1. INTRODUCTION TO THE ANIMAL KINGDOM Common Patterns and Development in Animals

2. What Are Animals? Animals are multicellular Eukaryotic Heterotrophic by ingestion (usually) Four key branch points: 1. Parazoa (No Tissues) vs. Eumetazoa (Tissues) 2. Radiata vs. Bilateria (Body Symmetry) 3. Acoelomate vs. Coelomate (Body Cavity Present) 4. Protostome vs. Deuterostome (Development)

3. Two Main Body Plans

4. Early Embryonic Development

6. Bilateral Body Plans 1.Must have 3 germ cell layers: Ectoderm, mesoderm, and endoderm. 2.Body cavity may be fully- lined, or partially-lined with mesoderm.

7. Animal Phlogeny Review

8. Animal Phylogenetic Tree

9. Phylum Porifera (Parazoa) Animals with porous bodies

10. Early Choanocyte Organism May Have Preceded Sponges

11. Sponge Anatomy

12. Summary of Poriferan Characteristics  No true tissues. Cell layers are loose federations of cells.  Sessile life cycle.  Filter feeders. Water drawn in and filtered by choanocytes (collar cells).  Central cavity called the spongocoel.  Excurrent opening called the osculum.  Contain wandering amoebocytes.  Sexual reproduction. Most are hermaphroditic.  Internal support by spicules: SiO 2, CaCO 3 or spongin.

13. Pylum Cnidaria (Stinging-celled Animals)

14. Body Plan of Cnidarians

15. Nematocysts Capture Prey

16. Cnidarian Life Cycle

17. Free-Living Medusa (Jellyfish)

19. Summary of Cnidarian Characteristics  Radial symmetry.  Two germ cell layers (Ectodern and endoderm).  Primitive nerve net of cells coordinates movement.  Sessile life style for some forms.  Body cylindrical with tentacles around a mouth.  Gastrovascular cavity for digesting prey.  Sexual reproduction or asexual reproduction by budding.  Nematocysts present: Signature “stinging cells” on tentacles

20. Phylum Platyhelminthes (Flatworms)

21. Flatworm Body Plan

22. Parasitic Flukes

23. Tapeworm Lifecycle

25. Phylum Nematoda (Round Worms) C. elegans

26. Summary of Nematode Characteristics  The most numerous soil animals with thousands per liter of soil  Dimorphic – Separate male and female forms  Not segmented  Covered by a cuticle.  Complete digestive tract but no circulatory system.  Pseudocoelom partially lined with mesoderm.  Caenorhabitis elegans, DNA fully sequenced and development known cell-by-cell.  Pinworm, hookworm, Trichinella spiralis

27. Parasitic Nematode Lifecycle

28. Phylum Annelida (Segmented Worms) Marin Polychaete Marine Christmas- tree worm Leech

29. Earthworm Anatomy

30. Summary of Annelid Characteristics  Segmented body plan.  Majority are free-living in all environments.  Complete coelom, though segmented by septa.  Earthworms have closed circulatory system and all other systems are well developed.  Hermaphroditic, but only cross-fertilize.  Each segment contains a pair of metanephridia.  Three classes: Earthworms, polychaetes, leeches.  Protostome development.

32. Phylum Mollusca (Soft-bodied Animals)

33. Mollusca Are A Diverse Phylum

34. All Mollusks Have a Similar Body Plan

35. Clam Body Plan

36. Summary of Mollusk Characteristics  Bilateral symmetry.  Coelomate  Complete digestive tract, but open cirulatory system.  Many have shells: either single or double (bivalves).  Protostome development.  Possess a mantle and muscular foot.

37. Phylum Arthropoda (Jointed-leg Animals)

38. Summary of Arthropod Characteristics  All possess an exoskeleton composed of chitin with jointed body and appendages.  Open circulatory system.  Bilateral symmetry with true coelom.  Protostome development.  Some born as immature nymphs (small versions of adults), others born as larvae which undergo metamorphosis to adult form.  May be classified by body segments, number of legs, mouth parts, or development.

40. Arthropod Body Plan

41. Insect Body Plan

42. Arachnid Body Plan

43. Phylum Echinodermata (Spiny-skinned Animals)

44. Echinoderm Anatomy

45. Summary of Echinoderm Characteristics  Radial Symmetry (larval stages may be bilateral) but may have evolved from bilateral ancestors.  True coleom.  Deuterostome development.  Possess a water vascular system with tube feet for locomotion.  All marine.

46. Phylum Chordata

47. Summary of Chordate Characteristics There are five main chordate features. These features are frequently temporary, only appearing during embryonic development.  Notocord present: Dorsal, flexible rod or cartilage functioning as support. Usually replaced by bone in most chordates.  Dorsal hollow nerve cord: Forms basis for nervous system. May become brain and spinal cord.  Pharyngeal gill slits: May become gills, or features of the head.  Muscular tail: Extends beyond the digestive tract. Often lost in development.  Somites present: Muscle segments blocks of mesoderm. Chordates are segmented animals.

48. Dorsal Nerve Cord Develops From A Fold In The Dorsal Embryonic Ecotoderm

49. Phylum Chordata - Chordates

50. Lancelet Anatomy

51. Tunicate and Tunicate Larva (Primitive Chordate) Larva Adult

52. Classes of Subphylum Vertebrata  Agnatha – Jawless fish: Hagfish, lampreys  Chondrichthyes – Cartilaginous fish: Sharks, rays, skates  Osteichthyes – Bony fish  Amphibia – Salamanders, frogs, toads  Reptilia – Snakes, turtles, crocodilians  Aves – Birds  Mammalia - Mammals

53. THE END