1. Annelids: Segmented Worms
Invertebrate Zoology
Phylum Annelida means
“Little Rings”

2. Test Objectives for Annelids
Objective 5: Describe the form and function of the Annelida
Objective 6: Differentiate between the classes of Annelida (Polychaeta, Oligochaeta, Hirudinea, )
Objective 7: Describe the Internal form and function of the following classes: Polychaeta, Oligochaeta, Hirudinea.
Objective 8: Describe the life cycle and reproductive strategies for Molluscs and Annelids

3. Taxonomy Phylum Annelida Phylum Echiura Phylum Sipuncula
Class Polychaeta
Class Oligochaeta
Class Hirudinida
Phylum Echiura
Phylum Sipuncula

4. Phylum Annelida Annelids are protostome coelomates
Nervous system more centralized & circulatory system more complex than in previous phyla (due to evolutionary milestone).

5. Phylum Annelida
Annelids are segmented worms. Segments marked with circular rings called annuli or metameres
Examples:
earthworms
leeches
clam worms

6. Phylum Annelida The evolutionary milestone shown by annelids is
segmentation (metamerism).
Segmentation evolved separately in annelids, arthropods, and chordates.
The body is divided into a series of segments, each having similar components of all major organ systems.
Built in fail-safe (if parts of body fail!).
Allows for specialization.

7. Phylum Annelida Many annelids have chitinous bristles called setae.
Help in locomotion
Anchor worm in place
Deter predators

8. Phylum Annelida Diverse Phylum 15,000 species
2/3rd are polychaetes (marine worms)
Annelids can be found worldwide in marine, freshwater, and terrestrial habitats.

9. Phylum Annelida – Body Plan
3 part body plan
Prostomium – anterior part
followed by Segmented Body.
Pygidium – terminal portion.
Segments added on at the pygidium

10. Phylum Annelida – Body Plan
Peritonium (layer of mesodermal epithelium) of adjacent segments meet to form septa (dividing walls).
Fluid-filled coelom acts as a hydrostatic skeleton.
Coelomic lining holds in the organs

11. Phylogeny Traditionally, annelids are divided among 3 classes:
Class Polychaeta (marine worms)
Class Oligochaeta (segmented worms)
Class Hirudinida (leeches)
Oligochaeta and Hirudinida form a monophyletic group called Clitellata.
Characterized by reproductive structure called a clitellum.

12. Class Polychaeta Polychaeta is the largest, most diverse class.
May be brightly colored, variable shape.
10,000 species in the ocean

13. Class Polychaeta Polychaetes have some features other annelids do not:
A well developed head.
Paired appendages, parapodia, that function as gills and aid in locomotion.
No clitellum!
Many setae

14. Class Polychaeta Polychaetes are mostly marine and mostly benthic.
May live under rocks, burrow into sediment, or build their own tubes.
Some are planktonic.
Euryhaline: can tolerate salt

15. Class Polychaeta Sedentary and errant (free-moving) forms.
Sedentary forms often have elaborate devices for feeding and respiration.
Filter or deposit feeders.

16. Class Polychaeta
Errant forms include pelagic and benthic types and are often predators or scavengers.

17. Class Polychaeta - Reproduction
Gonads are temporary structures in polychaetes.
Sexes usually separate.
Fertilization is external.
Early larva is a trochophore.

18. Circulation and Respiration
Most have parapodia and “gills” for gaseous exchange.
Others use the body surface.
Circulation varies.
In Nereis a dorsal vessel carries blood forward and a ventral vessel carries blood posteriorly.
Blood flows across between these major vessels in networks around the parapodia and intestine.
In some, septa are incomplete and coelom fluid serves circulatory function.

19. Excretion
Excretory organs vary, from protonephridia to metanephridia, and mixed forms.
One pair per metamere.

20. Nervous System and Sense Organs
Double ventral nerve cord runs length of the worm with ganglia in each metamere.
Sense organs include:
Eyes, nuchal organs and statocysts (balance).
Eyes vary from simple eyespots to well-developed image-resolving eyes similar to mollusc eyes.
Nuchal organs are ciliated sensory pits that are probably chemoreceptive.
Some burrowing and tube-building polychaetes use statocysts to orient their body.

21. Representative Polychaetes
Clam Worms: Nereis
Errant(free moving) polychaetes
Live in mucus-lined burrows near low tide level.
Come out of hiding places at night to search for food.
Prostomium bears a pair of palps sensitive to touch and taste, a pair of short sensory tentacles, and two small dorsal eyes sensitive to light.
Peristomium has a ventral mouth, a pair of jaws, and four pairs of sensory tentacles.

22. Representative Polychaetes
Scale worms
Flattened bodies are covered with broad scales.
Some are large, all are carnivores and some are commensals in burrows of other organisms.

23. Representative Polychaetes
Fireworms
Have hollow, brittle setae that contain poisonous secretions.
Feed on cnidarians.

24. Representative Polychaetes
Tubeworms
Tube-dwellers
May line their burrows with mucus
Use cilia or mucus to obtain food

25. Representative Polychaetes
Fanworms or Featherduster worms
Unfurl tentacular crowns to feed.
Food moved from radioles (feathery arms) to mouth by ciliary action.

26. Representative Polychaetes
Parchment Worms
Lives in a U-shaped tube.
Modified segments pump water through tube.
Feeds off particles that settle into the sand from water.

27. Class Hirudinea Class Hirudinea includes the leeches.
Primarily freshwater, a few marine & terrestrial.
More common in tropical climates.
Smallest class

28. Class Hirudinea
Many leeches live as carnivores on small invertebrates.
Some are temporary parasites.
Some are permanent parasites – they never leave their host.

29. Class Hirudinea
Leeches are hermaphroditic and have a clitellum (only appears during breeding season), like oligochaetes.
Leeches do not have setae.
They’ve developed 2 suckers for attachment and a specialized gut for storing large amounts of blood.

30. Class Hirudinea - Respiration and Excretion
Some fish leeches have gills.
All other leeches exchange gases across epidermis (skin).
10 to 17 pairs of nephridia.
Coelomocytes and other special cells may assist in excretion.

31. Class Hirudinea - Nervous and Sensory Systems
Two “brains”
Anterior fused ganglia form a ring around the pharynx.
Seven pairs of posterior fused ganglia.
21 pairs of segmental ganglia in between along a double nerve cord.
Epidermis contains free sensory nerve endings and photoreceptor cells.
Pigment-cup ocelli are present.

32. Class Hirudinea - Circulation
Coelom reduced by invasion of connective tissue..
Some have a typical oligochaete circulatory system.
Some lack blood vessels.

33. Class Hirudinea
Leeches are highly sensitive to stimuli associated with the presence of prey.
Those that feed on mammals are attracted by warmth.