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Comparing Invertebrates

Comparing Invertebrates. There are some four million different kinds of animals and plants in the world. Four million different solutions to the problems of staying alive . David Attenborough.

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Comparing Invertebrates

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  1. Comparing Invertebrates There are some four million different kinds of animals and plants in the world. Four million different solutions to the problems of staying alive. David Attenborough

  2. Ediacaran Period – 600 million years ago.First multicellular animals with bilateral symmetry and segmentation

  3. Spriggina an Ediacaran fossil displaying bilateral symmetry, cephalization and segmentation.

  4. Ediacaran ocean scene. This was the last period of the Precambrian and led to the Cambrian Period.

  5. Cambrian Explosion – 542 million years ago. Most major phyla appeared here. A fantastic and sudden appearance of hundreds of different species. In just a few million years animals had evolved complex body plans. They had acquired specialized cells, tissues and organs.

  6. Invertebrate cladogram – this shows the appearance of evolutionary advances.

  7. Specialized cells lead to tissues and tissues working together lead to organs.

  8. Radial symmetry – body parts from the centerBilateral symmetry – right and left halves

  9. Echinoderms have Radial SymmetryStar fish Sea Urchin – Sea Hedgehog

  10. Sand Dollars Brittle Stars

  11. The two main forms of cnidarians, polyp and medusa have radial symmetry.Nomura’s jellyfish – 2 m, 450 lbs. Coral Polyps – like anemones

  12. Cephalization – nervous tissue becomes concentrated on one end of an organism. This allows for organisms to respond to the environment in more sophiscated ways.

  13. The three germ layers – ectoderm, endoderm and mesoderm

  14. Segmentation – allows for specialization of different parts and minimal new genetic material as each segment is similar to the next.

  15. Coelom – a fluid filled cavity between the digestive tube and the outer body wall. It serves as a buffer between the outer wall and the inner organs.

  16. Intracellular digestion – takes place in the cytoplasm of the cells of the organism. This is found in molluscs, cnidarians and Poriferans.This is a view of the Giant Barrel Sponge – the largest member of the phyla porifera (pore bearing). It is a filter feeder.

  17. Extracellular digestion – Enzymes catalyse the digestion of the food outside the cells and the molecules are absorbed into the blood or body fluids

  18. Cnidarian digestion Flatworm digestionIn both animals there is one opening. So wastes will go out the same tube that the food went in.

  19. Digestive tract – one way flow from mouth to anus. Specialized cells help to digest the food, move the food, absorb nutrients, get rid of wastes, making the whole system more efficient.

  20. Porifera respiration. Sponge cells absorb oxygen directly from the water. They eliminate carbon dioxide the same way.

  21. Cnidarian Respiration. There are no respiratory organs. Both cell layers absorb oxygen from the water.

  22. Cnidarian cnidoctye. An explosive cell containing harpoon like cnidawhich also has a toxin. Some species (portugeese man of war, sea wasp) are dangerous to people.

  23. Box jellyfish (class Cubozoa) are cnidarians distinguished by their cube-shaped medusa. Some species produce extremely potent venom. Three are among the most venomous creatures in the world. Stings from these are extremely painful and sometimes fatal to humans. Box Jellyfish A stinging victim

  24. Portuguese Man of War. This cnidarian’s nematocysts (cnidocytes) can also penetrate human skin and leave a painful rash.

  25. Respiratory system. The purpose of this system is to bring oxygen to the cells of the body and to eliminate carbon dioxide from the body. All have a large surface area and all are moist. In the anatomy of a typical mollusc(a gastropod – snail) the paired gills can be seen.

  26. Squid Gills. Squid are in the class cephalopoda (head footed) and the phylum mollusca.

  27. Respiration in land invertebrates. Respiratory surfaces are covered with water or mucus. These organs are usually covered to minimize water loss. Sow bugs or wood lice are crustaceans that breathe through paddle shaped hind legs. (pleopodal lungs).

  28. Arachnids. Spiders breathe through specialized structures called book lungs.

  29. Insects breathe through a series of openings (spiracles) that lead to tiny vessels (tracheal tubes) that bring oxygen to the cells of the body.

  30. Open circulatory systems. Blood is only partially contained within a system of vessels. One or more hearts pump blood through vessels into a system of spongy cavities (sinuses). Arthropods and most molluscs.

  31. The cephalopods are exceptions to the other molluscs in that they have a closed circulatory system. Their blood is blue because of the pigment hemocyaninwhich is different from our pigment (hemoglobin)

  32. Annelids have a closed circulatory system.

  33. Insects have an open circulatory system. The blood moves from the hearts into the body sinuses and is collected again near the head

  34. Excretory system controls the loss of water and gets rid of nitrogenous waste. (ammonia) Flatworms use a system of flame cells to eliminate excess water. Ammonia diffuses directly through the animals skin.

  35. Annelids like the earthworm change ammonia to urea in the nephridia and excrete it. This process helps to save water.

  36. Some insects and spiders use Malpighian tubules to change the ammonia into uric acid. This is excreted along with the solid waste as a thick paste. This saves the animal a lot of water.

  37. Cnidarians are the first phyla with a specialized nervous system. It is composed of a simple nerve net that helps to coordinate motion of the animal.

  38. The more complex the animal the more developed the nervous system. From simple nerve nets there appear ganglia, lumps of nervous tissue, and finally a brain in the head that controls the nervous system.

  39. Cnidarians, flatworms, this roundworm, annelids and certain molluscs have hydrostatic skeletons. These skeletal systems consist of a fluid filled cavity that provides support and a place for muscles to push.

  40. Exoskeletons. In arthropods a outer, hard covering composed of the protein chitin. Sun spiders, like this one from the Las Vegas area have an exoskeleton made of chitin

  41. Endoskeletons are structural supports located inside the body. Sea stars and other echinoderms have an endoskeleton made of calcified plates.

  42. The sunflower seastar is the largest starfish with a maximum arm span of 3.3 ft.

  43. Sexual Reproduction – most invertebrates reproduce sexually during at least a part of the life cycle. In sponges sperm and egg combine to form a free swimming larva that settles and develops into a sponge.

  44. Life cycle of a jellyfish1–3 Larva searches for site, 4–8 Polyp grows9–11 Polyp strobilates12–14 Medusa grows

  45. Life cycle of a cnidarian polyp. (Coral, Sea Anemone)

  46. Elkhorn coral at Molasses Reef Florida keys. These hard corals contain thousands of polyps.

  47. Sexual planaria are hermaphrodites each animal possessing both testicles and ovaries. Each planarian gives and receives sperm. Eggs develop inside the body.

  48. Nematode Sexual reproduction. Most species have a male and a female worm. The eggs may hatch inside the female or they are deposited outside.

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