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Biology 320 Invertebrate Zoology Fall 2005

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Biology 320 Invertebrate Zoology Fall 2005 Chapter 13 Phylum Annelida Part Two Taxon Clitellata Two classes Class Oligochaeta Class Hirudinomorpha Posses a ... – PowerPoint PPT presentation

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Title: Biology 320 Invertebrate Zoology Fall 2005


1
Biology 320Invertebrate ZoologyFall 2005
  • Chapter 13 Phylum Annelida
  • Part Two

2
Taxon Clitellata
  • Two classes
  • Class Oligochaeta
  • Class Hirudinomorpha
  • Posses a clitellum
  • Several (6 or 7 in Lumbricus) anterior segments
    with a thick, glandular epidermis
  • Conspicuous during reproduction
  • Close proximity to gonopores
  • Produces mucus for copulation, albumen for eggs,
    and cocoons
  • Lack parapodia, prostomial and pygidial
    appendages
  • Copulating hermaphrodites with direct development

3
Class Oligochaeta
  • Name means few chaetae
  • 3500 spp.
  • Earthworms are most familiar, but also small FW
    and marine varieties
  • 200 marine spp., mostly interstitial
  • Giant Australian earthworm (Megascolides
    australis)
  • Up to 3 m long

4
Body Form
  • Only exceptions to generalized annelid are listed
  • Four bundles of chaetae per segment
  • Two ventral
  • Two lateral
  • Chaetae are structurally simple
  • Genital chaetae are more complex
  • One to 25 chaetae per bundle
  • Two per bundle in most earthworms
  • Protractor and retractor muscles attached to each
    chaeta
  • Small in terrestrial varieties and longer in
    aquatics

5
Coelom
  • Earthworms posses coelomopores
  • Connect coelomic cavities with exterior
  • Posses a sphincter
  • Pores are located in intersegmental furrows
  • Exude coelomic fluid dorsally
  • Keeps animal moist
  • Deters predators
  • Squirter worm (Didymogaster) can squirt fluid
    30 cm high

6
Locomotion
  • Crawl or burrow using peristalsis
  • Mucus and egested soil coat burrow walls
  • Lumbricus terrestris covers burrow opening
  • Larger worms can burrow deeper
  • Chaetae are extended or retracted as needed to
    apply optimal traction
  • Animal moves forward in steps
  • 2 3 cm per step
  • Approximately 30 cm per minute in some
  • Can even crawl backwards

7
Nutrition
  • Scavengers of dead organic matter (such as
    leaves) and / or deposit feeders
  • Swallow soil
  • Takes 1 2.5 hr to process
  • Castings are excreted
  • Great for soil (aerates, mixes, and transfers
    nutrients)
  • Aquatic varieties may be carnivores of amebas,
    ciliates, rotifers, etc.
  • Some may parasitize FW snails

8
Nervous System
  • One large ventral nerve cord instead of two
    lateral cords
  • Five giant axons
  • Stimulation of either end of worm elicits an
    escape response (wriggling, or withdrawal into
    burrow)
  • Subpharyngeal ganglion is motor control center
  • Most lack eyes but have simple ocelli
  • Some have rings of chemoreceptors (called
    tubercles) that project from cuticle

9
Digestive System
  • Pharyngeal bulb
  • Eversible in aquatic spp.
  • Muscular pump in terrestrial spp.
  • Esophageal glands secrete mucus and enzymes
  • Compartmentalized esophagus
  • Crop for food storage
  • Gizzard for grinding
  • Lined with chitin-like cuticle

10
Calciferous Glands
  • Located in wall of esophagus
  • Produce calcite crystals that are secreted into
    esophageal lumen and pass in feces
  • Two functional hypothesis
  • 1) Removal of excess CO2
  • Soil CO2 is high (relative to atmospheric
    levels), due to bacterial respiration
  • Therefore there is a negative concentration
    gradient for diffusion of worms CO2
  • CO2 combines with calcium ions to form calcite
  • 2) Removal of excess calcium

11
Digestive System Cont
  • Intestine makes up posterior 3/4 of digestive
    system
  • Anterior half secretes digestive enzymes
  • Cellulase and chitinase (breaks down fungal cell
    walls) are released by mutualistic bacteria
  • Posterior half is absorptive
  • Typhlosole is a large dorsal fold in the
    intestine that increases its surface area
  • Chlorogogen cells surround intestine
  • Waste - laden cells are released into coelom
  • Exit body via nephridiopores or coelomopores

12
Circulation and Gas Exchange
  • Often have hearts (described earlier)
  • Five pairs in Lumbricus (segments 7-11)
  • Gas exchange is carried out across body wall
  • Large species have capillary loops in epidermis
    and hemoglobin dissolved in plasma
  • Moist surface facilitates diffusion
  • Oxygen levels in soil drop after heavy rains,
    forcing earthworms to the surface

13
Excretion
  • Ureotelic but excrete some ammonia
  • Depends on environmental conditions
  • Osmoregulation
  • Urine is hyposmotic
  • Often several types of nephridia
  • Allows them to tolerate dry soils
  • Those without special nephridia must burrow
    deeper during dry periods

14
Encystment
  • Can secrete tough mucus covering
  • Summer cysts to avoid desiccation
  • Winter cysts during periods of low temperature
  • Undergo diapause
  • Some migrate deeper into soil during dry or cold
    periods
  • Up to three meters down in some
  • 70 of body water can be lost

15
Reproduction
  • Clonal reproduction always occurs via transverse
    fission
  • Sexual
  • Monoecious (hermaphroditic)
  • Reproductive organs located in a few anterior
    segments
  • Paired ovaries release eggs which develop in
    ovisacs
  • Paired testes release sperm which develop in
    seminal vesicles
  • Genital segments each posses a pair of gonoducts
    (sperm ducts or oviducts), which open to the
    ventral surface
  • Female genital segments have ventral openings
    that lead to seminal receptacles (store sperm
    prior to fertilization)

16
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17
  • Lumbricus breeds continually, but some have one
    yearly reproductive season
  • Often reabsorb reproductive system and grow back
    later
  • Copulation with mutual sperm transfer
  • Ventral contact between oppositely oriented worms
  • Genital chaetae and mucus produced by clitellum
    hold worms together
  • Sperm swim in a ventral sperm groove from male
    gonopores to openings of partners seminal
    receptacles
  • Indirect sperm transfer
  • Entire process can take 2 3 hours
  • Some worms have copulatory organ for direct sperm
    transfer

18
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19
Cocoons
  • Secreted a few days after copulation
  • Clitellum secretes mucus tube
  • Clitellum secretes chitinous material which
    becomes wall of cocoon
  • Albumen from clitellum deposited into cocoon
  • Tube slides forward as worm moves backwards
  • Eggs and partners sperm (from seminal
    receptacles) deposited into cocoon
  • External fertilization
  • Cross fertilization
  • Cocoon slides of head, and ends pinch off mucus
    tube disintegrates

20
  • Terrestrial species deposit cocoons in soil
  • Aquatic species deposit cocoons in debris or mud,
    or attach to vegetation
  • Ovoid and yellow in color
  • Contain 1 to 20 eggs
  • 7.5 cm X 2 cm in Megascolides

21
Development
  • Direct development
  • Therefore create eggs containing yolk or albumen
  • Eight days to several months before juveniles
    emerge from cocoons
  • Live several years
  • Six years in captivity
  • Reach sexual maturity at approximately 200 days

22
Class Hirudinomorpha
  • Leeches and closely related worms
  • 500 spp
  • Marine, mostly freshwater, a few terrestrial
    species (restricted to moist environments)
  • Lack chaetae
  • Have a fixed number of segments (typically 33)
  • All have a posterior sucker for adhering to prey
    or substratum
  • Most have an anterior sucker as well

23
  • Blood-sucking ectoparasites or carnivores
  • 1 cm to 30 cm long (Haementeria, giant Amazonian
    leech)
  • Black, brown, olive, or red in color
  • May have striped / spotted patterns
  • Typically inhabit stagnant or slow moving
    freshwater
  • Estivate in mud during periods of drought
  • Can lose 90 of body water
  • Often extremely abundant

24
Body Form
  • Dorsoventrally flattened
  • Tapered at anterior end
  • Suckers
  • Anterior (if present) is smaller and surrounds
    mouth
  • Posterior is disc-shaped anus located directly
    anterior
  • Annulations that dont accurately depict segments
  • Number of annulations per segment varies
  • Clitellum spans segments 9-11, but is only
    conspicuous during reproduction

25
Body Wall
  • Connective tissue is much thicker
  • Makes up a larger proportion of the animal
  • Slightly different musculature
  • Dorsoventral muscles
  • For flattening
  • Helical muscles
  • For twisting

26
Coelom
  • Larger connective tissue compartment means a
    reduction of the coelom
  • Lack septa, so therefore lack bilateral coelomic
    cavities
  • Also lack mesenteries
  • Continuous coelom which serves as a hemal system
  • Two large lateral coelomic vessels
  • Dorsal and ventral coelomic vessels
  • Lined with mesothelium (chlorogogen cells)
  • Muscle contractions propel fluid
  • Body surface conducts gas exchange

27
Locomotion
  • Not equipped for burrowing due to
  • Reduction of coelom
  • Loss of septa and chaetae
  • Many inchworm by anchoring with anterior and
    posterior suckers
  • Many swim
  • First contract dorsoventral muscles to increase
    surface area
  • Then undulate

28
Nervous System
  • Similar to other annelids
  • Fusions of ganglia in the sucker regions
  • Posses ocelli
  • Posses sensory papillae
  • Projecting discs consisting of many sensory cells
  • Typically found dorsally, in rows, on one
    annulation of a particular segment
  • Sense organs mainly used for prey detection, and
    respond to
  • Moving shadows and water-pressure vibrations in
    fish leeches
  • Chemicals from body fluids such as oils, sweat,
    and blood
  • Waves
  • Temperature differences

29
Excretory System
  • 10 17 pairs of metanephridia
  • One pair per segment in middle 1/3 of animal
  • Nephrostomes project into coelomic vessels
  • Nephridial tubules are embedded in connective
    tissue
  • Posses a bladder that fills before urine is
    released through nephridiopore
  • Important for osmoregulation

30
Digestive System
  • Pharynx types
  • Protrusible pharynx that is forced into prey /
    host tissue
  • Non-protrusible sucking pharynx
  • May or may not have jaws
  • Enzymes usually facilitate penetration in those
    lacking jaws
  • Salivary glands empty secretions into pharynx
  • Hirudin anticoagulant
  • Anesthetic
  • Vasodilators
  • Often 1 11 pairs of lateral intestinal ceca

31
Nutrition
  • Three fourths are blood suckers
  • Usually not host specific
  • Usually parasitize a group of organisms (i.e.
    crayfish, fish, reptiles, birds, mammals, etc.)
  • Some are carnivores of small invertebrates

32
  • Water from plasma is excreted via nephridiopores
  • Digestion is very slow
  • Gut produces hardly any enzymes
  • Symbiotic bacteria may produce digestive enzymes
    and vitamins
  • May take 200 days to digest a blood meal
  • Rarely feed
  • One blood meal may increase animals weight by 10X
  • May only need to feed twice a year in order to
    grow
  • Some can fast for 1.5 years

33
Medical Applications
  • Historically used in Europe for bloodletting
  • Supposedly, George Washington died two days after
    a bloodletting for a soar throat
  • Hirudo medicinalis is still used today for
    restoring circulation and reducing swelling
    after
  • Skin grafts
  • Digit / appendage reattachment
  • Natural antibiotic properties
  • Symbiotic bacteria produce antibiotics to reduce
    competition with other bacteria

34
Reproduction
  • No sexual reproduction, including regeneration
  • Hermaphroditic, but not simultaneous
  • Protandric
  • Male portion of reproductive system develops
    first
  • Spend first part of existence as males, then
    later reproduce as females
  • Copulation and fertilization is always internal
  • Most have copulatory organ for direct sperm
    transfer
  • Others hypodermically impregnate using a
    spermatophore
  • Pressure and cytolytic chemicals rupture body
    wall of mate
  • Sperm are released and migrate toward eggs

35
  • Eggs are laid after copulation
  • Time varies
  • Clitellum secretes a cocoon and albumen
  • The cocoons of fish leeches are attached to fish
    hosts
  • Some brood eggs by attaching cocoon to substratum
    and ventilate eggs by fanning flattened ventral
    surface
  • Some attach cocoon to ventral surface
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