coral reef a educator guide

7/28/2019 Coral Reef a Educator Guide

1/11

Educators

Guide


2/11

EDUCATORS

1

The coral reef is an entire living system,a structure built by colonies of tiny coralanimals over millions of years.Teaming withas much biodiversity as terrestrial rainforests,coral reefs, with their extraordinary beauty,brightpalette of colors, and oddly patterned inhabitants,are one of Earths most important ecosystems.

The biodiversity of the reef system supportsa vast interdependent food web,from microscopicplants and animals to humans. However,this lifesustaining resource is now seriously threatened byhuman impact. The possible warming of our climate

with associated warming of ocean temperatures,increased sedimentation from development alongcoastal areas,pollution, and unsustainable fishingmethods are only some of the threats to reefs

worldwide.As humans change the environment onthe surface of the Earth, the conditions underneaththe surface of our oceans change accordingly.

Through scientific exploration and discovery atScripps Institution of Oceanography and otherresearchinstitutionsworldwide,we arelearninghow the coral reef ecosystem is dependent on thecomplex interactions of its inhabitants.From themicroscopic plants that live within the tissues of thecoralsto the diversityof invertebrates and fishes thatfind food and shelter within the colorful caves andcrevices, the reef systems millions of species alsoprovide important food resources for sharks, seaturtles and dolphins. Millions of people throughoutthe world depend directly on the reefs for theirlivelihood.

Rainforests of the SeaThere are more species of organisms living on coralreefs than in any other environment in the ocean.Infact,despite coveringless that0.2 percent of the totalarea of oceans,coral reefs are noted for some of thehighest levels of total productivity on Earth andhouse 25% of all marine creatures. Like a rainforest,coralreefs forma habitat where an astonishing arrayof life thrives. It has been estimated that between1-9 millionspecies liveoncoralreefs.Reefsare hometo thousands of species found nowhere else onEarth. For many it is a hunting ground,a safe placeto hide, a place tobreed,toraiseyoung,and togrowold.There is a complex and delicate web of closerelationshipsbetween the many organisms in thecoral reef ecosystem.

More Than Just Colorful Rocks:Corals Are AnimalsThe corals that form the structure of a coral reef areliving animals that feed,fight, reproduce and grow.Coralsare invertebrates,animalswithouta backbone,belonging to the class Anthozoa (AN-THO-ZOA)

and the phylum Cnidaria (NI-DARIA). Corals, likeother anthozoans, have a simple body structure thathas only one body opening,the mouth. They areclosely related to other cnidarians suchas jellyfish,

which float through the water,andanemones that, like corals, attachthemselves to a hard surface.Theindividual coral animal body unit iscalled a polyp.Each polyp has amouth surrounded by a ring of

tentacles leading to the stomach.Coral polyps are connected to otherpolyps in a colony.A colony isformed of millions of polyps whichgrew from one original larva that bydividing and budding,and in somecases fusing, became a group ofinterconnected organisms.As thecoral grows,new polyps are formed.Old coral reefs may be over 100 feetthick,butthe livingpartis onlyathin

veneer of corals and other organ-isms, perhaps only a few feet thickon the surface.Coral tentacles arearmedwith stingingstructurescallednematocysts that the coral uses tocapture tiny animals in the ocean

water called plankton.The planktonis deposited in the mouth,passesto a cavity where it is digested andnutrients are absorbed.Solid wastesthenpassbackoutthroughthe coralpolyps mouth.Food is shared withneighboring polyps in a colonythrough connections betweenindividuals.Spaceon areef islimitedand corals will fight with theirneighbors including other plants

and animalsto prevent overgrowth.Coral polyps on the edges of colonies may use longsweeper tentacles, loaded with nematocysts, tosting many of their neighbors that grow too close.Theycan alsouse long,tubularmesenterialfilaments,

whichare extendedfrom thepolypsstomach cavitiesto digest away encroaching neighbors.Other coralscompete by growing rapidly and shading theirneighbors.

Ona few nights of each year many of the coralson the reef reproduce in an event called mass

T a b l e o fC o n t e n t s

1 Introduction

4ACTIVITY 1

Reef Partners Wanted

7 ACTIVITY 2Cant Stand the Press

8 ACTIVITY 3Coral Reef Cafe

10 ACTIVITY 4Protecting the Reef is

More than Just a Gam

12 ACTIVITY 5The Silt and Sedimen

of it All

14 ACTIVITY 6Can you Eat a Reef?

16 ACTIVITY 7Get Your Quadrats

in Gear!

Inside Back Cover: Resour

Acknowledgments

Introduction

An Ed uc at i on al R es o ur c e f or T ea c h

Pollution,overfishing,and

overuse have put many of

our unique reefs at risk.

Their disappearance would

destroy the habitat of

countless species. It would

unravel the web of marine

life that holds the potential

for new chemicals, new

medicines, unlocking new

mysteries. It would have a

devastating effect on the

coastal communities from

Cairns to Key West,Florida

communities whose

livelihood depends upon

the reefs.

Bill Clinton,PRESIDENT OF THE UNITED

STATES, AUGUST 1996INTERNATIONALYEAROF THE CORAL REEF 1997

The large format film, CORALREEFADVENTURE, is appropriate for all intermediate grades (4-8.)

This educators guide will be most useful when accompanying the film,but is a valuable

resourceon its own.Teachers are strongly encouraged to adapt the activities included in this

guide to meet the specific needs of the grades they teach and their students.

MacGillivray Freemans CORAL REEFADVENTUREMajor funding provided by the National Science Foundation

in association with Museum of Science, Boston,

National Wildlife Federation,Lowell, Blake & Associates and Museum Film Network.

Educational outreach support provided by NOAA and Reef Check.

All rights reserved.Printed in USA.

NOTICE: This publication may be reproduced by the classroom teacher for classroom use only. This

publication may not be reproduced for storage in a retrieval system, or transmitted in any form by any

meanselectronic, mechanical, recordingwithout prior permission of the publisher. Reproduction of

these materials for commercial resale is strictly prohibited.Any opinions, findings and conclusions or recommendations expressed in this material are

those of the producers and do not necessarily reflect the views of the National Science Foundation.

IMAX is a registered trademark of IMAX Corporation.

DearEducator,

WeatMacGillivrayFreemanFilmsarep

leasedtobringyou

andyourstudentsanotherexcitingand

beautifulfilmhigh-

lightingthecoralreefsfromaroundthe

world.Throughthe

engagingactivitiesprovidedinthisguide

,webecomepartners

intheeducationprocessofyourstudent

sastheyare takento

areas ofthe globewheretheymaynotnorm

allybe abletotravel.

Thiseducatorguidewillbemostuseful w

henusedeither

beforeorafterviewingthefilm,butisava

luableresourceon

itsown.Youareencouragedtoadaptan

yoftheactivities

includedtomeetthespecific needsofth

egradesyouteach

andtoyourstudents.Itisimportantton

otethattheactivities

inthisguidehavebeendevelopedtopr

ovideconnectionsto

theNationalScience Standardsforgrad

e4-8.LifeScience

Standardsrelatinghoworganismsrelate

totheirenvironments

andtheirinterdependencyinanecosystemarestrongl

y

relatedwithintheguideandfilm.Activitieswithinthisguide

arestronglyconnectedtoScienceinPer

sonalandSocial

PerspectivesandHistoryandNatureof

ScienceStandards.

Theseactivitiesofferstudentscentralid

easrelatedtohealth,

populations,resourcesandenvironmen

tstoshowthemthat

scienceisahumanendeavorforsetting

thefoundationsto

understandingtheiractionsascitizens

oftheworld.

TeachyourchildrenwellCROSBY, STILLS

ANDNASH

GregMacGillivray


3/11

EDUCATORS GUIDE

2

Global Warming andThe Greenhouse EffectThe surface temperature for each of the planets inour solar system is determined by its heat budget.The heat budget is balanced,like other types ofbudgets, if the amount of energy coming in equalstheamount goingout. Global warming occurs whenthe incoming energy from the sun (solar radiation)is greater than the energy released back into spaceas light or heat. Recently the Earth has becomeabnormally warm.Ocean temperatures haveincreased by over 1C over the past century andcontinue to increase at an even faster rate.In 1995alone, the average temperature increased by half adegree.The increase in global warming is likelycaused by the greenhouse effect.

The greenhouse effect is the accumulation ofgases in the atmosphere that prevent the heatemittedfrom the Earth to return to space,disruptingthe Earths heat budget.There are several types ofgreenhouse gases including nitrogen oxides,ozone,carbon dioxide, methane, and chlorofluorocarbons

(CFCs).Carbondioxide is the most significant of thegreenhouse gases,accounting for about 64% of thetotalabsorptionof infraredenergy.Humanactivities,such as the burning of fossil fuels and deforestation,have caused a steady increase in the concentrationof greenhouse gases to levels unprecedented inEarths recent history.The resulting global warmingis increasing the severity and intensity of coralbleaching. Unless we take an active role in reducinggreenhouse gases, and slow down global warming,the fate of coral reefs will remain precarious.

Coral Reefs in PerilCoral reefs are being lost worldwide at an alarmingrate.The Global Coral Reef Monitoring Networkestimates that over 16% of the reefs,globally, havealready been effectively lost and that up to 40%may be lost by the year 2010.Three billion of the

worlds 5.3 billion people live in coastal areas.This

number is expected to double in the next 50 yearswith the greatest population increases expected intropical developing countries.

Coral Reef StewardshipCoral reefs depend on our stewardship just as wedepend on them.The Fijians have a taboo systemrun by the Chiefs, which determines when and

where certain fishes can be caught.This traditionalreef management system has worked well forthousands of years and has allowed the Fijians tosurvivewithout over-harvesting their reefs.The reefsprovidefood, protection fromstorms andrough seas,income fromtourists, and helpFijians become apart of theirculture throughceremonies thatthank the reefsand waters.TheFijians are just oneof hundreds ofcultures worldwide that rely directly on the tropicalmarine system for survival.The loss in fisheriesincome is increasing and is estimated to be billionsof dollars a year if reefs are lost. Coral reefs alsoact as an important buffer to the tropical coastlineprotectingthe landfrom waves, storms,and erosion.They serveas a sourceof novelbiomedicalresources,and we may be losing potential cures to disease asthe biodiversity on reefs disappear.Pharmaceuticalsfrom coral reef organisms are now being developedas potential cures for cancer,HIV, arthritis andother diseases.

The biggest way to reverse the adverse changesto coral reefs is through education.Through filmslike CORALREEFADVENTURE and activities in thisguide we can learn how our actions affect coralreefs so we can better protect them for the future.

spawning.Tens to hundreds of species of coralsrelease their eggs and sperm into the water on thesame night.The eggs float to the oceans surface

wherethey canbe fertilized,formingnew corallarvaecalledplanulae.Thecoral planulaeswiminthe oceanfor severaldays to weeks until they settle on the reefbottom and grow into new corals. Corals can alsoreproduceasexuallyby budding.During budding thecoral polyp will divide to make a nearly identicalcopy of itself that will remain attached to the parentpolyp.A coralcolony will form after repeated roundsof budding and can grow to contain hundreds andeven thousands of polyps.As new polyps form theyovergrow olderpolyps thatdie and add their calciumcarbonate skeleton to the foundation of the reef.

There are two main types of coral: non-reefbuilders(ahermatypic)and reefbuilders(hermatypic).

Ahermatypic corals,such as soft corals and solitaryhard corals,do not contribute substantially to theformation of the reef. Solitary corals grow as indi-

vidual polyps that do not form colonies. Soft coralsare colonial corals that have a flexible skeleton and

depend on toxic chemicals in their tissues to protectthemselves from predators.Hermatypic, or reefbuilding corals,are hard corals that form largecolonies from thousands of connected polyps livingtogether,sharing food and energy.Hard corals usezooxanthellae (ZOO-ZAN-THELLY), helper algae,to combine calcium and carbonate from the waterand from respiration,to form a strong limestoneunderlying skeleton,similar to the process used byclams,oysters and snails to create their hard shells.The zooxanthellaeare the coralssolar panelsandprovide enough energy to build their skeletonsrapidly.Generation after generation of polyps addto the skeleton, forming corals of an incredible arrayof shapes and sizes. Coral colonies can grow biggerthan a small house and can be several hundred

years old.Over thousand of years, the skeletons ofmany coral colonies living together form reefs.

Major Types of Coral ReefsThere are three major types of reefs: fringing reefs,barrier reefs and atolls.Fringing reefs form just offthe coast of a continent or an island and usuallyprogress from a shallow sandy lagoon to the reefcrest where the most wave resistant corals grow,tothe reef face where the majority of the coral speciesarefound. Barrierreefs form farther offshore,usually10-100 kilometers from the coast, and often form

massive walls of coral separated from the coast bya large channel or lagoon.Atolls are circular reefssurrounding a lagoon that form when volcanicislands sink into the ocean over millions of years.

Coral reefs are found throughout the warm,shallowtropicaloceans of theworld, mostlybetweenthe tropic of Capricorn (2327') and the tropic ofCancer (2327').Since ocean currents can bring

warm water to cooler places, reef corals grow insurprising locations such as off Texas and nearTokyo,Japan! There are two major coral reefregions

in the world: the Indo-West Pacific and the WesternAtlantic.The Indo-West Pacific region spans fromthe Red Sea through Australia to the Indian Oceanand toAfrica.It is the largest coral reef region in the

world with the greatest diversity of coral and fishspecies.The Western Atlantic region spans fromFlorida to Brazil,and includes the Caribbean,Bermuda,and the Gulf of Mexico.Reefs are alsofound in the tropical eastern Atlantic and EasternPacific, but they are less well developed and diverse.

The Intimate Partnerships of ReefsReef building corals are dependent on a close rela-tionshipwith tinyalgae (plants) that live within theirtissue,the zooxanthellae.The zooxanthellae providethe corals with up to 98% of the food that theyproduce,allowing the corals to make their skeletonsgrowfasterand formreefs.Corals inturn provide thezooxanthellae with a safe place to live where theyreceive plenty of sunlight and nitrogen-rich wasteproducts.Corals cannot obtain enough energy fromfeeding alone to build large colonies and form reefs.Coral reefs are found in the tropics where the warm,clear,shallow water allows enough sunlight toreach the algae living within their tissues.

The relationship between a coral and its zooxanthellae is delicately balanced, however,and smallchanges in environmental conditions,especiallyseawater temperature,can disrupt it. With increasingtemperature the algae may die or leave the coraltissue,causing the corals to turn white and bleach.Thebleached coralscan only survive for a few weeks

without the energy supplied from their algae, andif seawater temperatures dont return to normal thecoralscannot obtainnew zooxanthellae and will die.The Earths average temperature has been rising atan unprecedented rate,and this global warmingmay have dire effects on coral reefs.During the last20 years, bleaching events have increased in severityand massive bleaching events have caused entirereef communities to die. In 1998,coral bleaching

was so extensive that thousands of kilometers ofreefs were damaged.

Natural threats to coral reefs:Hurricanes,typhoons, El Nio,coral eatingorganisms and disease.

Human threats to coral reefs: overfishindestructive fishing practices,sedimentation,coastal development,sewage and otherpollution,and rising global temperatures.


4/11

EDUCATORS

5EDUCATORS GUIDE

4

Reef Partners Wanted

Objective: Students will identify several reefpartnerships and describe how the organisms helpeach other.

In The Film: The coral reef is a delicately balancedandlinked habitat inwhichcreatures large andsmallcooperate to build a communityneighbor helpingneighbor.As the Crosby, Stills, and Nash song

Our Houseplaysin the background,the Goby and theshrimp benefit fromsharinga homein

the reef.The gobygets to live in a greatburrow,while thenear-sighted shrimpgets a live-in body-guard. Later in thefilm, a 300-poundpotato cod visits acleaning stationat

which itallowsthetiny wrasse to swim right into itsmouth to clean itsmouth and gills.The relationship the wrasse has

with the potato cod requires mutual trust.

Materials: per group Copies ofThe Coral GazetteWant Ads Copy Page Players and Partnerships Cards set

Teacher Prep Notes: CopyThe Coral GazetteWant Ads for each group of students.CopyPlayersand Partnerships Copy Page in advance and cuttheminto cards.Each group of students should havea complete set of Players and Partnerships cards.

All symbiotic relationships identified in this activityare examples of mutualism.This activity is adaptedfromNaturescope,Diving into Oceans.Note:Answer key on the inside back cover.

Background: Survival strategies on coral reefs

extend beyond the usual adaptations of camouflage,spines, stingers and other physical features.Relationships between animals as well as betweenanimals and plants have evolved on the reef toinclude a variety of social and biological interactionsinwhichone orall ofthe organisms involved receivesome benefit from the relationship.The amount ofbenefit (and cost) may change over time as therelationships change in response to environmentalchanges or other inputs.Scientists call theseinteractions symbioticrelationships.

The numbers of symbiotic relationships on acoral reef are extensiveperhaps the greatestconcentration of symbioses within one single habitaton the planet,according to the film.The coralsthemselves act as hosts to a variety of symbionts,including the zooxanthellae. These helper algaeliveinthe tissuesof thecoralpolyp and use the sunsenergy to produce sugars that are necessary for thesurvival of the coral.When water temperaturesrise, occasionally the zooxanthellae will abandonthe coral tissues,leaving the coral colorless. Thisphenomenon is called bleachingand could resultin death to the coral by starvation due to the lossof the sugars contributed by the zooxanthellae.Therelationship between the coral and the zooxan-thellae is an example of mutualism.

A mutualistic relationship involves the seaanemone and the clownfish (also called theanemonefish). The anemones tentacles contain cells

with small stinging structures (organelles) that harmmost small creatures,including fish. However,theclownfish builds a defense by acquiring a mucuscoat that protects against the stinging structures(nematocysts) and makes a home within theanemones tentacles providing a safe place for itand its companion. In turn,the clownfish bringsits meals back to the anemone where,while iteats, bits of the prey may fall into the anemonestentacles,providing an easy snack for the anemone.The anemone plays a part in another mutualisticrelationshipthis one with a specific type of hermitcrab.Thehermit crabfirst finds a snail shell to use asa mobileshelter,then addsthe anemoneto the shell.The anemone serves two purposescamouflageand stinging protection.In turn, the anemone hasfound a place to live and gather scraps of food(space can be limited on the reef).

ToDo:Discusswith studentsthe partnershipsfoundliving in, on and around a coral reef.Ask them toexplain the different types of living relationshipsthe inhabitants of the coral have.Ask students toexplain symbiosis, mutualism, commensalism,and parasitism.Ask students to think about howhumans might disrupt these relationships. Writetheir descriptions on the board.

Divide class into groups and give each groupone copy ofThe Coral Reef GazetteWant AdsCopy Page.Gi ve each group a set of the Playersand Partnership cards, one set per group.While

working in groups ask students to take turnsreading a want ad and discussing which Playercould have placed the ad and which Playersmight answer the want ad.Students should tryto match up as many partners and players aspossible,based on the advertisements in TheCoral Reef Gazette.

Afterstudents find matching pairs of Players andPartnerships cards,students should discuss

whether each relationship is an example ofmutualism, commensalism, or parasitism.

WillWorkforFoodDiverse group of maidsavailabletoclean. If inter-ested, stop by WrasseAlley during daylighthours. Only trustworthyfishallowed.

GroceryDeliveryOfferedAttractivefishcouple look-ing for nice, safe homewithsecurity.Willingtodogrocery shopping inexchangeforrent.

HouseforRentSpacious and clean 100-tentacle home available.Built-insecuritysystem.Rent charges may bewaived in exchange forotherservices.

FijiorBustDailytransportationaroundreef needed. I am decep-tively beautiful and canoffer bodyguard servicesin exchange for trans-portation.

RentalPropertyAvailableMobile Home on1/1000th of an acre.Subjecttohigh turnoverinownership. Future reloca-tion assistance available

throughoriginalowner.

TheEndisNear!Photosynthetic partnersneededimmediately! Globalwarming threatens healthofreef.Volunteers neededtoaidinfightforsurvival.If available, report to anyreef-buildingcoralimmedi-ately.

GotAlgae?Have you recently lostyour helperalgae?Free-floating algae availableand interested in settlingdown inthe tropics.Ifyou

oralovedoneareinneedofassistance, call toll free1-800-HELP.

DentalHygienistNeeDesperate for a gteeth and gill cleaninmay look tough, butcan trust me not toyou!

BodyguardAvailableOff-duty security offiseeks room for reWilling to offer securservices in exchangerent. Wouldprefera bottodwelling.

RoommateWantedVisuallyimpairedreefresdent, looking for roommate to share luxurapartment on BenthiAvenue. Room andboarFREE in exchange fosecurityservices.

KEY WORDS

Symbiosis-anassociationbetween twoor moreorganisms.Examplesmutualism: bothorganisms benefit, commensalism: symbiontbenefits,host does not benefit nor is it harmed,parasitism: symbiont benefits,host is harmed.

Zooxanthellae-One celled algae that liveinside the soft body parts of coral polyps.

Photosynthesis-The process by which plant-like organisms with chlorophyll use sunlight,

water,nutrients, and carbon dioxide toproduce organic energy or carbohydrates.

ACTIVITY1

Page27 TheCoralGazette

WantAds

THE CO RA L GA ZETT E WA NT AD S COP Y PAG E


5/11

Zooxanthellae

SeaAnenome

Clown

Fish

Wrasse

HermitCrab

AlpheidShrimp

PotatoCod

BrainCoral

SeaAnenome

Goby

EDUCATORS

7

Objective: Students will construct a device toexperiment with pressure,density, floating andsinking, and will make observations of thesephenomena.

In The Film: Howard Hall and his companionsuse SCUBA to explore deep coral reefs between

Australia and Tahiti in the South Pacific.At deepdepths, the pressure is much greater than it is atthe surface and can be very dangerous for humans.

At 350 feet, divers must withstand pressure that isover 10 times greater than at sea level. Because ofthis pressure, normal SCUBA equipment would notsuffice.A piece of specialized equipment is usedduring these deep dives that supplies a mixture ofgases including oxygen, nitrogen,and helium to thediver.Divers must carefully control this mixture ofgases as they descend and ascend during the dive.In the film, Howard scared the viewers when heforgot to adjust the mixture of gases on his firstdeep dive. He had to be rushed to a decompressionchamber to avoid the bendsa very serioussituation that could result in death.

Materials: 1 hex nut 1 plastic pipette Cup of water Hot glue & glue gun One 2-liter bottle with lid

Teacher Prep Notes: This activity can beassembled in advance and can be usedby studentswithout teachersupervision. It can also beused as a learning centeractivity. Ifstudents willbe makingtheir owndiver bottles,extrasupplies will be needed.

Adult supervision is neededfor cutting and hot glue gun use.Turn the bulb into a scuba diver byhot-gluinggoogly eyesonto front of the pipette.Cut fun foam to make a tank and fins for thescuba diver.

Background:At sea level the atmosphere exerts apressure of 1 bar (14.7psi).At 33 feet (10m) belowthe surface of the water, this pressure is doubled to2 bar (29.4psi), and for each further 33 feet (10m)in depth, the pressure is increased by 1 bar.Decompression sickness is sometimes called thebendsor caisson disease. Its primary cause is the

formation and growth of bubbles within tissues orblood.This takes place when dissolved nitrogen isbeing released within the body, instead of beingexpelled from it through the lungs. Once the diverbegins to ascend toward the surface,the waterpressure may fall below the total pressure of thegases dissolved in the bodys tissues during thetime the diver spends in deep water.The tissue isnow supersaturated with gas,and bubbles mayform in a manner that is similar to the appearanceof bubbles when opening a bottle of soda water.

To Do: Make sure your 2-liter bottle is clean anddry.Nextcut thebottomsectionof pipetteoff,leaving14 inch (1.5 cm) at the end of the bulb.Usin g a hotgluegun, carefullyglue the hex nut to the remaining14 inch(1.5 cm) under the bulb. NOTE: Do not gluethe opening to the pipette closed.See Diagram.

Gently squeeze thescuba diver bulb as

you place it into acup of water, thenrelease the bulbpartially filling it

with water.Withoutbringing the bulb outof the water, placediver into cup to seeif it floats near thesurface of cup.Toadjust the buoyancyof the diver, add or remove water in bulb.

Next fill the 2-liter plastic bottle with waterleaving some space near top.While holdingthe water inside the diver, put it quickly insidethe bottle. Be careful to not let the water outof the diver.Twist thelid onto the bottle andsqueeze the sides ofthe bottle to controlthe direction the divertravels in the bottle.

Whats Going On& Why? This activitydemonstratesthe propertyof buoyancy.Anobjectis buoyant in water dueto the amount of water itdisplaces or pushes aside.Therefore if the weight of

water that is displaced bythe object is greater thanthe weight of the object, it

willfloat. In the experiment,as you apply pressure to thebottle,you apply pressure to the air bubble in thedropper therefore reducing its size. As the bubblessize reduces, the diver becomes less buoyant andbegins to sink.Releasing thepressure onthe bottlereducesthe pressureon the bubble and the diverbegins its journey upward.

Cant Standthe Pressure

KEY WORDS

Pressure-The amount of force per unarea exerted upon by a surface area.

Decompression-The accumulations dissolved nitrogen in the body that i

not eliminated slowly can causesymptoms of decompression sicknes

SCUBA-Self Contained UnderwaterBreathing Apparatus.

Buoyancy-Having the tendency orability to float.

PLAYERS AND PARTNERSHIPS CARD SET COPY PAGE

ACTIVITY2


6/11

EDUCATORS GUIDE

8

Materials: Picturesof a parrotfish,porcupinefish,butterflyfish Several large Duplo blocks Sunflower seeds: approx. one cup (240 ml) Small bowl (for pistachios) Approximately 1 cup (236.58 ml) pistachios One piece of hard coral or rock One pair of tweezers One pair of pliers One clothespin or chip bag closer

Teacher Prep Notes: Pictures of the parrotfish,porcupinefishand butterflyfishcan befound in librarybooks or on the Birch Aquarium at Scripps website:

www.aquarium.ucsd.edu.This activity would workwellas a sciencestation in a cornerof the classroom.Students can experience this activity by using theirskilland dexterity. Remindstudents thata simulationis a way of acting like something, in this case a fish.The tools they will use in this activity represent themouths of some of the fishes who live on the reef.

Background: Coral reefs support a huge diversity

of fishes and invertebrates; in fact,coral reefs areone of the most diverse places on the entire planet.Each animal is adapted to take advantage of acertain niche in the coral reef habitat.Survivalstrategies, breeding strategies,even feedingstrategies all haveevolved to allow each animal to

take full advantage of the habitat.Fishes on the reef pick,scrape, crunch, or even

tear to get their food.Their mouths are shaped tomatchtheir feedingstyle.In thisexercise,students

will look at several fishes and compare tools to theshape and function of the fishesmouths.

ToDo: Set up space for this activity to include a flatworking surface.In one area of the working surface,set the Duplo blocks on the table,with the bottom(side with holes) facing up. Pour some sunflowerseeds into the nooks and crannies of the blocks.

Arrange an area for the bowl of pistachio nutsand another for the piece of coral or large rock.

All three sections can be side by side on onetable.Then place the tweezers,pliers andclothespin on the table.

Ask students to investigate which tools are mosteffective at picking up each different type ofseed or nuts. Remind students that the toolsusedrepresent the types of mouths certain fisheshave depending on what type of food they eat.

Have students compare the tools they haveused to the three different fish pictures.Havethem figure out what mouth form and functionmatches each of the tools.

Ask students to answer the following questionsand discuss their answers.

There are bits of food in the reefs cracks andcrevices for those that can reach them.Which tool would be best for picking foodfrom the cracks?

Hard-shelled reef inhabitants like snails andcrabs are tasty treats for those that can crushthem. Which tool would be best for crackinghard shells?

Coral tissue and the algae within them arenutritious mealsfor those that can scrape itfrom the corals hard skeleton. Which toolwould be best for scraping?

Taking It Further: Have the students do researchto figure out what the butterflyfish,parrotfish, andporcupinefish eat and whether it matches theirtheory of mouth function.

Visit a local pet store or a local aquarium todetermine if you can tell what fishes eat. Ask thestaff of the store or the aquarium to confirm yourthoughts.

Coral Reef Caf

Objective: Students will simulate the variety ofmethods with which different fishes on a reef feed.Learn how the size and shape of a fishs mouth andteeth provide hints about what type of food it eats.

In the Film: Throughout the film we see some ofthe many different fishes living in, on, and aroundcoral reefs.One question that comes to mind is howcan the reef support so much life? We can see that

coral reefs provide avarietyof food typesand many feedingsituations to which

reef inhabitantshave adapted forsurvival.Think of

the cleaner wrasse and its unique feeding strategyof picking parasites off the potato cod and morayeel.This illustrates survival of the fittest!

KEY WORDS

Habitat-A place where an organism lives.Partnership-Activities or instances where one

organism joins with another,or others, to dosomething.

Parrotfish

Porcupinefish

Butterflyfish

ACTIVITY3


7/11

Objective: Students will understand that there aremany actions,both positive and negative,that canaffect the health of a coral reef.

In the Film: Throughout the film students witnessmany of the positive and negative impacts humanscan have on the reef. Spearfishing of protected

potato cod,building ofresorts along a coast,siltation of the reef fromlogging activities, andeven fish collection forthe aquarium trade are

illustrated as some ofthe negative impacts.Positive impacts includeprotection of the reef by

creation of a marine sanctuary, education programs,and research projects.

Materials: One Jenga or Uno Stacko game

per 8 students One copy of the game cards,cut out,

for every 4 students

Teacher Prep Notes: This game will utilize therules of Jenga or Uno Stacko. Each team needs acomplete set of the Protecting the Reef GameCards Copy Page, cut into strips (cards).

Background: The coral reef ecosystem is extremelyinterconnected; even a small action can impact theentire reef.In this activity, students will play a gameto illustrate this point.Each activity indicated on thegame cards can have either a positive or negativeeffect on the health of the reef system.Each actionbuilds on the othersthe positive actions makethe reef more stable,while the negative actionscan cause the reef to collapse.

To Do: Divide the students into teams of fourand provide each team with a set of Protecting theReefCards and a Jenga or Uno Stacko game.Askstudents to follow the instructions provided withthe game to stack the blocks but instead of usingall of the blocks, have each team stack 24 blocksthree blocks per level and stacked eight levelshigh.

One student at a time will draw a strip (card)fromthe pile.When a studentreceives a negativecard that asks them to remove blocks,theymust remove the indicated number of blocks

from any complete row and place them on thetop,completing a row or beginning a new row.This will make the game stack less stable.

When a student receives a positive card, thestudents can remove the indicated number ofblocks from the top row and keep them to theside.The fewer rows, the more stable the gamestack.The game continues until the game stackfalls down.

At the end of the game,have students reflect onthe positive and negative things that occurredduring the game and during the film.What aresome actions that they could take part in tosave coral reefs?

Taking It Further: Encourage students to becomeinvolved bywriting letters to elected officials.Letterscan include information about what was learnedthroughthe classdebates andcan askelected officialsto support researchand conservation efforts for thecoral reefs.

These are some addresses to consider sendingyour letter to:

President of the United StatesThe White House1600 Pennsylvania Ave. NW

Washington,DC 20500

Vice-President of the United StatesUnited States Senate

Washington,DC 20510

Your SenatorsNameUnited States Senate

Washington,DC 20510

Your Representatives NameU.S. House of Representatives

Washington,DC 20515

EDUCATORS GUIDE

10

Protecting the Reef isMore Than Just a Game!

KEY WORDS

Human Impact-The effect of humanpresence on an area or environment.Conservation-The official care andprotection of natural resources.Scientific research-Careful, systematicstudy and investigation into an area ofscience.

Yourreef becomesa marinepreserve,increasing the health and stability

of the reef.

Take 4 blocks off the top.

An IMAX film on coral reefsdebuts, increasing stewardship of

coral reefs on a global scale.

Take 1 block off the top.

A new treatment fordisease is discovered on

prompting protection

Take 2 blocks off

Education group provides snorkelsandmasksto Fijianchildren,allowing

them to appreciate the reef habitat.


A new species of fish isdiscovered on a reef.


Classroom students in tabout coral reefs from t

Take 1 block off t

An environmentally friendly resort isbuilt on a tropical coastline, whichdecreases the environmental impact.


Your local fish store stopsbuying fish from reefs whose

numbers are depleted.Take 1 block off the top.

Your local aquarium begtropical fish, decreasin

pressures on theTake 1 block off t

A hurricane occurs near your reef,destroying coral. Fortunately, the

reef begins to quickly recover.Do not remove any blocks.

A reef monitoring program isbegun, allowing researchers to

regularly monitor the reef health.Take 1 block off the top.

Reefs photographed teare photographed aga

no evidence of reefTake 2 blocks off

Global warming has increased thewater temperature around the reef,

killing coral polyps.Remove 3 blocks.

Collectors of aquarium fishuse dynamite on the reef.

Remove 1 block.

Harvesting for food frohas increased th

due to poor offshor

Remove 1 blo

A new resort with a golf coursehas been built along the

shores of the reef.Remove 1 block.

Deforestation of a local rainforestoccurred to build a new resort.

Remove 2 blocks.

Rain has washed silt athe ocean, covering

Remove 2 blo

Trash has covered the reef, causingdeath to corals and other animals.

Remove 2 blocks.

Fertilizers used on land wash into

the ocean causing large blooms ofmarine algae, blocking sunlightfrom the reef. Remove 1 block.

Pesticides from loc

have reached thcausing various anim

Remove 1 blo

A student in the U.S. buys a newtropical fish caught using cyanide.

Remove 1 block.

Tourists accidentally step on thecorals while diving and snorkeling,

causing them to die.Remove 1 block.

A boat has dropped on the coral r

causing the coralRemove 1 blo

THE PR OT EC TING THE RE EF GA ME CA RD S CO PY PAG E

ACTIVITY4


8/11

EDUCATORS GUIDE

12

Objective: Students will build an underwaterhabitat to observe the effects that sediment andother environmental changes have on plant lifegrowing in the habitat.

In The Film: On the screen we see scientistsresearching and documenting where corals arecurrently thriving and growing on coral reefs aroundthe world.This research will be used as baselineinformation for future research in the areas.Getting

a baseline for research isimportant because verysmallchangesinthe living

conditions can have hugeimpactson coral reefs.The reefs of Fiji illustratetheeffects of enviromentalchangeswhere a river wasbrownand murkybecauseit was carrying silt down-stream from deforestation

upstream.The film demonstrates that deforestationof the rainforest can have a very serious impactmany miles away in the ocean.The silt washinginto the ocean has wiped out entire reefs, smoth-ering the coral and blocking out essential sunlight.

Materials: rulers straws scissors wooden spoons measuring cup water and sink access student journals and pencils aquarium gravel from pet store power drill with small drill bit 2 small plastic cups per aquarium flour or fine dirt to represent silt and sediment alfalfa seeds and soil (enough to fill Dixie cups) 2 glass jars with lids

(jam or jelly jars work well) two 2-liter soda bottles with tops cut off

with a utility knife (these become aquariums) 2 extra jar lids (these can be larger than jelly

jars and will act as ballast) 1 aquarium air pump with air tubing

and a Tfitting from pet store 4-3 inch long (8-10 cm) bolts from hardware

store (use bolts that are as thin as possible) 6 nuts that fit on bolts from hardware store

Teacher Prep Notes: This activity is designed asa demonstration and will take several class periodsto observe significant results.If the activity is to bedone by groups of students,then arrangements formore materials will need to be made. If studentsare using the utility knife or the power drill,pleasemake sure that they are adequately supervised.The completed units will need to be placed on asunny windowsill for observation for one week. Inthis activity, students will see how changing one

variable, such as the clarity of the water,can createlong term negative effects on the health of growingplants and animals.

Background:The ocean consists of many diversehabitats. Each habitat is unique and supports aspecific group of organisms.A few of the diversehabitats found within the ocean are: coral reefs,kelp forests,rocky intertidal zone,sandy intertidalzone,eel grass,deep sea vent,and the abyss.Theliving organisms that exist within any one of thesehabitats have survived by adapting to the conditions

within their environment.

All organisms, no matter the habitat, needspecific conditions for survival.Reef-building coralanimals are no different. Corals thrive in theirparticular habitat by utilizing warm,clear water thatis in motion; absorbing plenty of sunlight; andfinding an ample supply of food. Corals obtain foodeither by stinging prey with their tentacles or byutilizing the symbiotic helper algaethat are withintheir tissues.These helper algae, zooxanthellae,are similar to land plants and photosynthesizeusing a variety of pigments such as chlorophyll.

Small changes in conditions, such as watertemperature and sedimentation,can have a hugeimpact on the corals. In fact sedimentation fromdeforestation has become a serious threat to coralreefs all over the world. Many countries are clear-cutting their rainforests, leaving little to retain thesoil.Then, when the rains come, the water strips theland of soil and silt, eventually carrying the sedi-ment to rivers and to the sea.This sediment blan-kets the coral, clogging and choking the polypsmaking it difficult for them to feed. Sedimentationalso shades the polyps from the sun, inhibitinghelper algaefrom producing food through photo-synthesis.When this occurs the tiny algae will

vacate the coral, leaving it a bleached white color.If the algae are forced to leave, the coral will notbe able to rely on the nutrition produced by the

algae.

To Do:Arrange all materials needed for activity ona large work space.Make sure the 2-liter bottlesare clean and dry and the tops are removed.

First fill the plastic cups half way with moistsoil and plant several alfalfa seeds in the soil.Theseplants,when they sprout,will representthe underwater plant habitat.

Using the power drill,carefully drill three holes

in both of the lids of the jelly jars,one in thecenter and two in outer sections of each lid.SeeDiagram.Drill a hole in the center of each largelid.These lids will be bases for the underwaterplant habitats and will need to have ballast

weights to ensure they do not float to the surfaceof the water that will eventually be added to the2-literbottle aquariums.To create the ballast putone bolt through the center holes in each lid(one small and one large).Secure nuts onto boltto make sure the lids are secure.See Diagram.Push the aquarium filter air tube through oneof the other holes in each lid and put a strawin the remaining hole in each lid.See Diagram.

Now place about 3 cups (709.75 ml) of gravelin the bottom of the 2-liter bottle aquariums.

To create the underwater habitat, set the plasticcup with the seeds planted, CAREFULLY ontothe inside of the lid. CAREFULLY screw the jaronto the lid, making sure the straw and the airhose from the pump remain in the holes.Placethis unit into the 2-liter bottle,again makingsure that the straw and the air tube are in place.NOTE: You may need to trim the straw in orderfor it to fit in the bottle. Put the habitat jar intothe bottleand CAREFULLY to get as much of thegravel from the bottle-bottom onto the largelid.This will ensure that the habitat will notfloat to the surface of the bottle once the airpump is turned on.

Fill one 2-liter bottle with water and turn onthe air pump.You should see air coming out ofthe straw at the bottom of the aquarium and

the jar should not be full of water. Follow thesame steps to complete the control aquarium.Use the Tfitting at the air pump to make sureeach aquarium receives adequate air.Mark oneaquarium CONTROL.

Add one cup of water, with some flour or finedirt mixed into it. Mix the water and flour/dirtso the water in the aquarium is opaque. This

will simulate silt and sediment covering thereef.You may need to mix the silt and sedi-ment each day to keep the water opaque.

Place both aquariums on a sunny windowsill.Askstudents to make observations in their journalseach day for a week.Ask them to observe bothaquariums and to make predictions about theoutcome of the activity.

After one week, or until sprouts are growing inthe plastic cups, drain both aquariums carefully.Do not get water on the sprouts.Remove thesprouts from the cup. Measure and record theplants found in each aquarium in student

journals. Ask students to compare the plantgrowth between the silt plants and the clear

water plants. Discuss how the silt has affectedplant growth. Discuss the predictions studentsmade at the start of the activity.Ask studentsto reflect on the relationships between thisactivity and that of a reef habitat.Ask studentsto discuss ways that we can prevent silt andsediment from covering and killing the reefs.

This project was adapted from a project by Kevin Hardy at

Scripps Institution of Oceanography.

The Silt andSediment of It All

KEY WORDS

Sediment-Particles of both inorganic or

organic substances that are depositedon the ocean floor.Deforestation-The process of clearingmany trees from a large area.Chlorophyll-The green pigment inplant cells that aid in the process ofphotosynthesis.

ACTIVITY5


9/11

Objective: Students will build an edible coral reefto reinforce their understanding of the uniquestructure and function of coral animals.

In The Film: Many ofthe colorful corals we seemay look like flowers,plants, or even rocks. In

fact, corals are animalsthat can be observed indiverse colors, shapes,and sizes.In one of thefilm shots, we fly over acoral reef as the narratordiscusses how the living

coral reef is just a fragilelayer of animal lifegrowing one skeleton ata time,slowly enlargingthe reef.

Materials:Water Pyrex measuring cup

Paper plates Toothpicks (1 per student) Candy sprinkles Napkins for clean up Large marshmallows (1 per student) Thin licorice whips (several per student) Heatsource (microwaveto meltthe candycoating) Candymelts or bakingchocolatebrokeninto small

pieces: 12 ounce(14.79ml),meltedfor eachstudent

Teacher Prep Notes: This activity can be done asa demonstration if students cannot eat the finishedproduct.Ifstudents areallowedto eattheircreations,be sure they wash their hands before beginning theproject and that clean utensils are used during theactivity.Also remind the students that no one isallowedto handleanyoneelsescandy sincethey maybe eating it. Candy melts are sold at cooking andcraftstores thatsell candy-makingequipment.Candymelts are ideal for this activity because they meltquickly and uniformly.Other types of chocolate canbe used for this activity,but make sure the chocolateused melts uniformly.Use the Pyrex measuring cupto melt the chocolate.It will be helpful to stir thechocolate as it melts.Use caution when assistingstudents as they roll their marshmallows in the

warm chocolate.

Background:Are corals animals, vegetables, orminerals? Some corals are hard and resemble rocks,others are soft.However, both hard and soft coralsphotosynthesize,which ledearly scientiststo classifycorals as plants.Even today, many students are

surprised to find that corals belong to the PhylumCnidaria, a unique group of invertebrate animals.This phylum of stinging animals can be furtherdivided into three classes: Hydrozoa,the hydroids;Scyphozoa,the jellies; and Anthozoa,the coralsand sea anemones.

While Cnidarians are very diverse,they sharesomecommondefiningcharacteristics.All Cnidarianshave the ability to sting (Cnidaria is Greek fornettle).Cnidarianshave a ringof specialized tentaclessurrounding a central opening (both mouth andanus) for stinging and capturing prey,as well asfor fending off predators. The Cnidarian body formis simple and can exist in either a polyp or medusashape.The polyp body shape, like a sea anemone,is a cylindrical hollow tube.The medusa body shape,as seen in jellies, are free-floating,umbrella-likeforms with the oral side and tentacles danglingdown.Regardless of the body shape, Cnidarians areradially symmetrical.This means that all of theirparts are arranged around a central axis similar tothe spokes of a wheel.

Themajority of reef-building corals are coloniesof individual polyps that exist together and share acommon skeleton.The polyps of these hard coralsextract calcium and carbonate from the ocean waterdepositing it as a hard calcium carbonate skeleton.

All hard coral polyps produce a stony cup (calyx)

that can be used for support and protection. Polypswithin a colony fuse their stony cups together toform a massive skeleton.When one coral polypdies, the skeleton remains,allowing new corals togrow on top of the old.

To Do:Arrange students in teams of two or three.Give each team a paper plate.Ask students to writetheir names on the outer top edge of the plate.This plate will represent the groups hard substrate,the place where coral grows.Give each student

Can You Eat a Reef? another paper plate as a working surface as theycreate the edible coral.Students need to wash theirhands before working with the following items,andeating of items is allowed onlyafterthe activity iscompleted!

Give each studentone marshmallowand a toothpick.Themarshmallowrepresentsthe body of the coralpolyp and the toothpick

will be used to makeopenings for the tentaclesthat surround the centralopeningat thetop. Ask studentsto make six holes in the top of the marshmallow,indicating where the tentacles will go later inthe activity.

Now pour 12 ounce of melted chocolate ontoeach students plate.Have students carefullyroll their marshmallows in the candy coating,

covering the outside of the polyp body.Studentsneed to be careful not to fill the holes wherethe tentacles will be attached.The chocolatecoating representsthe hard calciumcarbonate thatcreates theskeletonof thecoralreef.

Next have students dampen the sides of theirmarshmallow with water and dust candy

sprinkles on the sidesof the marshmallow.

The sprinkles repre-sent the living

zooxanthellae(helper algae)in the coralstissues.

Give each student six licorice whips and askthem to carefully insert them into the pre-poked holes in the top of the marshmallow,using the toothpick.The licorice whipsneed to be inserted

firmly so they do notfall out.The licoricewhips represent thetentacles of the coralbelonging to thePhylum Cnidaria.

Students then need to place their marshmallowson the teams paper plate,close enough thatthey could fuse together.This represents whathappens as the calcium carbonate skeleton is

formed. Ask the students to discuss their coralreef with their teammates.What do each of theparts of the coral do to protect it? How can theother corals located around it help them all tosurvive?

Finally, ask the students to pretend they arepredators (such as a parrotfish) on a coral reefand ask them to eat the corals they created!

KEY WORDS

Coral-The hard skeleton secreted bycertain marine polyps.Polyp-A cylindrical,mostly sessile(attached to substrate), body form exhibitedby corals and many other Cnidarians.

Substrate-The structure upon which anorganism lives.(example: rocks).Reef-A ridge of rock, coral, or sand at ornear the surface of the water.

Invertebrate-Any member of the animalkingdom that does not have a backboneor spinal column.

EDUCATORS

15EDUCATORS GUIDE

14

ACTIVITY6


10/11

Objective: Students will construct and use aquadrat (a simple piece of scientific gear) to gatherdata about their environment.

InThe Film: Inthe filmwesee MichelleHall as shetrains a few volunteers to measure and observe thecorals in an underwater area by using a quadrat

(a rigid frame that outlinesa study area).The teamplans to photograph andmeasure the corals in thedesignated areas over thenext fewyearstodetermine

the health of the reefcompared to data collectedtoday.

Materials:To build one quadrat paper 2 cup container pencils rulers/tape measure stapler 20 pennies clip boards 20 pieces of bow tie pasta 20 peanuts with the shell on 4 strips of foam board or mat board cut to

2 inches wide x 2 feet long (5 cm x 60 cm)Access to outdoor area, preferably one with grass

Teacher Prep Notes: This activity is designed totakeone class period to complete. Use the directionsaboveto make thequadratfor thisactivity.If you willbe doing more with the quadrat, it is recommended

thatyoumakea morepermanentdevice.

To makea multi-useQuadrat:Cut 4 pieces of PVC 34 inch diame-ter piping cut to 2 foot lengths (60cm) and attach them to 4 PVCright angle attachments of34inch diameter to create a largesquare.

Background: Research goals for some scientistsare to observe and study certain plant or animalcommunities in a given area to monitor their changeover time or over distance from a given point (suchas a pollution source).Research ofthis naturerequiresthat data collection be done in an objective fashion.Scientists need to record all characteristicsinvolved with the study zone, including a list ofspecies present (alive or dead as with the corals inthe movie); species size; and species abundance(numbers of animals or plants).Since the researcharea may be vast, and the numbers of characteristicscan be too many to record for the entire area,scientists have developed a device to help themconductresearch.Scientists usea samplingtechnique

with quadrats,which allow them to direct theirobservations to smaller,confined areas within thesearch community.The information scientists getfrom the areas marked with quadrats can givethem an idea of the overall populations and otherinformation relating to the entire community.Scientists often take several quadrat site readings

from several different regions within the designatedcommunity.Quadrats generally are big enough to include a

representative sample of the study objective.Thenumber of quadrats depends on how much detail

you want to obtain. Usually 10% or less of the totalarea is ultimately included by all the quadrats.Once you have chosen a quadrat size and shape,it should remain constant throughout the study.

To Do: Explain to students that the research theywill do with the quadrats will be to determine ifpennies,pasta and peanuts will all land in the samearea when thrown, simultaneously,underhanded.Put the quadrat out onto the play yard, as flat aspossible. Place the pennies,peanuts and pasta intothe small container. Select one student to throw thepennies, peanuts and pasta from the containeronto the play yard in the direction of the quadrat.The idea is not to toss things all over but to see howmanyof the tossed items land in the measuringarea of the quadrat.Once the items have beentossed, ask students to record the following:

Distance of the quadrat from the person tossingthe items.

Different types of items found within theperimeter of the quadrat.

Number of each different item.Next, move the quadrat to another area within

the Toss Zone. Move the quadrat parallel to eitherside of the first placement.Conduct the sameresearch as before.Record the results. Move thequadrat again and again until you have counted allof the tossed items. Can students determine whysome items landed where they did based on theirresearch?

Get Your Quadratsin Gear!

KEY WORDS

Quadrat-A frame of any shape used tosample a section of a plant or animalcommunity.

Community-A group of animals and/or

plants living together and bound byvarious factors.

ResourcesLiving Mirrors: A Coral Reef Adventure ,

Jack Stephens, Umbrage Editions,2002

Animals and Their Environments: Coral Reefs,Wendy Weir, Wendys Bookworks,1998.

Coastal Ecology Bodeaga Head,

Michael Barcour,Robert Craig, Frank Drysdale,Michael Ghislin,University of California Press,Berkely, 1973.

Hawaiian Coral Reef Ecology,David Gulko, Mutual Publishing Company, 1998.

Introductory Oceanography,5th edition,Harold Thurman V., Merrill Publishing Company,A Bell & Howell Information Company, 1988.

Invertebrate Zoology,5th Edition,Saunders College Publishing, 1987.

Marine Biology,John Reseck, Reston Publishing Company, Reston, 1980.

Ranger Ricks NatureScope: Diving Into Oceans,National Wildlife Federation,McGraw- Hill, 1997.

Sea Searchers Handbook,Monterey Bay Aquarium,Monterey Bay Aquarium

Foundation, 1996.

Web Siteswww.coralfilm.com

www.reefbase.org

www.reef.edu.au/

www.coralreef.org/

www.coralreef.noaa.gov

www.coralreefalliance.org/

www.coris.noaa.gov

www.gcrmn.org

www.reefcheck.org/

www.ourworld.compuserve.com/homepages/mccarty_and_peters/coral/c-intro.htm

AcknowledgmentsWe wish to recognize the following individuals whocontributed to this educators guide:

Reuben H. Fleet Science Center,San Diego,CA.

Lynne Kennedy,Deputy Executive Director,Education and Exhibits

Alyson K. Evans, Director of Education Programs

Scripps Institution of OceanographyUniversity of California San DiegoBirch Aquarium at Scripps Education Advisors

Arlene de Strulle, Director of Education

Kevin Hardy,Program Director,Scripps Centennial Committee

Shelley Glenn,Activities Coordinator

Heidi Hahn,Interpretive Programs Coordinator

Sarah Cloherty, Outreach Coordinator

Danielle Beaty Adler, Sarah Wilson,Anita Balcar, Scott Mau, Science Educators

Science AdvisorsNancy Knowlton,

Professor, Scripps Institution of Oceanography,Marine Biology Research Division; Director,Center for Marine Biodiversity and Conservation

David Kline, Scripps Institution of Oceanography,Marine Biology Research Division

Project ManagementAlice Casbara,

MacGillivray Freeman Films,Laguna Beach, CA.

DesignJeff Girard, Victoria Street Graphic Design

IllustrationPhil Roberts

Will Work For Food + Dental Hygienist Needed

Grocery Delivery Offered + House for Rent

Fiji or Bust + Rental Property Available

The End is Near! + Got Algae?

Bodyguard Available + Roommate Wanted

Activity 1 Answer Key

SeaAnenome

HermCrab

ClownFish

Wrasse

SeaAnenome

AlpheiShrimp

Potato

Cod

Brain

Coral

Goby

Zooxanthe

ACTIVITY7


11/11

DISTRIBUTED BYMACGILLIVRAYFREEMAN FILMS DISTRIBUTION COMPANY

P.O. BOX205, LAGUNABEACH, CALIFORNIAU.S.A. 92652 TELEPHONE (949) 494-1055 FAX(949) 494-2079

WWW.MACFREEFILMS .C OM

PRODUCED BYMACGILLIVRAY FREEMAN FILMS

MAJOR FUNDING PROVIDED BY THE NATIONAL SCIENCE FOUNDATION

IN ASSOCIATION WITH MUSEUM OF SCIENCE, BOSTON,

NATIONAL WILDLIFE FEDERATION,

LOWELL, BLAKE & ASSOCIATES AND MUSEUMFILMNETWORK.

coral reef a educator guide

Documents