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Sponges and Cnidarians

Biology I: Chapter 26. Sponges and Cnidarians. The Animal Kingdom. Multicellular Eukaryotic Heterotrophs Cells lack cell walls 95% are invertebrates. Response Movement Reproduction. What Animals Do to Survive. Feeding Respiration Circulation Excretion. Trends in Animal Evolution.

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Sponges and Cnidarians

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  1. Biology I: Chapter 26 Sponges and Cnidarians

  2. The Animal Kingdom • Multicellular • Eukaryotic • Heterotrophs • Cells lack cell walls • 95% are invertebrates

  3. Response Movement Reproduction What Animals Do to Survive • Feeding • Respiration • Circulation • Excretion

  4. Trends in Animal Evolution • Cell specialization and levels of organization • Early development • Body symmetry • Cephalization • Body cavity formation

  5. SPONGES

  6. Sponges • Phylum Porifera • Have tiny openings, or pores, all over their bodies • Sessile: they live their entire life attached to a single spot • They are animals! Why…?

  7. Sponges are Animals!!! • Multicellular • Heterotrophic • No cell walls • Contain a few specialized cells

  8. Form and Function in Sponges • Have nothing resembling a mouth or gut • Have no tissues or organ systems • Simple functions are carried out by a few specialized cells

  9. Asymmetrical • Have no front or back ends, no left and right sides • A large, cylindrical water pump • The body forms a wall around a large central cavity through which water flows continually

  10. Choanocytes • Specialized cells that use flagella to move a steady current of water through the sponge • Filters several thousand liters/day

  11. Osculum • A large hole at the top of the sponge, through which water exits • The movement of water provides a simple mechanism for feeding, respiration, circulation and excretion

  12. Simple Skeleton • Spicule: a spike-shaped structure made of chalk-like calcium carbonate or glasslike silica in hard sponges • Archaeocytes: specialized cells that make spicules

  13. Feeding • Filter feeders • Sift microscopic food from the water • Particles are engulfed by choanocytes that line the body cavity

  14. Respiration, Circulation, & Excretion • Rely on the movement of water through their bodies to carry out body functions • As water moves through the cavity: • Oxygen dissolved in the water diffuses into the surrounding cells • Carbon dioxide and other wastes, diffuse into the water and are carried away

  15. Response • No nervous system • Many sponges protect themselves by producing toxins that make them unpalatable or poisonous to potential predators

  16. Reproduction • Sexually or asexually • A single spore forms both eggs and sperm; usually at different times

  17. Sexual Reproduction • Internal fertilization: Eggs are fertilized inside the sponge’s body • Sperm are released from one sponge and carried by currents to the pores of another sponge

  18. Asexual Reproduction • Budding • Gemmules: groups of archaeocytes surrounded by spicules

  19. Ecology of Sponges • Ideal habitats for marine animals such as snails, sea stars, sea cucumbers, and shrimp • Mutually beneficial relationships with bacteria, algae and plant-like protists • Many are green due to these organisms living in their tissues

  20. Ecology of Sponges • Attached to the seafloor and may receive little sunlight • Some have spicules that look like cross-shaped antennae • Like a lens or magnifying glass, they focus and direct incoming sunlight

  21. CNIDARIANS

  22. Cnidarians • Phylum Cnidaria • Hydras, jellies, sea anemones, and corals • Soft-bodied • Carnivorous • Stinging tentacles arranged in circles around their mouths • Simplest animals to have body symmetry and specialized cells

  23. Cnidocytes • Stinging cells that are located on their tentacles • Used for defense and to capture prey

  24. Nematocyst • A poison-filled, stinging structure that contains a tightly coiled dart • Found within cnidocytes

  25. Form and Function in Cnidarians • Only a few cells thick • Simple body systems • Most of their responses to the environment are carried out by specialized cells and tissues

  26. Radially Symmetrical • Central mouth surrounded by numerous tentacles that extend outward from the body • Life cycles includes a polyp and a medusa stage

  27. Body Plan • Polyp: cylindrical body with arm-like tentacles; mouth points upward • Medusa: motile, bell-shaped body; mouth on the bottom

  28. Feeding • Polyps and medusas have a body wall that surrounds an internal space: the gastrovascular cavity • Gastrovascular cavity: a digestive chamber with one opening • Food enters and wastes leave the body

  29. Respiration, Circulation, & Excretion • Following digestion, nutrients are usually transported throughout the body by diffusion • Respire and eliminate wastes by diffusion through body walls

  30. Response • Specialized sensory cells are used to gather information from the environment • Nerve net: loosely organized network of nerve cells that together allow cnidarians to detect stimuli • Distributed uniformly throughout the body in most species • In some species it is concentrated around the mouth or in rings around the body

  31. Response • Statocysts: groups of sensory cells that help determine the direction of gravity • Ocelli: eyespots made of cells that detect light

  32. Movement • Hydrostatic skeleton: a layer of circular muscles and a layer of longitudinal muscles that enable cnidarians to move

  33. Reproduction: Sexually and Asexually • Polyps can reproduce asexually by budding • External sexual reproduction • The sexes are separate-each individual is either male or female • Both egg and sperm are released into the water

  34. Groups of Cnidarians • Jellies (formerly jellyfishes) • Hydras and their relatives • Sea anemones • Corals

  35. Ecology of Corals • The worldwide distribution is determined by: • Temperature • Water depth • Light intensity • Many suffer from human activity • Coral bleaching has become common • Global warming may add to the problem

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