 2 vs 3. sponges and cnideria = 2

  30. Digestive system – one ended vs. two ended

  31. Flatworms – bilaterial but with one openning to digestive system

  32. Other ‘worms’ – two ended digestive system.

  33. So: 1 – no symmetry, followed by radial and then bilateral - porifera oldest then cnidaria, then everything else 2. one ended gut, followed by 2 ended. 3. 2 cell layers, followed by three

  34. Now what? Use embryology – the great Protostome – Deuterostome split

  35. First opening = mouth Determinate clevage Spiral clevage Mesoderm = 4d cell Schizocoel coelom First opening = anus Indeterminate clevage Radial clevage Mesoderm = infolding Endocoel coelom Protostomes vs deuterostomes

  36. Classical method mesoderm – solid to pseudocoelom to true coelom one ended gut to two ended no segments to segments Protostomes – how to organize

  37. Body cavity (coelom) in relation to mesoderm Solid mesoderm = no coelom = flatworms acoelomate Coelom partially lined with mesoderm = roundworms pseudocoele Coelom completely lines with mesoderm = Segmented worms, vertebrates, etc. true coelom

  38. Result = Molluscs = chitin, segmented. Odd –legs?? Arthropods – trilobite = segmented and legs Seg. Worms (annelids) segments true coelom Round worms; two openings dig system pseudocoel Flatworms – one opening dig system, solid (acoelomate)

  39. Trilobite = arthropoda Chitin = mollusca Marine worm = annelida All segmented.

  40. Deuterostome, protostome split Protostomes groups by segmentation. Note: Classical classification ((it’s wrong)) Link segmentation together

  41. Lophotrochozoans Filter feeders Ecdysozoans Shell shedders New phylogeny

  42. Two phylogenies: left based on hypothesized relationships, right based on Both genetic similarity and time. Right is correct in that all major groups appear almost simultaneously (brushpile evolution)

  43. Note: flatworms,mollusc and annelid together// no arthropods

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