Phylum Platyhelminthes

1. Phylum Platyhelminthes Flatworms

3. Exhibit bilateral symmetry • Are triploblastic (develop from three-layered embryos: ectoderm, endoderm and mesoderm) • Possess several distinct organs, organ systems, and true muscles

4. There are more than 20,000 species of Platyhelminthes which are divided into 4 classes • Class Turbellaria • Classes Trematoda and Monogenea • Class Cestoda

5. Class Turbellaria • 3000 species. Mostly free-living, marine species; a few species are found in freshwater and moist terrestrial habitats • 150 are parasitic

6. Planarians are familiar and common freshwater forms

7. The planaria has a pair of eyespots at its anterior or front end. These eyespots detect light which the planaria avoids so they are less visible to their predators.

8. Carnivorous, they feed on small animals and carrion • Lack specialized organs for gas exchange or circulation • Gas exchange is by diffusion (flattened body form places all cells close to water).

9. Move by using cilia on the ventral dermis to glide along a film of mucus. • Muscular contractions produce undulations which allow some to swim. • On the head are a pair of eyespots which detect light and a pair of lateral auricles that are olfactory sensors. • Possess a rudimentary brain which is capable of simple learning.

10. Reproduction • Asexually by regeneration: mid-body constriction separates the parent into two halves, each of which regenerates the missing portion • Sexually by cross-fertilization of these hermaphroditic forms • Development may be direct (eggs hatch into tiny worms that resemble the adults) or indirect (with a ciliated larval form)

11. Classes Monogenea and Trematoda • All members of these two classes are parasitic • Suckers are usually present for attaching to host internal organs • Structures with large and small hooks are used for attaching to the host animal • Ex: Flukes are members of the class Trematoda. • Members of the class Monogenea are mostly external parasites of fish.

12. flukes

13. Reproduction • Primary organ system is the reproductive system; a majority are hermaphroditic. • Life cycles include alternations of sexual and asexual stages with asexual development taking place in an intermediate host. • Larvae produced by asexual development infect the final hosts where maturation and sexual reproduction occurs

14. Class Cestoda • Adult tapeworms parasitize the digestive system of vertebrates. Possess a scolex (head) which may be armed with suckers and/or hooks that help maintain position by attaching to the intestinal lining • Posterior to the scolex is a long ribbon of units called proglottids. (filled with reproductive organs.)

15. Tape worm

16. The tapeworm like other parasitic worms has a thick protective cuticle on the outside of its body. The cuticle protects the worm from being digested by the strong digestive enzymes of its host.

17. The life cycle of a tapeworm includes an intermediate host. • Mature proglottidsare filled with eggs and released from the posterior end of the worm and pass from the body with the feces. • Eggs are eaten by an intermediate host and a larva develops, usually in muscle tissue. • The final host becomes infected when it eats an intermediate host containing larvae. • Humans can become infected with some species of tapeworms by eating undercooked beef or pork containing larvae.

19. Phylum Nemertea • roundworms are unsegmented and cylindrical with tapered ends • There are over28,000 species of roundworms • 16,000 are parasitic • Found in fresh water, marine, moist soil, tissues of plants, and tissues and body fluids of animals • Bilateral symmetry

21. Nemertea possess a complete digestive system with a mouth and an anus. • Have a blood system with blood vessels. • Have a well developed nervous system and a brain

22. Class Nematoda

23. Reproduction • Sexual reproduction only, with internal fertilization • Female may produce 100,000 or more eggs per day

25. Phylum Annelid • segmented worms aka ringed worms • over 22,000 species Ex: earthworms, ragworms, and leeches

26. They have Bilateral symmetry • Segmented bodies • complete digestive tract, a nervous system, a closed circulatory system, and an excretory system

27. Classes • Class Polychaeta • Class Oligochaeta • Class Hirudinea

28. Class Polychaetes • Marine tubeworms, fanworms ,and bristle worms • About 12,000 species • Multiple hairs per segment • Most are marine animals • Most primitive class- have well developed anterior end

31. Class Oligochaeta • Earthworms • Over 3,000 species

33. EXCRETION: NEPHRIDIA - long tubules that excrete liquid waste

34. DIGESTION: • “MOUTH” (opening) • PHARYNX (acts as a soil pump) • CROP (temp. storage organ) • GIZZARD (grinds up soil) • INTESTINE (nutrients are absorbed) • ANUS (exit)

35. Respiration • no special respiration structures • breathe through moist skin

36. Circulation • blood flows from anterior (to posterior • AORTIC ARCHES - 5 pairs of muscular vessels at anterior end “hearts”

37. Nervous System small “brain” of fused GANGLIA • ventral nerve cord

38. Reproduction • are hermaphrodites • Must mate with other earthworm • young hatch in 2 - 3 weeks

39. Class Hirudinea • Leeches

40. Most are parasites • 2 pairs of suckers(1 on each end) • Muscular pharynx with razor sharp teeth • Anti coagulant and pain numbing saliva

41. do not have bristles and the external segmentation of their bodies does not correspond with the internal segmentation of their organs. • Their bodies are much more solid as the spaces in their coelom are dense with connective tissues

42. reproduction • They are hermaphrodites • Must mate with another leech

43. Feeding • Certain species of leeches feed on blood, not all species can bite; 90% of them feed solely on decomposing bodies and open wounds of amphibians, reptiles, waterfowl, fish, and mammals (including humans) • A leech attaches itself when it bites, and it will stay attached until it becomes full, at which point it falls off to digest