PHYLUM ANNELIDA.ppt
DanielAyomide4
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Jun 18, 2023
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About This Presentation
About the Phylum Annelida.
Slide Content
PHYLUM ANNELIDA
EMMANUEL TAIWO IDOWU Ph.D.
Department of Zoology, University of Lagos,
Akoka, Nigeria
[email protected]
EMMANUEL TAIWO IDOWU Ph.D.
Department of Zoology, University of Lagos,
Akoka, Nigeria
[email protected]
Triploblastic, bilaterally symmetrical roundworms,
Metamericallysegmented (metermerismreflected in internal and
external anatomy). Only one segment being preoral
Coelomates (coelom serves as hydrostatic skeleton)
Specialization of the head region, with differentiated organs such
as the tentacles, palps, and eyespots.
Appendage on each segment and never jointed.
Body covered with protein cuticle, similar to arthropods cuticle.
Well developed nervous system with cephalic ganglion fused with
ventral ganglionated nerve cords, and segmental ganglia.
Closed circulatory system with several heart. Blood flow forward
dorsally and backwards ventrally. Segementallyarranged
connecting vessels and a system of capillaries ensures good and
rapid blood supply
Characteristics of Annelida
Metamericallysegmented (metermerismreflected in internal and
external anatomy). Only one segment being preoral
Coelomates (coelom serves as hydrostatic skeleton)
Specialization of the head region, with differentiated organs such
as the tentacles, palps, and eyespots.
Appendage on each segment and never jointed.
Body covered with protein cuticle, similar to arthropods cuticle.
Well developed nervous system with cephalic ganglion fused with
ventral ganglionated nerve cords, and segmental ganglia.
Closed circulatory system with several heart. Blood flow forward
dorsally and backwards ventrally. Segementallyarranged
connecting vessels and a system of capillaries ensures good and
rapid blood supply
Characteristics of Annelida
Characteristics cont
Excretory-Metanephridia or protonephridia are segmentally
arranged pairs of nephridia for removal of nitrogenous wastes and
osmotic and ionic regulation.
Digestive system complete and extracellular. Gut is straight and end
in anus
Outer circular muscles and an inner layer of longitudinal muscles
Respiratory –reduced, dermal gas exchange through moist skin,
parapodial flaps and gills.
Larva is called trochophore
Hermaphroditic or separate sexes with asexual budding in some
species.
For removal of gametes from the gonad to the exterior,
coelomoductsgrow outward through body wall from coelomic cavity.
Excretory-Metanephridia or protonephridia are segmentally
arranged pairs of nephridia for removal of nitrogenous wastes and
osmotic and ionic regulation.
Digestive system complete and extracellular. Gut is straight and end
in anus
Outer circular muscles and an inner layer of longitudinal muscles
Respiratory –reduced, dermal gas exchange through moist skin,
parapodial flaps and gills.
Larva is called trochophore
Hermaphroditic or separate sexes with asexual budding in some
species.
For removal of gametes from the gonad to the exterior,
coelomoductsgrow outward through body wall from coelomic cavity.
Oligochaeta transverse section
CLASSES OF ANELLIDA
Polychaeta (Poly= many; Chaet=bristle).
Oligochaeta (Oligo= few; Chaet=bristle).
Hirudinea (Hirudo= leech).
Polychaeta (Poly= many; Chaet=bristle).
Oligochaeta (Oligo= few; Chaet=bristle).
Hirudinea (Hirudo= leech).
Polychaeta
Also known as sea worms or sand worms.
Possess parapodia and setae.
Parapodia are paddle-like appendages on each
segment used in swimming that also serve as
respiratory organs.
Setae are bristles, attached to parapodia, that
help anchor polychaetes to their substratum and
also help them move.
Distinct cephalization with complex sense organ
(distinct heads with eyes and tentacles).
Dioecious.
Also known as sea worms or sand worms.
Possess parapodia and setae.
Parapodia are paddle-like appendages on each
segment used in swimming that also serve as
respiratory organs.
Setae are bristles, attached to parapodia, that
help anchor polychaetes to their substratum and
also help them move.
Distinct cephalization with complex sense organ
(distinct heads with eyes and tentacles).
Dioecious.
Polychaeta
Based on the level of activity, morphology and ecology,
polychetes can be divided into:
Errant polychaetes
Active worms found crawling or swimming.
Well developed head bearing eyes and sensory
tentacles.
Predatory , scavengers and herbivorous.
Example Clam worms (Nereis).
Sedentary polychaetes
Sedentary and confined to tube or burrow.
Filter feeders.
Example Lugworm (Arenicola).
Based on the level of activity, morphology and ecology,
polychetes can be divided into:
Errant polychaetes
Active worms found crawling or swimming.
Well developed head bearing eyes and sensory
tentacles.
Predatory , scavengers and herbivorous.
Example Clam worms (Nereis).
Sedentary polychaetes
Sedentary and confined to tube or burrow.
Filter feeders.
Example Lugworm (Arenicola).
Phylum Annelida
Class Polychaeta
Class Polychaeta
Oligochaeta
Reduced cephalization with reduced sense organ.
They do not possess distinct head, lacks parapodia.
Head consists of a presegmental prostomium and peristomium.
Small bristles on each segment, aid in locomotion through
substrate.
Few setae protruding in clusters directly from the body.
Possess an external mucus producing bands known as clitellum.
Sexes separate or hermaphroditic.
Development is direct with no larval stage.
Important detritivores in many ecosystem.
Free living, fresh water, terrestrial--Earthworm
Reduced cephalization with reduced sense organ.
They do not possess distinct head, lacks parapodia.
Head consists of a presegmental prostomium and peristomium.
Small bristles on each segment, aid in locomotion through
substrate.
Few setae protruding in clusters directly from the body.
Possess an external mucus producing bands known as clitellum.
Sexes separate or hermaphroditic.
Development is direct with no larval stage.
Important detritivores in many ecosystem.
Free living, fresh water, terrestrial--Earthworm
Oligochaeta
Based on habitat and feeding behaviour earthworm can
be divided into three general groups:
Epigeic species
Live near or on the surface
Ingest large amount of undecomposed litters
Example Eisenia foetida (redworm or manure worm)
Endogenic species
Foraging below the surface
Ingest large quantities of organic rich soil and build burrows that are
horizontal in nature
Anecic species
Build permanent vertical burrows that penetrate the soil deeply.
Come to the surface to feed on partially decomposed litter manure and
other organic matter.
Example Lumbricus terrestris
Based on habitat and feeding behaviour earthworm can
be divided into three general groups:
Epigeic species
Live near or on the surface
Ingest large amount of undecomposed litters
Example Eisenia foetida (redworm or manure worm)
Endogenic species
Foraging below the surface
Ingest large quantities of organic rich soil and build burrows that are
horizontal in nature
Anecic species
Build permanent vertical burrows that penetrate the soil deeply.
Come to the surface to feed on partially decomposed litter manure and
other organic matter.
Example Lumbricus terrestris
Hirudinea
Dorso-ventrally flattened. Coelom very reduced. Body wall very
muscular.
Have fixed number of segments with many annuli.
Parapodia is absent.
Most lack setae and have suckers discs instead.
The gut is large and branched for storage of large quantities of
blood.
Clitellum is present.
Hermaphroditic.
Free-living predators/ ectoparasitic.
Example: Tropical blood sucking leech-Haemadipsa
Giant Amazonia leech-Haementeria ghilianii
Medicinal leech-Hirudo medicinalis
Dorso-ventrally flattened. Coelom very reduced. Body wall very
muscular.
Have fixed number of segments with many annuli.
Parapodia is absent.
Most lack setae and have suckers discs instead.
The gut is large and branched for storage of large quantities of
blood.
Clitellum is present.
Hermaphroditic.
Free-living predators/ ectoparasitic.
Example: Tropical blood sucking leech-Haemadipsa
Giant Amazonia leech-Haementeria ghilianii
Medicinal leech-Hirudo medicinalis
Digestive Systems
Polychaeta
Digestive systems is divided into a pharynx, oesophagus, intestine and rectum.
Oligochaeta
The esophagus may be modified to form a crop for food storage, and or gizzard.
Calciferous glands are associated with oesophagus.
Terrestrial oligochaete species are thrown into ridges or folds (typhlosole).
Associated with the intestine (dorsal blood vessel) of oligochaetes is characteristic
yellow tissue calledchloragogen.
Hirudinea
The mouth of a leech opens to muscular pumping pharynx.
Salivary glands associated the pharynx secret hirudin, an anticoagulant.
A crop and digestive glands is found in some species.
Polychaeta
Digestive systems is divided into a pharynx, oesophagus, intestine and rectum.
Oligochaeta
The esophagus may be modified to form a crop for food storage, and or gizzard.
Calciferous glands are associated with oesophagus.
Terrestrial oligochaete species are thrown into ridges or folds (typhlosole).
Associated with the intestine (dorsal blood vessel) of oligochaetes is characteristic
yellow tissue calledchloragogen.
Hirudinea
The mouth of a leech opens to muscular pumping pharynx.
Salivary glands associated the pharynx secret hirudin, an anticoagulant.
A crop and digestive glands is found in some species.
Hirudotheraphy
Local anesthetics.
Anticoagulant enzymes—hirudin.
Vasodilator and prostaglandin.
Local anesthetics.
Anticoagulant enzymes—hirudin.
Vasodilator and prostaglandin.
Phylum Annelida
Class Hirundinea
Class Hirundinea
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