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Bell work 1. Take out your bell work. 2. On the next line, write today’s date. 3. On the next line (or lines), copy today’s bell work questions (below).

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Presentation on theme: "Bell work 1. Take out your bell work. 2. On the next line, write today’s date. 3. On the next line (or lines), copy today’s bell work questions (below)."— Presentation transcript:

1 Bell work 1. Take out your bell work. 2. On the next line, write today’s date. 3. On the next line (or lines), copy today’s bell work questions (below). 4. After writing the questions, write your answer in complete sentences. 5. After we review the answer to today’s question, correct your answer if needed, and place your bell work into your folder. We will use the same sheet of paper all week. All bell work from this week must be on one sheet of paper. Bell work will be collected on Friday. Define radial symmetry.

2 Date11/8/13SubjectZoology Benchmarks SC.912.L.15.1 Bell work Define radial symmetry. Objective Distinguish the major organs of an echinoderm Agenda Echinoderm direct instruction Echinoderm notes Essential Question What structures are specific to echinoderms? Vocabulary radial symmetry, central disk, radial canal, madeporite Ticket Out: Notes completion Homework: NONE

3 Bell work Define radial symmetry. Symmetry around a central axis

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5 GENERAL CHARACTERISTICS Ex: sea stars, brittle stars, sand dollars, sea urchins, & sea cucumbers All marine “ Spiny-Skinned Animals” Radial Symmetry as adults – 5 parts Regenerate = Autotomy

6 Phylum Echinodermata Characteristics Adults have pentaradial ( 5 part) symmetry Capable of extensive regeneration

7 GENERAL MORPHOLOGY A. INTERNAL SKELETON of Calcareous ossicles (plates) Variations : Brittle / Sea Stars – many small plates that move with one another

8 Sea Urchin & Sand Dollar – skeleton plates fused into shell called “test”

9 Sea Cucumber – degenerated & buried in leathery body

10 B. Water Vascular System Network of canals – run throughout body ending w/tube feet Varying internal water pressure can extend or contract tube feet Tube feet end in small suction cups Used in locomotion, food capture, & respiration

11 C. Mouth on oral surface (bottom / ventral) Anus on aboral surface (top / dorsal)

12 ECHINODERM TYPES

13 SEA STARS 5 Arms / Rays 4 – 10” Prey on bivalves (clams, mussels) & coral Many eat w/stomach outside body; pop stomach out mouth

14 Body Plan 2 – 4 rows of tube feet on each ray extend from ambulacral groove

15 Have pedicellariae or tiny, forceps-like structures on aboral surf. to pick up & remove dirt

16 Water Vascular System Water enters madreporite on aboral surface into a short, straight stone canal Stone canal connects to circular canal around the mouth = ring canal. Enters five radial canals extending down each arm

17 Water Vascular System Radial canals carry water to hundreds of paired tube feet. Bulb-like sacs or ampulla on tube feet contract & create suction

18 Other Body Systems No circulatory, excretory, or respiratory systems No head or brain Eyespots on the tips of each arm detect light

19 Reproduction Separate sexes External fertilization Females produce 200,000,000 eggs / season; meroplankton

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23 BRITTLE STARS Most mobile; fast Snake-like movement Disc.4 – 1.2 “; arms 2 – 2.4 “ Scavengers In largest class (with basket stars) Arms break off readily

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25 BRITTLE STAR LARVA

26 SEA CUCUMBERS Lack arms & visible spines; elongated Flexible, leathery body Burrowers

27 5 rows of tube feet run length of body 10-30 modified tube feet form tentacles around mouth Tentacles have sticky ends to trap plankton; or eat detritus Breathes through anus

28 Eject internal organs to scare predators (evisceration) ; regenerate in days Symbiosis with Pearl Fish which lives in its anus. Feed on gonads by day

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31 Filter Feeders Can detach & move around Sea lilies & feather stars

32 Sea Urchins Spines for protection, moving, trapping food Shell = test Divided into 10 sections 5 Ambulacral w/tube feet 5 Interambulacral without Covered w/muscle & skin to help mobility

33 Tube feet – moving, capturing food Pedicellarea – cleaning & defense Aristotle’s Lantern – 5 teeth together like bird’s beak; to scrape algae from rocks

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35 Sand Dollars Flattened version of urchin Live in sand along coastlines Food falls between dense spines & carried to mouth by cilia & tube feet Tiny, moveable spines for burrowing Aristotle’s Lantern

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37 Sea Biscuits Not as flat as dollars Live in sand along coastlines; burrow Tube feet for respiration Pedicellarea Eat detritus in sand Short dense spines for movement cover test

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41 What’s next Echinoderm notes, on Moodle Write your answers on paper for inclusion with your folder.

42 Friday 11/8 – Staple folder assignments together in the following order: Bell work Distinguishing Arthropods (Monday) Grasshopper Dissection (Tuesday) Spider Classification (Wednesday) Parasite Reading Comprehension (Thursday) Echinoderm Notes (Friday) Homework – Arthropod Review


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