Phylum Echinodermata Sea stars sea urchins sea cucumbers
Phylum Echinodermata Sea stars, sea urchins, sea cucumbers
Choanoflagellates
General Characteristics n n n n Echino- (spiny) derm (skin) Exclusively Marine – usually shallow, coastal waters and ocean trenches Unsegmented Body Larvae are free-swimming and bilaterally symmetrical Adults become bottom-dwelling with radial symmetry Most have five radii or multiples of five which is known as pentaradial symmetry Unique water vascular system
Larval Echinoderms with bilateral symmetry
General Characteristics n First phylum with endoskeleton (with exceptions) With dermal calcium plates (calcareous ossicles) n Some with protruding spines or spicules n n n Complete Digestive System No defined circulatory, respiratory, or excretory systems (no kidneys) Instead, have tiny tube feet that aid in movement, feeding, respiration, and excretion Distinct males and females reproduce sexually and/or asexually (Dioecious) Have a nervous system but no head or brain.
Asteroidea – Sea Star
Class Asteroidea (“star-like”) Examples: Sea Stars Ø Found all over coastal shores around the world Ø Use tube feet to pry open the shells of oysters, clams, and other sea food that are used by people Ø They also scavenge on dead crustaceans found on the ocean floor Ø
Body Plan of the Sea Star Oral surface: mouth located on the underside of the body Ø Aboral surface: top of the body (anus is located here) Ø Ossicles: sharp protective spines made of calcium plates, covered with thin epidermal layer (this is what makes it spiny) Ø Pedicellariae: tiny forceps that camouflage or clean the body surface Ø (white structures)
External Anatomy Aboral Surface Oral Surface
Internal Anatomy
Ophiurodea – Brittle Star, Basket Star
Class Ophiuroidea (“snake-like”) Examples: Basket Stars & Brittle Stars Ø Largest echinoderm class Ø Primarily reside under stones, in crevices, and holes in coral reefs Ø Thin, brittle arms that break off & regenerate themselves quickly Ø Feed by raking food off the ocean floor with their arms and bottom of tube feet Ø Trap food with mucous strands between their spines. Ø
Ophiuroidea (“snake-like”) No anus Ø Madreporite on oral surface rather than aboral surface Ø No suckers on tube feet, no ampullae (have a valve to control water pressure) Ø No pedicellariae Ø Gametes (sperm or eggs) released through bursal slits Ø
Brittle star anatomy
Echinoidea – Sea Urchin, Sand Dollar
Class Echinoidea (“hedgehog-like”) Examples: Sand Dollars and Sea Urchins Ø Sand Dollar: Ø Live along seacoasts & sandy areas Ø Flat, round shape bodies Ø Adapted for shallow burrowing Ø Short spines allow for movement (also aid in burrowing & cleaning their bodies) Ø Use tubes to filter food out of water Ø
Class Echinoidea Ø Sea Urchins: Ø Test: rigid endoskeleton that the internal organs are compacted in Ø Aristotle’s lantern: complex jaw-like mechanism that is used to grind their food Ø Tube feet allow for movement Ø Barbs on their long spines are sometimes venomous provide protection from predators
Anatomy of a Sea Urchin
Aristotle’s Lantern – Sea Urchin
Holothuroidea – Sea Cucumber
Class Holothuroidea Example: Sea cucumbers Ø Bodies are tough and leathery, yet still have a soft feel Ø Skeletal system reduced or absent Ø No hard spines or pedicellariae Ø Feed by sweeping up sediment from the water with tentacles around mouth Ø Protect themselves by ejecting internal organs through the anus which is also known as evisceration. Ø
Sea Cucumber Anatomy
Crinoidea – Sea Feathers, Sea Lily
Class Crinoidea (“lily-like”) Examples: Sea lilies and Feather stars Ø Sessile Ø They have long stalks that attach to rocks or to the ocean floor Ø Feather stars eventually detach themselves Ø Sticky tube feet that are at the end of each arm catch food and serve as a respiratory surface. Ø
Class Concentricycloidea Example: Sea Daisy
Class Concentricycloidea (“circular”) Examples: Sea Daisy Ø Less than 1 cm in diameter (so extremely small) Ø Disc-shaped with no arms Ø Tube feet are located around the disc-shaped center Ø Looks very much like a daisy Ø
Other Structures
Water-Vascular System Ø Ø Hydrostatic pressure permits movement Path of water in the Water-Vascular System u Enters the madreporite (sieve plate) u Passes through stone canal u Traces a path from the ring canal encircling the mouth and on to 5 radial canals that extend to each arm Ampulla: bulblike sac that each foot connects to Tube feet contract so that water enters; this allows them to be able to suction onto the surface of slippery rocks
Other Body Parts Fluid in coelom bathes organs to distribute nutrients & oxygen Ø Skin gills: protect coelom lining; gases are exchanged Ø Respiratory Trees: sea cucumbers use respiratory trees for respiration; gas exchange Ø Nerve ring: surrounds mouth & branches off into nerve cords in each arm. Ø Eyespots: end of each arm that responds to light Ø
Reproduction Sexually reproduces with each arm producing sperm or egg Ø Releases sperm or egg into the water for fertilization (oviparous fertilization) Ø A fertilized egg develops into a freeswimming larvae Ø It settles to the bottom and develops into an adult through complete metamorphosis Asexually reproduces by regenerating lost parts
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