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Kingdom Animalia

Kingdom Animalia. Multicellular, heterotrophic eukaryotes Capable of controlled locomotion Unique tissue: nervous and muscle 35 phyla > 1 million described species 3 - 30 million estimated number of species (See Table 32.1 for a more complete list of common characteristics). Animal Origins.

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Kingdom Animalia

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  1. Kingdom Animalia • Multicellular, heterotrophic eukaryotes • Capable of controlled locomotion • Unique tissue: nervous and muscle • 35 phyla • > 1 million described species • 3 - 30 million estimated number of species (See Table 32.1 for a more complete list of common characteristics)

  2. Animal Origins • Arose from a colonial flagellated protistan • Colonial Theory (Haeckel) • Coordination and cooperation between cells • Common features between animals and protists

  3. Proterospongia haeckeli • An extant colonial • choanoflagellate • Note cellular specialization • - flagellated cells • - amoeboid cells

  4. Supporting Evidence for Colonial Theory • Flagellated sperm cells throughout Metazoa • Flagellated body cells among lower Metazoa • True eggs and sperm in phytoflagellates • Phytoflagellates and colonial organization

  5. Animal Origins • Despite their morphological diversity, animals are monophyletic

  6. Supporting Evidence • Flagellated sperm • Early stages of embryology • Common themes in animal body plans • Despite their morphological diversity, animals are monophyletic

  7. Key Features in Animal Diversity • Level of organization • Symmetry • Body plan • Embryological development • Understanding differences and patterns evident in animal kingdom = understanding of animal macroevolution

  8. Levels of Organization • Ancestral form had some specialized cells and some cooperation between cells • Subkingdom Parazoa, which includes the sponges, lack tissues • Evolution of tissues was next step in animal evolution • Compartmentalization into specialized “regions” was the next step

  9. Organ Systems With increasing specialization, eventually see regionalization Organs Tissues Specialized Cells

  10. Fig. 32.8

  11. Symmetry How many planes can a body be divided into along its long axis and still get mirror images?

  12. Animals that move in one direction have bilateral symmetry; can be divided into similar halves on only one plane. The plane runs from the anterior end to the posterior end (tail). A plane at right angle to the midline divides animals into dorsal and ventral (belly) surfaces.

  13. Radial symmetry – typically in sessile animals (all or part of their life cycle) Bilateral symmetry is associated with cephalization

  14. Fig. 32.8

  15. Body Plans Attributes considered for all animals • Presence or absence of different tissue types • Type of symmetry • Presence or absence of a true body cavity

  16. Body Plans – Bilateral Animals • All animals based on one of three body plans • Different body plans provide different adaptive advantages • Apparent trend - increased potential body size • Body cavity is area between body wall and internal organs

  17. Body Plans – Bilateral Animals • Embryological development of tissues • Ectoderm • Mesoderm • Endoderm

  18. Fig. 32.4c Acoelomate

  19. Fig. 32.4b Pseudocoelomate

  20. Fig. 32.4a Eucoelomate

  21. Acoelomate - cavity filled with tissue Pseudocoelomate - cavity filled with liquid Coelomate - cavity filled with fluid and organs supported by membranes

  22. Fig. 32.8

  23. Embryology and Developmental Biology

  24. All animals go through the same initial stages of embryonic development (see Fig. 32.3)

  25. Protostomes (“mouth first”): the blastopore develops into the mouth. Deuterostomes (“mouth second”): the blastopore develops into the anus; the mouth develops later.

  26. Protostomes spiral cleavage determinate cleavage mesoderm develops by cell sloughing Deuterostomes radial cleavage indeterminate cleavage mesoderm develops from tissue folds Embryological Development

  27. Fig. 32.5

  28. Fig. 32.8

  29. Cambrian Explosion • All animal phyla except one appeared in a geological instant 545 mya • Some groups disappeared? • Why such diversity is so short a period of time (20 million years)?

  30. Molecular View of Animal Phylogeny • Genomes and Proteomes – Hox genes and patterning of body axis in vertebrates • Feature Investigation – Taxonomic relationship of arthropods

  31. See Table 32.2 • Will be helpful for Chapters 33-34 • For second Animal Diversity lab

  32. Fig. 32.8

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