1 / 24

The Animal Kingdom

The Animal Kingdom. Heterotrophic by ingestion Motile; behaviorally complex No cell walls Structure based on extracellular proteins, especially collagen. Characteristic cell junctions. Similarities in ribosomal RNA. Evolutionary Trends in Body Plan. Symmetry: None (sponges)

espurgeon
Télécharger la présentation

The Animal Kingdom

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 Animal Kingdom • Heterotrophic by ingestion • Motile; behaviorally complex • No cell walls • Structure based on extracellular proteins, especially collagen. • Characteristic cell junctions. • Similarities in ribosomal RNA

  2. Evolutionary Trends in Body Plan • Symmetry: • None (sponges) • Radial (jellyfish, sea stars) • Bilateral (arthropods, vertebrates, etc.) • Cephalization: Evolution of a “head” with sensory and feeding organs. • Digestive system: • Ingestion into individual cells (sponges) • Gastrovascular cavity (blind sac) (jellyfish) • Digestive tract with mouth & anus (most other groups) • Body cavities: Evolution of a true coelom lined with peritoneum.

  3. Sponges – Phylum Porifera • Simple body plan. • Choanocytes beat their flagella to create water flow. • Amoeboid cells feed by endocytosis. • Also review pores, osculum, and spicules

  4. Phylum Cnidaria • Only two cell layers – acoelomate. • Gastrovascular cavity (blind gut): opening acts as mouth and anus. • Radial symmetry. • Polyp and medusa body forms.

  5. Classes of Cnidaria • Anthozoa: sea anemones and corals (lack medusa) • Hydrozoa: Hydra and Portuguese man-of-war (colonial) • Scyphozoa: jellyfish (medusa dominates life cycle)

  6. Portuguese Man-of-WarColonial hydrozoan, with stinging structures called nematocysts

  7. Phylum Ctenophora – comb jellies • Like Cnidaria but with a complete gut (mouth and anus)

  8. Protostomes vs. Deuterostomes • Protostomes: • blastopore becomes the mouth • ventral nerve cord(s) • worms, insects, etc. • Deuterostomes • blastopore becomes the anus • dorsal nerve cord • sea stars, vertebrates

  9. 2 main groups of protostomes • Lophotrochozoans – soft body, hydrostatic skeleton • Ecdysozoans – exoskeleton that molts

  10. Platyhelminthes – the flatworms • simplest lophotrochozoans • acoelomate • gastrovascular cavity

  11. Rotifers – small, structurally complex(complete digestive tract, ciliated structures)

  12. Phylum Brachiopoda • Marine animals with a 2-part shell, similar to bivalve mollusks. • But they are NOT mollusks – they have a lophophore (ring of tentacles around the mouth. • Few living species; diverse in the Paleozoic

  13. Annelida – segmented worms • True coelom • Segmented body • Soft flexible body wall.

  14. Mollusca – the mollusks • coelomate • bilaterally symmetrical • body plan based on • muscular structure called a “foot” • “visceral mass” – internal organs • “mantle” – covers the visceral mass; secretes shell

  15. Familiar mollusk groups • Bivalves: 2-part shell (clams, oysters) • Gastropods: snails, conchs, whelks, etc. • Cephalopods: octopus and squid (internal shell)

  16. Ecdysozoans – animals with exoskeletons or tough cuticle

More Related