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Phylum Platyhelminthes and other Acoelomate Animals, Chapter 8, Zoology

Phylum Platyhelminthes and other Acoelomate Animals, Chapter 8, Zoology. Characteristics of Phylum Platyhelminthes (means “flat worm”). Three germ layers (triploblastic ) Bilateral symmetry and cephalization

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Phylum Platyhelminthes and other Acoelomate Animals, Chapter 8, Zoology

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  1. Phylum Platyhelminthes and other Acoelomate Animals, Chapter 8, Zoology

  2. Characteristics of Phylum Platyhelminthes (means “flat worm”) • Three germ layers (triploblastic) • Bilateral symmetry and cephalization • Acoelomate; with no internal body cavity other than the digestive tract. The spaces between the organs are filled with mesodermal tissue called parenchyma • Nervous system consists of a pair of anterior organs called ganglia that are similar to a brain • Excretory system of two lateral running canals connected to structures called flame cells • No circulatory or respiratory organs; oxygen and carbon dioxide exchange occurs by diffusion

  3. Ecology of Flatworms (Platyhelminthes) • Many flatworms like the turbellarians are free-living organisms that dwell on the bottom of the ocean or freshwater habitats or moist places on land. • All of the flatworms that belong to class Trematoda, Monogenea, (flukes) and Cestoda (tapeworms) are parasitic. Some are ectoparasites (live on the outside of their host) and others are endoparasites (live on the inside of their host). • Many have complex lifestyles that involve more than one host. The first host is often an invertebrate and the second a vertebrate.

  4. Digestive System of Flatworms (Platyhelminthes) • The digestive system of some flatworms is incomplete, having only one opening that serves as a mouth and an anus. • Turbellarians have a muscular mouth and pharynx that protrudes from the ventral surface. • The pharynx is inserted into prey or decayed organic matter, digestive enzymes are secreted, and then the pharynx brings the food into the gastrovascular cavity where it is digested. • Digestion in tapeworms (cestodes) occurs externally by diffusion.

  5. Digestive System of Turbellarians

  6. Excretory System in Platyhelminthes • The excretory system of flatworms consists of a complex network of cells called flame cells • Flame cells (or protonephridia) are similar to kidneys in other organisms. • The flame cells consist of a hollow cup filled with cilia that beat and pump water and nitrogenous wastes out the body. • When the cilia beat they resemble flames, giving them their name.

  7. Flame Cells (Protonephridia)

  8. Nervous System of Flatworms • Flatworms are the first animal we have discussed that exhibits cephalization. • Cephalization means they have a head (anterior) and tail (posterior) region. • Cephalization allows animals to move (crawl, swim, fly etc.) in a certain direction to search for resources. • In order to move in a specific direction the animal requires a central nervous system.

  9. Nervous System of Flatworms • The central nervous system in flatworms is a region of nerve tissue found at the anterior end called a ganglion. • The ganglion attaches to a pair of ventral nerve cords that run the length of the body. • The nerve cords are sensitive to touch, chemical detection, equilibrium, water current direction and they can control muscular movement. • The ganglion are also attached to eye spots that are sensitive to light.

  10. Nervous System of Flatworms

  11. Reproduction of Flatworms • Reproduce both sexually and asexually. • Sexual reproduction usually occurs by cross fertilization (trading sperm) with other individuals. • Most flatworms are monoecious. • Only a few flatworms are dioecious. • Asexual reproduction usually occurs by fission in which the organism separates into two halves and regenerate into two adults. • In some flatworms, asexual reproduction can occur as thousands of juvenile offspring.

  12. Regeneration of Planarian Flatworm

  13. Class Turbellaria • Free-living, soft flattened bodies • Bodies are covered in cilia • Mouth located on ventral surface near the center of the body • Mostly hermaphroditic • Some can reproduce asexually by fission • Examples: Dugesia (planaria), Microstomum, Planocera

  14. Class Turbellaria; Genus Degusia, common name Planaria

  15. Class Trematoda; Subclass DigeneaDigenetic Flukes • Parasitic lifestyle with two hosts. • First (intermediate) host is a mollusc. • Second (definitive) host is a vertebrate. • Sexual reproduction occurs in the definitive host. • Occasionally a third intermediate host plays a role in the life cycle. • Parasitism can occur in almost every system of the host’s body including the digestive, respiratory, circulatory, excretory, and reproductive systems. • Examples: Fasciola, Clonorchis, Schistosoma

  16. Trematoda, Subclass Digenea

  17. Class Trematoda; Subclass DigeneaDigenetic Flukes • A typical life cycle would include the following life cycle stages; adult, egg, miracidium, sporocyst, redia, cercaria, and metacercaria. • Egg is released from host's excrement and must reach a source of water to be released. • In the water the egg releases a free-swimming, ciliated larva called the miracidium • The miracidium penetrates and enters the tissues of a mollusc (usually a snail), and transforms into asporocyst.

  18. Class Trematoda; Subclass DigeneaDigenetic Flukes • Sporocysts then reproduce asexually to produce redia. • Redia reproduce asexually to produce cercaria. • Cercaria emerge from the mollusc and penetrate a second intermediate host or they can develop as a metacercaria on vegetation. • Metacercaria are ingested by a definitive host and develop into adult flukes.

  19. Trematoda (Flukes)

  20. Parasitic Flukes in Humans • Some of the most serious parasites in humans are flukes. • Genus Clonorchis is a liver fluke that is common in China, south Asia, and Japan and can cause cirrhosis of the liver and death. • Genus Schistosomais a blood fluke that causes an infection called schistosomiasis. It is one of the deadliest diseases in the world with nearly 200 million people infected in Africa, South America, and the Middle East. • Symptoms of severe dysentery, anemia, enlarged liver, inflammation of the bladder, and brain damage.

  21. Person infected with Schistosomiasis

  22. Parasitic Flukes in Humans • One type of fluke that infects birds causes a painful irritation in humans called swimmer's itch. • In the case of this fluke occurring in humans, the life cycle becomes terminated since the host in unsuitable. Children with Schistosomiasis Swimmer's itch

  23. Class Monogenea; Monogenetic Flukes • Ectoparasites that attach to the gills of fish. • Hook-like mouth called an opisthaptor. • Occasionally they are found in frogs and turtles, but mostly on the skin or gills of fish. • Common but cause little damage to their host. • They can become a serious threat when fish become crowded, like in the case of fish farming. • Life cycle simple with only a single host • Examples: Dactylogyrus, Polystoma, Gyrodactylus

  24. Monogenea • Image on the right found on the gills of a fish

  25. Class Cestoda (Tapeworms) • Long flat bodies with a hook-like mouth called a scolex used for attachment to the wall of the intestine of its host. • The rest of the body is followed by regular repeating units of reproducing sections called proglottids. The main body of a tapeworm is a chain of proglottids called a strobila. • No digestive tract; nutrients are absorbed across the skin by diffusion.

  26. Tapeworm Anatomy

  27. Class Cestoda (Tapeworms) • All cestodes require at least two hosts. • Adults are parasitic in the digestive tract of vertebrates. • Often one of the intermediate hosts is an invertebrate. • Almost ALL vertebrate species can become infected, but adult tapeworms do little harm to their hosts. • Humans most often get infected by consuming raw or rare beef, pork, or fish. • Children often become infected by putting their fingers in their mouth after touching infected animals. • Occasionally cysts can develop in the brain leading to severe brain damage and death.

  28. Pork Tapeworm Life Cycle

  29. Beef Tapeworm Life Cycle

  30. Tapeworm

  31. Tapeworm Scolex

  32. Proglottids

  33. Phylum Nemertea (Ribbon Worms) and Phylum Gnathostomulida (Jaw Worms) • Ribbon Worms and Jaw Worms are similar to Phylum Platyhelminthes in several ways, but have significant differences which place them in their own phylums • They are both acoelomate and bilaterally symmetrical. • Ribbon worms have flame cells and ganglia. • Some ribbon worms can regenerate like planarians. • However, in ribbon worms, the digestive tract is complete with both a mouth and an anus. • Ribbon worms also have a circulatory system • Jaw worms are a newly discovered species and have yet to be properly classified. They somewhat resemble rotifers.

  34. Ribbon Worms and Jaw Worms • Ribbon Worms Jaw Worms

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