Phylum Mollusca Ch 12 – Molluscan Success
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Transcript Phylum Mollusca Ch 12 – Molluscan Success
Mollusks are second only to arthropods in
numbers of living species
Mollusca = “Soft Bodied” (Latin)
~555 Million Years Ago
Range in size and
body shape
Largest 1000
lbs, 18m long
(giant squid)
80% less than 5
cm
Body of three regions: head-foot, visceral mass,
and mantle
Mantle cavity functions in excretion, gas
exchange and reproduction
Bilateral symmetry
Protostome development
True coelomates (eucoelomates), reduced size
Open circulatory system in all but cephalopods
Radula present and used for scraping food
Three main regions
1. Head-foot
Head (nervous structures) and foot
(locomotion)
2. Visceral Mass
Contain organs
3. Mantle
Mantle
Usually attaches to the
visceral mass and
enfolds most of the
body. May secrete the
shell.
Mantle Cavity
Between the mantle and
foot. Opens to the
outside and functions in
gas exchange, excretion
and reproduction.
Radula
A rasping structure
found in the mouth.
“Toothed tongue”
“Stomach foot”
Largest and most varied
class of mollusks
~35,000 living species
Examples: snails, slugs,
conch, and limpets
Marine, freshwater, and
terrestrial habitats
Most have shells –
calcium carbonate
Torsion - 180° twisting of
the visceral mass,
mantle, and mantle
cavity. Used to bring
head into shell.
Operculum closes shell
opening.
Shell coiling: whorl, apex
Flattened foot for
locomotion
Cilia
Muscular contractions
Use radula for scraping
food
Maintenance Functions
Gas exchange occurs in
mantle cavity
Open circulatory system
3 chambered heart
Hydraulic skeleton –
fluid under pressure in
body
Some dioecious, some
monoecious
“Two valves”
Second largest molluscan
class: ~30,000 species
Includes clams, oysters,
mussels, and scallops
Many edible, some form
pearls
Marine and freshwater
No head or radula
Most are filter feeders
Adductor muscles used for
defense
Mantle attaches to shell
around adductor muscles
Pearl forms when sand lands
between mantle & adductor
Foot projects from front end
of animal, through the valves
Foot used for burrowing
Siphon – “neck” used for
intake of water and food and
release of waste.
Complete digestive tract
Reduced nervous system
Two convex halves of the shell – valves
Umbo – oldest part of shell near anterior end
Maintenance Function
Reproduction
Cilia covered gills
Most are dioecious, some
Cillia move water in and
monoecious
Gonads in visceral mass
External fertilization (most)
Trocophore larvae
out of mantle
Incurrent siphon
Excurrent siphon
Gills in mantle cavity for
gas exchange
Food trapping – cilia
move food toward
mouth
“Head Foot”
Includes octopuses, squid, cuttlefish, and nautiluses
Most complex mollusks/invertebrates
Foot modified into a circle of tentacles and a siphon
Shell reduced or absent in most
Head in line with elongate visceral mass
Shell reduced or absent in all but nautilus
Cuttlefish
Shell is internal. Cuttlebone is used to make
polishing powder and bird treats (for calcium)
Squid
Pen: internal, chitinous structure
Cartilaginous plates in mantle wall, head, neck
Octopus
Absent
Locomotion
Cuttlefish and squid very
Maintenance Functions
Adhesive cups used for
capture.
Beaklike jaws and radula
Complete digestive tract
Closed circulatory system
Complex nervous system
motile
Octopus more sedentary
Chromatophores for
Predators
Jet-propulsion system
Muscle contractions
Forces water out
through narrow funnel
Brain and Eye
defense (color change)
Discharge of ink
Cephalopods are dioecious
One tentacle of male is
modified for
spermatophore transfer
Tentacles intertwine
during copulation.
Spermatophores burst
open and eggs are released
through the oviduct.
Fertilized eggs attach to
substrate
“many plates”
Chitons
Shallow marine waters
Reduced head, flattened foot
Shell divides into eight dorsal
valves
Crawl similar to gastropods
“Boat foot”
Tooth shells or Tusk shells
Burrowing marine animals
Conical shell that is open
at both ends
Head and foot project from
wider end
“One plate”
Undivided, arched shell
Broad, flat foot
Repeated pairs of gills and
foot-retractor muscles
Thought to be extinct
until 1952
“Without plate”
Lack a shell and crawl on
ventral surface
Body and nervous system
similar to flatworms
Most are surface dwellers
on corals