Download Unit 6.2 - Echinodermata - Jutzi

Unit 6.2
Phylum Echinodermata
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Phylum Echinodermata
• Radial symmetry
• No head or brain – they
rely on neural ganglia
located in several
locations to coordinate
movement.
• Spiny skin
• Water vascular system
• No excretory organs
• Deuterostome
• Bilateral larvae
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Porifera Platyhelmithes Mollusca Arthropoda
Cnidaria
Nematoda
Annelida
Echinodermata Hemichordata
Lophophores Chordata
Protozoans
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Class Asteroidea
Sea Stars
• 5 or more tapering arms
• Mouth located ventrally
• Exoskeleton is comprised of
interlocking disks of calcium
called ossicles
• Tube feet allow for
attachment to numerous
surfaces during movement
• Feed on mollusks and sea
urchins
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Class Asteroidea
Aboral surface
Oral surface
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Aboral Surface
Madreporite
Madreporite
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Oral Surface
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Pedicellaria
Spine
Pedicellaria
Dermal
branchia
• Aid in prey capture and in keeping the aboral
surface clean of parasites
• Located between spines on the dorsal surface
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Pedicellaria
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Water-Vascular System of a Sea Star
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Tube feet
• Water is filtered and
enters through the
madreporite
• Water pressure causes
ampullae to extend
pushing the tube foot out
• Retractor muscles bend
tube foot in direction of
travel
• Water exits back out
through the madreporite
and the tube foot relaxes
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Tube foot
Ampulla
Lateral canal
Body wall
Tube foot
Retractor
muscles
Podial muscle
Sucker
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Movement of tube feet
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Body Wall and Internal Anatomy of a Sea Star
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Feeding
• Sea stars use their
tube feet and their
water vascular systems
to attach to mollusks
and pry their shells
open
• They may extend their
stomachs externally to
surround and digest
prey that is too large or
is otherwise
inaccessible
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Sea Stars Are Eaten Too!!
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Reproduction
• Sea stars are
dioecious – separate
sexes
• Fertilization takes
place externally
• Sea stars usually
gather in large groups
and release their
eggs and sperm into
the water near each
other
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Regeneration
• Many sea stars can
regenerate their arms
if they are lost due to
predation or if they
are used as decoys
• Some sea stars carry
most of their vital
organs in their arms
and can thus grow an
entire new organism
from just one arm
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Regeneration
Arm regenerating a body
Body regenerating an arm
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Class Ophiuroidea
Brittle Stars and Basket Stars
• Central disc with
distinct arms like
Class Asteroidea, but
the similarities stop
there
• No pedicellariae (the
little dorsal pinchers)
• Tube feet lack
suckers and ampullae
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Class Ophiuroidea
Brittle Stars and Basket Stars
• The central disk is
sharply marked off from
the arms
• Central disk contains all
of the visceral organs
• Digestive and
reproductive systems do
not extent into the arms
like they do in Asteroidea
• Tend to live in deeper
waters than the sea stars
as well
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Class Echinoidea
Sea Urchins
• Shell (test) encloses body
• Ossicles form
interconnected plates that
completely protect the
animal
• No arms
• Long spines deter predators
and are often coated with
venom
• Tube feet located between
spines aid in movement
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Sea Urchin Internal Anatomy
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Class Echinoidea
Sand Dollars
• Burrow into the sea
floor and filter out
organic detritus from
the sand
• Madreporite is located
centrally on the aboral
surface
• Mouth is located
centrally on the oral
surface
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Class Echinoidea
Sand Dollars
Gonopore
Madreporite
Ambulacral region
Lunule
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Class Holothuroidea
Sea Cucumbers
• Soft body with
reduced ossicles
• Tentacles near mouth
• Respiratory tree
extends from the
cloaca – they breath
through their anus!
• Able to expel a sticky,
glue-like protein that
dissuades predators
from attack
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Class Cridoidea
Feather Stars and Sea Lilies
• Most primitive of the
echinoderms
• Feather like arms used
for suspension feeding
– filter plankton from
the passing water
• Tube feet trap
planktonic organisms
• Cilia in ambulacral
grooves carry food
down arms to the
mouth which is located
on the aboral surface
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Sea Lilies Attach to a Substrate
via their Stalks
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Feather Stars may Swim or
Crawl via their Cirri
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Central disk
All the visceral organs
are located in the
central disk. This is
similar to that of the
brittle stars
Mouth
Anus
Pinnule
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The End
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