Orange County Tidepool Docent/Educator Training Manual
Transcription
Orange County Tidepool Docent/Educator Training Manual
Orange County Tidepool Docent/Educator Training Manual 2008 And it is a strange thing that most of the feeling we call religious, most of the mystical out crying which is one of the most prized and used and desired reactions of our species, is really the understanding and the attempt to say that man is related to the whole thing, related inextricably to all reality, known and unknowable…It is advisable to look from the tidepool to the stars and then back to the tidepool again. John Steinbeck The Log of the Sea of Cortez (1951) Edited by: Jeff Rosaler ii TABLE OF CONTENTS Introduction ! About Tidepool Interpretive Programs and this Training Manual.………………..………1 ! Background OCMPAC…………...……………………………………………………….1 ! Tidepool Docent/Educator Manager Contact List…………….…………..………………2 ! Orange County Tidepool Interpretive Programs……..…………………………...……….2 Rocky Intertidal Ecosystems ! Tides……………………………………………………………………………………….4 ! Geology……………………………………………………………………………………5 ! Wave Exposure…………………………………………………………………………....6 ! Intertidal Zones……………………………………………………………………………7 ! Desiccation, Temperature and Salinity……………………………………………………8 ! Microhabitats…………………………………………………………………..……….....9 ! Ecological Principals…………………………………………………………………….10 ! Common Organisms……………………………………………………………………..10 Resource Interpretation ! Interpretation Principals 101………………………………...…………………………...16 ! Interpreting Tips………………………………………………………………………….17 ! Conservation Efforts……………………………………………………………………..18 ! “Good Tidepooler Rules”……………………………………………..............................18 ! Intercepting Tips………………………………………………………………………....19 ! Enforcement……………………………………………………………………………...21 ! Interpretation Principals 201……………………………………………………………..22 ! Useful Spanish Phrases and Names......………………………………………………….25 Marine Protected Areas (MPAs) ! Definition………………………………………………………………………………...26 ! Benefits of Marine Protected Areas……………………………………………………...26 ! Local Marine Protected Areas…………………………………………………………...27 Frequently Asked Questions ! FAQs…………………………………………………………………………………..…29 Additional Resources and References Cited ! Books………………………………………………………………………….…………31 ! Websites……………………………………………………………………….…………31 iii INTRODUCTION About Tidepool Interpretive Programs and this Training Manual The Orange County Marine Protected Areas Committee is actively engaged in the conservation of Orange County’s tidepools. Conservation requires the cooperation of various disciplines including enforcement, scientific research, and resource management, but most importantly conservation requires education. The tidepools in Orange County have been used as a living classroom for over a 100 years and this valuable coastal resource was once thought impermeable to human influence. In the past several decades we have seen a degradation of this ecosystem caused primarily by human influence. As managers of these resources, we recognize that most of the harm is done through ignorance. It is a goal of the Committee to inform the public of the importance of this ecosystem, emphasizing complex ecological principals while teaching low impact exploration techniques and the “good tidepooling rules.” Throughout the County, volunteer docents and paid educators have been used by non-profits, city and state agencies to help educate the general public about Orange County tidepools. These programs, collectively referred to as tidepool interpretive programs, have similar goals; to provide onsite education to the general public; inform visitors about the organisms, ecology and necessary protection of the valuable intertidal resources; and to increase awareness of the needed conservation of this ecosystem. This training manual will give you the tools and knowledge required to meet these goals, while sharing your passion for the tidepools. The manual will provide you the docent/educator with background information on the intertidal habitat and common intertidal organisms. It will also provide some insight on approaching the public in a friendly professional manner, while providing effective tidepool resource interpretation. Conservation efforts through the “good tidepooler rules” will be covered in detail, as well as the State and City ordinances that make these areas MPAs. A brief description of each program in the County will be provided and the contact information for the interpretive program representative for that area. The manual ends with a section of frequently asked questions and some references that can be used to gain more valuable information to help you become the expert in the field. Background of the Orange County Marine Protected Area Committee The Orange County Marine Protected Area Committee (OCMPAC) is a collaboration of city and county officials, institutional representatives, academic faculty and nonprofit organizational members. Our goal is to provide comprehensive management of the Orange County Marine Protected Areas through communication and cooperation of the various agencies, and setting the model for localized implementation of marine conservation efforts. Current members include; City of Newport Beach, City of Laguna Beach, City of Dana Point, California State Parks, Orange County Parks, California State University Fullerton, MBC Applied Sciences, Laguna Ocean Foundation and the Ocean Institute. To find out more visit: www.ocmarineprotection.org. 1 Tidepool Docent/Educator Managers Contact Information Organization City of Newport Beach Crystal Cove State Park City of Laguna Beach Ocean Institute Laguna Ocean Foundation City of Dana Point Title Marine Life Refuge Supervisor State Parks Interpreter Marine Protection Officer Volunteer Manager Tidewater Docent Supervisor Natural Resources Protection Officer Name Contact Michelle Clemente mclemente@city.newport-beach.ca.us Winter Bonnin WBONNIN@parks.ca.gov Calla Allison callison@lagunabeachcity.net Karen Lloreda klloreda@ocean-institute.org Art Smart smarttraks@hotmail.com. Jeff Rosaler jrosaler@danapoint.org Tidepool Interpretive Programs Each interpretive program is slightly different and a separate handout for program logistics shall accompany this manual, made available from the program contact. After the initial training, an additional on-site training will be scheduled for all new volunteers/staff at the site you wish to docent at. We welcome volunteers to become active in multiple programs. We feel this will enhance both the volunteer experience, as well as enhance the programs at all sites by sharing ideas and interpretation techniques. If you do volunteer/docent in more than one area, please be sure to attend a follow up training at all the sites you choose to volunteer at. Information on program logistics will include; where to go, where to park, what equipment you need, where to pick up equipment and backpacks, what to wear, personal safety in the tidepools, how to set up/break down the program, and who to contact in case of enforcement or emergency situations. The Different Programs Newport Beach – Little Corona (Robert E. Badham State Marine Conservation Area) The City of Newport Beach runs a professional Tidepool Education program at the Robert E. Badham Conservation Area. These Educators are paid City staff that do both resource interpretation for the general public and teach school group field trips. The City is currently expanding this program to include volunteers. Crystal Cove State Park – (Irvine Coast State Marine Conservation Area) The Crystal Cove Tidepool Monitor and Docent program allows volunteers to walk and explore the 3.5 miles of coastline of Crystal Cove State Park, while contacting and sharing information concerning the local tidepool organisms and ecology. 2 Laguna Beach – Bird Rock (Heisler Park State Marine Reserve) The City of Laguna Beach currently has Tidepool Educators to assist the Marine Life Protection Officer with school field trip programs. These tours are approximately 3 hours long and Educators lead small groups of children on an interpretive tour of the tidepools primarily at Bird Rock. Laguna Ocean Foundation – Treasure Island, Bird Rock (Heisler Park State Marine Reserve and Laguna Beach State Marine Conservation Area) The Laguna Ocean Foundation is a non-profit organization in the City of Laguna Beach that offers two tidepool interpretive programs. The Tidewater Docent program is a volunteer interpretive program that contacts the general public at Heisler Park and various other coves throughout Laguna Beach. The Tidepool Educator program is a professional program at Treasure Island where Educators or onsite up to 2100 hours a year. Dana Point – Headlands (Dana Point State Marine Conservation Area) The City of Dana Point and the Ocean Institute have recently joined forces to offer the Dana Point Tidepool Interpretive Program. The program consists of Ocean Institute volunteers participating in a program facilitated in coordination with the City of Dana Point. The program will initially focus on the rocky intertidal area north of the Institute in the Dana Point Conservation Area. Doheny State Beach – (Doheny Beach State Marine Conservation Area) The Doheny Interpretive Association has begun to train volunteers to help the public understand the resources of the rocky intertidal areas at Doheny that become highly accessible during low tides. 3 ROCKY INTERTIDAL ECOSYSTEMS Tides Although a detailed description of the complexity and mechanics of tides can not be covered in this manual, it is essential to understand the basic principals of tidal changes as they directly influence the distribution of intertidal marine organisms. The key forces that act to create tidal variations are the gravitational and centrifugal forces at work between the earth, moon and sun (Ricketts et al 1985). Gravitation is the attraction between two masses and is influenced by both the size and the distance between the two masses. Our moon has the greatest effect on tidal changes due to its close proximity to earth. The moon’s gravitational pull causes the water on the earth’s surface directly opposite the moon to “bulge” away from the earth (Niesen 1982). Centrifugal forces, caused by the spinning motion of the two masses, either keep masses separate or push them apart. On earth, the centrifugal force from the rotation is equal everywhere in magnitude and the direction of the force is away from the moon. Centrifugal forces therefore cause the water on the earth’s surface farthest away from the moon to also “bulge.” When the earth revolves around its axis, every spot on the planet will experience both types of “bulges” during a full lunar day (twenty four hours, 50 minutes) rotation. The 50 minute addition to a full rotation is due to the moon’s orbit around the earth. If the moon was the only mass influencing tides, each spot on the planet would experience two high tides of equal magnitude and two low tides of equal magnitude every lunar day (24 hours and 50 minutes). However the sun has an important modifying effect on our system (Niesen 1982). The moon orbits the earth once every 27.5 days; during this orbit the moon is in a different position in relation to the sun every day. When the sun, moon and earth are in a direct line with each other, and the moon is new or full, the combined forces cause our most extreme tides. These extreme tides create our lowest lows and our highest highs and are referred to as “spring tides” (which has nothing to do with the time of year, but is derived from an Anglo-Saxon word “to jump”). When the earth, sun and moon are at right angles to each other and the moon is in the first quarter or third quarter, the suns gravitational pull works to minimize the moon’s force and the result is tides of a minimum range referred to as “neap tides”. Images http://en.wikipedia.org/wiki/Tide 4 There is considerable variation in tidal height and frequency in different geographic locations. The location, shape of the ocean basin, and a host of other local factors create modifications to tidal changes around the globe. In southern California we experience a mixed semi-diurnal tide which consists of two unequal high tides every day and two unequal low tides every day. The time of these highs and lows change by about 53 minutes every day. Geology (Substrate) Tidepools occur where the sea meets the land and rocky substrate is available for marine species to create communities. The type of communities and organisms found can depend on the type and quality of the rocky substrate. It is important to have a general understanding of the rocks that provide suitable habitat for organisms to exist in tidal influenced areas. In Orange County three geological formations exist at the interface of land and sea that help compose the tidepools in our MPAs; San Onofre Breccia, Monterey and Capistrano. Formations The study of rock layers is done at a local level and then joined with information from surrounding areas to get a complete geological picture. The finest level of geologic rock division is called a formation and describes rock units exposed at local rock outcrops. A formation is a distinctive series of strata that originated through the same geological process. Formations provide a mapable rock unit that has definitive boundaries in its abundance and certain characteristics by which it may be identified from place to place. Formations names generally consist of two parts, for example San Onofre Breccia. San Onofre is the locale where the formation was first described or is most completely exposed and Breccia indicates the dominant rock type in the formation (Tarbuck and Lutgens 1996). San Onofre Breccia formation This formation is unique to Orange County with the exception of a few locations on the Channel Islands. The dominant rock type is breccia, which is described as a sedimentary rock composed of angular fragments that were lithified. The breccia consists of a conglomerate of sandstone and mudstone that contains clasts of harder metamorphic rocks such as, dacite, porphyry, quartzite, amphibolite and Shist (Boles and Landry 1997). When eroded from wave and weather exposure the softer sedimentary layers erode, leaving the harder metamorphic conglomerate to provide pools and substrate for intertidal organisms. This breccia formation can 5 also create huge boulder fields such as Dana Point when the cliffs erode and the metamorphic rocks pile up in the intertidal zone. Orange County intertidal areas composed of San Onofre Breccia formation Dana Point Laguna Beach Monterey formation The Monterey formation is seen throughout California and is characterized by the layering of thinly bedded siltstone and sandstone. Based on foraminifera identification the Monterey formation of Orange County was deposited in a shelf environment that deepened to outer shelf (Boles and Landry 1997). The layering provides ample microhabitats for intertidal colonization, and the erosion of softer portions of the formation can create tidal pools. Orange County intertidal areas composed of the Monterrey formation Crystal Cove Corona Del Mar Wave Exposure Besides tides, the physical factor that has the most dramatic effect on the distribution of intertidal plants and animals is the effect of wave force. The intertidal area is the chief and final focus of waves, bringing powerful surf crashing against the rocks and sand. Scientist and naturalist have long classified intertidal environments according to the wave exposure a site will experience (Hinton 1987). These environments include: 1) Protected Outer Coast – Semi-sheltered coast, protected by the shape of the coastline, offshore reefs or kelp bed. 2) Open Coast – Unprotected outer coast, often characterized by headlands (i.e. Dana Point) that receive high wave exposure. 3) Bays and Estuaries – Enclosed bays and sloughs with minor wave exposure (Ricketts et al 1985). 6 On open coasts animals and plants must withstand the impact of tons of water breaking over them. The organisms of the open coast are characterized by hard bodies and have strong attachment mechanisms. Many of the organisms that occur in sheltered outer coasts or bays are not equipped to take the battering and shearing force of heavy surf. As a result more sheltered areas are often rich in species abundance and distribution, in comparison with the neighboring open coast habitat (Ricketts et al 1985). Intertidal Zonation Patterns The rocky intertidal is the portion of a rocky coastline that is periodically covered or exposed by daily tidal changes. This interface is a complex environment where species are well adapted to the changing habitat conditions. Conditions are more terrestrial higher in the intertidal and correspondingly more marine in the lower intertidal area, depending on the amount of exposure the area receives. This range of environmental conditions influences the species that are able to adapt to changing habitat variables and these environmental conditions are in part responsible for the unique zones within the intertidal that are highly visible by the dominant species that occur in each area or “zone.” These dominant species create stripes that take the color and texture of the dominant or “characteristic” organism of that zone (Niesen 1982). The Splash Zone The splash zone is the area above the high tide water line and mainly depends on sea spray and mist for water coverage. The characteristic species of the splash zone are the little acorn barnacles (Cthamalus dalli), sea lettuce (Ulva sp.) and the periwinkle snail (Littorina sp.). All species are adapted to withstand long periods of exposure. The High Zone The high zone is the area of intertidal that is covered by most high tides yet is exposed to the air for most of the day. This zone is characterized by the larger acorn barnacle (Balanus glandula), but a large number of limpets and chitons also call this “zone” home. The red turfweed Endocladia muricata is also common in this zone. The Mid Zone The mid zone is subjected to multiple emergence and submergence events throughout the day as the tides ebb and flow. This zone is often split into several subzones including the rockweed zone and the mussel zone. At our local sites, two species of rockweed, Silvetia compressa and 7 Hesperophycus californicus, are commonly observed in the higher portions of the mid intertidal zone. These rockweeds are canopy forming seaweeds that provide shelter for a higher number of organisms. The mussel zone is dominated by the California Sea Mussel (Mytilus californianus), an ecosystem engineer that provides food, shelter, and living space for a diverse set of species. Mixed in the mussel zone are sea stars (Pisaster ochraceus) and the gooseneck barnacles (Pollicipes polymerus). The Low Zone The low tide zone is mixed with organisms that can be found in both the intertidal and subtidal habitats and is characterized by large red and brown fleshy algae. Several algae species are common, but the characteristic brown algae of the low zone are the feather boa (Egregia menziesii) and the sea palm (Eisenia arborea). The low intertidal zone provides more food, shelter and protection from desiccation than the other intertidal zone and is therefore inhabited by a greater number of species. Unlike the mid and high zone where physical factors play a major role in species abundances, competition and predation play the major role in the low zone. Desiccation, Temperature, Salinity and Zonation Intertidal zonation is caused by numerous factors including temperature stress, desiccation, salinity, wave exposure, predation, and competition. The pervasive theory in zonation is that the upper tidal limits of species are set by abiotic factors, such as desiccation, while the lower tidal limits are set by biological factors, such as predation. For example, the upper limit of mussels is set by its inability to deal with desiccation stress above the mid intertidal zone. The lower limit of these mussels is set by predation by the seastar as mussels would inhabit lower in the intertidal zone if seastars where absent. For an organism, the height on the shore determines the total amount of time it will spend submerged in water or exposed to air and also the maximum and minimum time the organism will be exposed without interruption. It therefore makes sense that the higher a marine organism is found on the shore, the more stressful the environment will be due to three related factors: desiccation, temperature and 8 salinity. Desiccation potential is the possibility of an organism drying out with exposure to arid conditions. Intertidal position on the shore generally sets the length of exposure to conditions of drying out which determine the desiccation stress. It is this stress that often establishes the upper limitation an organism can have in vertical intertidal range (Ricketts et al 1985). Temperature and salinity also have an influence on what organisms are found living within certain zones. When submerged, organisms experience relatively consistent environmental variables, but when exposed to air or the shallow waters of a tidepool they may be subjected to wide fluctuations in temperature and salinity (Ricketts et al 1985). Microhabitats A microhabitat is a topographic change in the rocky habitat that becomes more suitable for organisms that are not normally found in a particular tide zone due to changes in environmental conditions. Microhabitats exist throughout the intertidal habitat and the three most common are tidepools, boulders and channels/crevices. Tidepools Tidepools are microcosms of marine life formed by the depression of the rocky substrate that fills with water on an outgoing tide (Niesen 1982). These pools often provide habitat for organisms that on bare rock could only occur much lower in vertical distribution. Boulders Boulders create a wide range of conditions for inhabitants. The sides, tops and bottoms of a single boulder can have a wide range of different communities. Just as in terrestrial systems the sides of boulders are exposed to different weather conditions and therefore the same intertidal organism might be found higher on the shadier side of a boulder. In intertidal areas of high human use, boulders are sometimes referred to as “monk caps”, due to the bareness of the top of the rock from humans constantly stepping here. Channels and Crevices Channels and crevices provide protection from desiccation and provide organisms increased time for feeding that often reflects an increase in the vertical distribution of species. 9 Ecological Principals Along with the complexity of the physical environment the interaction of organisms in the rocky intertidal makes it a living classroom for ecology. Competition for space, adaptation and evolution, consumption, disturbance, species versus area, and reproduction strategies are easily studied in this complex marine environment. The ecological interactions are what make this area come alive for visitors, by focusing on ecology facts become interpretation. Common Intertidal Organisms (What Sea Life did you see in the Tidepools Today?) Hermit Crab – Pagarus sp. The two Pagarus species that are common to our tidepools are the hairy hermit crab (Pagarus hirsutiusculus) and the blue banded hermit crab (Pagarus samuelis). Both have a distribution range from Alaska to Baja California. The blue banded is the most common and as its name implies is identified by the bright blue bands on its appendages and red antennae. Juvenile Pagurus samuelis do not have the blue bands but still have red antennae. Both species have a carapace up to ¾” and often take shelter in many different types of snail shells. Hermit crabs are scavengers, foraging on both plants and animals. Acorn Barnacle – Balanus glandula These barnacles range from Alaska to southern California and dominate the high intertidal zone along with Chthamalus dalli. Balanus barnacles are distinguishable from Cthamalus barnacles, by both their larger size (to ¾” in diameter and 3/8” high) and the diamond shape of the operculum. Barnacles are sessile arthropods that attach themselves permanently to the substrate and filter feed with their adapted appendages called cirri. Rockweed – Silvetia compressa This brown alga is common in our mid intertidal zone and has a range from British Columbia to Baja California. It is normally 16” in length but can grow to 36” inches tall and is characterized by its dichotomous (fork) branching. In areas of high human activity this species can be less abundant and smaller in size due to trampling. At the end of the branch tips are the reproductive bodies that swell in size in mature individuals. This species provides excellent habitat for various gastropods and crab species. 10 Black Turban Snail – Chlorostoma funebralis (previously Tegula funebralis) Four turban snail species are common in our local tidepools, but the most abundant are the black turban snail (C. funebralis). These gastropods have a black-purple shell with four whorls and grow to 1 ¼” diameter. They have a range from British Columbia to Baja California. These turban snails eat only soft algae, and are believed to live up to 100 years. Sea Anemone – Anthopleura sp. Two Anthopleura species are common to local tidepools, the aggregating anemone (A. elegantissima) and the solitary anemone (A. sola). The two species are very similar; the aggregating anemone (A. elegantissima) will be found with other anemones within tentacle reach of one another and range from 6 – 10 cm. A. sola can reach up to 25 cm in diameter and will always be solo, often submerged in tidepools. Anemones have evolved numerous adaptations to survive life in the intertidal. These organisms provide an excellent model for children exploring adaptations for dealing with desiccation, consumption, predation, wave exposure and reproduction. Shore Crab – Pachygrapsus crassipes These common crabs to any southern California rocky environment have a range from Oregon to Baja and can grow to 1 ¾” wide at the carapace. The crabs can be found underwater in tidepools, hidden in rockweed beds, or deep in the back of a crevice. Their primary food is algae, but they have been known to feed on diatoms, hermit crabs, gastropods and have even been known to catch kelp flies with their claws. This indigenous crab of North America was introduced to Asia in the late 1800s. Sea Lettuce – Ulva sp. This green seaweed is tolerant of a wide range of environmental conditions and the numerous species found in southern California have a large range from the Bering Sea to Chile. Ulva can be found in all intertidal zones, but is most commonly found in the higher zones. Ulva californica is the most common on the open coast and is characterized as an open blade. Ulva intestinalis can also be found in the splash zone, especially near freshwater runoff. This species is characterized as a tube-like blade. Ulva species have been eaten by various cultures, either served with fish or in light soups. 11 California Mussel – Mytilus californianus The California Sea mussel is the characteristic organism of the mid intertidal zone and can often be seen in large beds covering much of a rocky platform. The range of this species is from Alaska to Baja and individuals of these bivalves have been known to grow to 10” in length. Mussel beds form a very important habitat for other critters and it has been reported that over 450 species have been found living within these mussel bed habitat created by the California mussel. Mussels have numerous natural predators, but often are disturbed and collected by humans for bait, aquaria or killed through incidental trampling. Limpets – Lottia sp. There are numerous limpet species (6-10) in our local intertidal and can be readily identified in almost all zones. Limpets are gastropods that forage on algae with their scraping tongues known as radulas. These grazers have a home territory, often with a scar or depression made in the rock that they return to after foraging. Our largest Lottia species the owl limpet (Lottia gigantea) can grow up to 110 cm shell length, but are often much smaller than this in local areas due to human disturbance. Kelp Snail – Norrisia norissi These gastropods are primarily found in southern California and Baja, and can grow up to 2 ½” in diameter. The kelp or Norris snail is easily identifiable being larger in size than most intertidal gastropods and has a bright orange foot. The snail is usually found on brown algae, especially the giant kelp (Macrocystis pyrifera) and the feather boa kelp (Egregia menziesii), where it feeds on these species moving down the algae during the day and returning to higher levels at night. Chitons – Nuttalina fluxa There are several species of chiton in southern California but the most abundant is the Southern Spiny Chiton (Nuttalina fluxa). Chitons are mollusks that can be identified by the eight interlocking shells that are held together by an oval of tissue referred to as the girdle. Unlike most chitons this species is not light sensitive and does not retreat under rocks or Rockweed during the day. Chitons feed on algae at night and often can be found in eroded pits (similar to Lottia home scars) during the day. Nuttalina fluxa is characterized by its elongated shape with small hairs along the girdle or edges. 12 Coralline Algae – Corallina sp. Two species of this genus are extremely common in Orange County intertidal areas, and have a long range found from Alaska to Chile. The articulated red algae often appears pink to purple in coloration and forms large turf type beds in both tidepools and bedrock benches. Although an algae, it derived its name due to the precipitation of calcium carbonate from the water column. When exposed to long periods of sunlight these species get bleached white exposing the calcium carbonate. Gooseneck Barnacle – Pollicipes polymerus The gooseneck barnacle is commonly found in the mid intertidal zone. These barnacles are large in size (up to 4” long) and have a distinct neck (stalk or peduncle) that leads to a cream colored plate. It is said they derived their common name by a misunderstanding of medieval monks who believed that geese actually hatched from these intertidal creatures. Purple Sea Urchin – Stronglyocentrotus purpuratus. Two species of Stonglyocentrotus are found in Orange County tidepools, the purple sea urchin (Stonglyocentrotus purpuratus) and the red sea urchin (Stonglyocentrotus fransiscanus). The purple urchin is more common in the intertidal and are about the size of a golf ball, where as the red urchin is mostly subtidal, has longer spines, is about softball size (to 6 ½”), and is usually a dark merlot color. Both species have a range form Alaska to Baja. These urchins feed primarily on brown algae and often concentrate their efforts on the holdfast of the kelp. There is a commercial dive industry for the red urchin and the gonads are commonly served in Japanese restaurants. Sand Castle Worm – Phragmatopoma californica Sand grains are cemented together by these worms to form a distinctive honey comb patterned colony, these colonies have been known to reach 6 feet in size. Individual organisms can grow to 2” in length and the range of this organism is from Central California to Ensenada. These sessile organisms are filter feeders that open their operculum to capture detritus and plankton with their distinctive black bristles. They possess a special organ that coats captured sand with cement used for building their tubes. 13 Sea Fingers or Dead Man’s Fingers– Codium fragile This distinctive green algae is common in the mid to low intertidal zone and can also be found in large tidepools. These algae can grow up to 16” and are identified by its dark green velvety cylindrical branches that arise from a central basal disc. Despite its large size, this species is actually a multinucleate “single celled” algae – its single celled because during cell division, the nuclei multiply but no new cell walls are created as occurs during most cell division. This species is very rich in vitamins and minerals and is often used in soups. A small red alga, staghorn fringe (Ceramium codicola) can only be found living on this green algae. Sea Hare – Aplysia californica This marine snail varies in reddish to brown coloration, can grow up to 16” in length and is found from the low intertidal to 60’ of water. Sea hares derive their name from the two antennae that is said to resemble rabbit’s ears. These snails forage on red algae, and use the pigments to create its defense mechanism. When Aplysia are disturbed they excrete a purple ink that may confuse, paralyze or offend its predator. Sea hares are hermaphrodites, having both male and female organs, but must locate a mate to reproduce. These critters have been used extensively in nerve research due to the large size of their ganglia (nerve styles). Giant Keyhole Limpet – Megathura crenulata The highly distinct limpet is large in size (5-10”), has a large soft body that ranges in color from beige to black and at the apex of the shell a central oval opening (much like a volcano) permits the organism to take care of its business. The giant keyhole limpet has a species range from Monterey Bay to Baja and can be found in the low intertidal zone. The shells of this limpet were once used as currency by native Americans of southern California. Opaleye Perch – Girella nigricans Opaleye Perch are one of two common fish species found in our local tidepools. They are characterized by two white spots on their backs. The opaleye are said to use the intertidal as a nursery, using the shallow area as a protective breeding ground until juveniles reach about 8” when they head to the subtidal. Juvenile opaleye can breathe air when a tidepool is completely exposed. Adult opaleye eat algae while juveniles are known to be carnivorous, feeding on small invertebrates in the tidepools. 14 Wavy Top Turban – Megastraea undosa The wavy top turban is one of the larger gastropods found in the Orange County intertidal zone and can range in size from 4 – 6” in shell diameter. The range of this organism is from Point Conception to Baja and they can be found in the low intertidal to 60’ of depth. Megastraea possess a heavy shell with a distinctive tear dropped shaped white operculum that is often found washed ashore after storms. Two Spot Octopus – Octopus bimaculoides The two spot is commonly found in the tidepools of Orange County. This mollusk has a mantle length of 8” with arms that extend to 3 times the size of the mantel. The range of this species is from Central California to Ensenada and can be found in the low intertidal to 65’ of water. This intelligent and voracious predator uses its drilling radula to make holes in various gastropods and bivalves, but also feeds on fish and arthropods. Chromatophores allow this organism to change color quickly to camouflage into their environment. Ochre Star – Pisaster ochraceus The ochre star is the characteristic organism of the rocky intertidal and can grow to be 14” in diameter. The range for this Pisaster species is Alaska to Baja and can be found from the mid intertidal to 300’ depth. Pisaster comes in three distinctive colors (purple, brown and orange) called phases and scientists have yet to determine the reason for coloration. Pisaster feeds on mussels, abalone, chiton, barnacles and gastropods, often using the powerful water vascular system to prey shells and snail off the substrate and into then extend their stomachs through their mouths to aid in digestion. extend their stomachs through their mouths to aid in digestion. Abalone – Haliotis sp. Several abalone species (H cracherodii and H. fulgens) used to be abundant in the rocky intertidal areas of Orange County. High human consumption mixed with a detrimental disease (Withering Foot Disease) has caused a dramatic decrease in the population of this gastropod. However, individuals and shells can still be found at several Orange County tidepool sites and numerous subtidal dive sites. These gastropods range from 4 – 12 inches in shell length and feed exclusively on algae. The shells of these species are abundant in native middens, providing evidence they were an important food source. 15 Bat Star – Asterina miniata The bat star is observed in nearly every color of the rainbow and can grow up to 6” in diameter. This Asterina sp. can tolerate a wide range of environmental conditions and is found from Alaska to Baja and from the mid intertidal to water 960’ deep. Members of this species have been kept in captivity for 16 years and are thought to live up to 30 years. When you turn this species over to look at the aboral side one can often find a commensal segmented worm living within the tube feet of the bat star. References for intertidal organisms from: Ricketts et al. 1985 and Sept 2002 TIDEPOOL RESOURCE INTERPRETION Interpretation Principals 101 The two basic building blocks of contacting the general public is what we say to visitors and how we say it. The tidepool interpretive program raises the awareness of the visitor by using the natural classroom and enthusiastic volunteers who can translate these experiences. The following are some short and sweet tips to help you begin interpreting. 1. Interpretation is about communication that connects and creates relationships. Interpreting draws people into caring. It connects them to facts, stories, history and information that have relevance to their lives and experiences. It is interactive and can be two way. 2. Information alone is not interpretation. Avoid spouting technical marine biology terminology, which creates barriers and fails to connect the visitor to the environment. Instead turn the technical information into relevant information that connects the visitor to the animal and the animal to its environment. For example: Information: Sea stars clean themselves with special spines called pedicellaria. Interpretation: Look here….sea stars are covered with different types of spines. These white dots on the star are spines that have been modified to form special claw-like structures that function to grab or pinch things off from living on them. These special claws on the sea stars function to clean the animal and are called pedicellaria. 3. Try to inspire and not to instruct. So ask provocative questions. For example: Have you ever wondered why sea stars are not covered with barnacles or algae? 16 4. Illuminate the whole and not just the parts. It is more important that a visitor recognize the relationship an animal has to its habitat and the habitat to the environment, rather than a litany of names and facts. 5. When you don’t know the answer, don’t make it up. Do not be afraid to say, “That is a great question and right now I don’t know the answer.” If you have time or near by resources look the answer up. If you have an educated guess, try prefacing an answer with, “I don’t know the precise answer to that question, but based upon what I do know, my thought is….” Interpreting Tips in the Intertidal 1. Greet visitors as they approach. Example: Good morning, I’m a Tidepool Docent with ___________, If you have any questions about the area or any of the critters you are seeing, please let me know. 2. Ask the children or parents if they are familiar with the animals and plants that live in the tidepools. If they are not off them the What do you see in the tidepools today brochure and point out some of the key features of the brochure. 3. Point out something interesting. Scan the area when you first get down to the rocks and find interesting items to point out to visitors. Seek out sea stars and hermit crabs for young children. 4. Try to engage parents and children in the intertidal and help them explore. Approach a family who is exploring by saying: “Good afternoon, are you having fun out here? Have you found anything really interesting?” 5. Children are usually the easiest to please since they love animals. Since animals are in abundance, ask them if they would like any help finding some sea stars, hermit crabs, or maybe even an octopus. 6. Encourage a group of children to use their brochures as a scavenger hunt guide. A group of small children can compete amongst each other, working from level 1 to level 6 competing to identify all the organisms on the brochure the fastest. 7. When talking to children, get down to their level. Children can be intimidated by strangers and adults. It is a good practice to contact the parent first, explain to them who you are and what you are doing and then when talking to the children meet them at their eye level. 8. Direct visitors to other docents. If several docents are onsite, you might encourage visitors to wander over to where the other docent is, to see what they might be looking at or talking about. 17 Reference for resource interpretation: Haystack Rock Awareness Program Volunteer Manual 2005 Conservation efforts of Orange County Tidepool Docents/Educators Our docent programs work to educate the public concerning state rules designed to help protect the intertidal and marine environments of Orange County. We hope that through increased public awareness fewer visitor-induced impacts and MPA violations will occur, with the overall effect of increased conservation of the local intertidal resources. One of the initial projects of the Orange County Marine Protected Area Committee was to interpret the state regulations for our local MPAs and design a set of easily understood “good tidepooler rules.” These rules are now posted at the entrance of every County MPA and all programs share consistent messaging. The “Good Tidepooler Rules” For the past nine years the Orange County Marine Protected Area Committee has been focused on the conservation of the rocky intertidal. One of the major accomplishments of the Committee was the establishment of the “Good Tidepooler Rules” and its adoption in the signage at all County MPAs. Recognizing that our tidepools are being “loved to death” it is essential that docents convey the message of careful and effective exploration of this environment. The following guidelines have been set up to help tidepool explorers minimize their impact on tidepool organisms and habitat. 1. Never remove animals, shells or rocks from the tidepools. Placing animals in buckets, even for a short time, is like leaving a dog in a hot car. The high temperatures can kill the delicate tidepool animals. When you remove rocks and shells, even broken and empty ones, you are taking a future hermit crab home or camouflage for an anemone or sea urchin. 2. Never pick up animals...observe them where they are. We are visitors in the tidepool creature's neighborhood. Picking up animals and putting them down in another part of the MPA is like something picking us up from our home...and putting us down IN ALASKA! We would feel very out of place. So do the animals. 3. Walk gently, taking care not to step on plants or animals. Many animals in the tidepool take cover in the cracks and in seaweed that grows on the rocks. Careless footsteps can crush animals we can't see hiding in the tidepools. 4. Never turn over rocks. Tidepool creatures hide under rocks for many reasons. When you turn rocks over you may leave the animals exposed to the hot sun and they may not survive. You might also leave them out in the open where they may be eaten by predators like birds and fish. 18 Ways to address and educate the public concerning the “good tidepooler rules” THE BIG PICTURE: Several points to keep in mind We can minimize impact, but we can not eliminate it. The tidepools of Orange County are readily accessible to a high population of urban visitors. As much as we care about these areas, we logistically can’t always be at all the tidepools at every low tide. Keep in mind that nature changes the intertidal habitat; sand moves in and covers rocks, mussels are dislodged by storm waves, sea stars die during low tide cycles that occur during heart waves. Orange County MPAs are high human use areas and we must do what we can to minimize anthropogenic disturbances, but recognize that loss is a natural part of the cycle. Education leads to stewardship. The premise of our programs is that the long term benefit of education outweighs the benefits of closing the area to the public or writing a lot of tickets. If we educate the public and they understand the purpose of the “good tidepooler rules” then they become the ambassadors and stewards of our local tidepools. Make every interaction as positive as possible! Our goal is to educate the public. This makes it imperative that we are as respectful and unassuming as possible in the way we address visitors. We must make every interaction as positive as possible so people want to become stewards of the marine environment. Ultimately we want the public to police themselves. Intercepting tips for contacting visitors not following the “good tidepooler rules” Remember the program goals: to educate and inspire. The best way to do this when addressing visitors who are not following the “good tidepooler rules” is to: 1. Use friendly greeting: “Hello there” or “Good Morning Sir” 2. Use a friendly tone and posture 3. Be courteous and respectful: Address visitors as you would want to be addressed in their situation. Remember that this is a public place and to use courtesy such as, please. 4. Explain why: Around 90% of the public are just ignorant of the “good tidepooler rules” and simply do not know any better. Find time to explain why they can not or should not do something without lecturing. 5. Interpret. Integrating a conservation message with a rule allows for the visitor to understand the rule. 6. Try to focus your attention on what visitors can do rather than what they can not do. 7. Avoid using the work “you” which puts blame on the person. This is less likely to put the person on the defensive. 8. Approach the visitor calmly. This draws less attention to you, to the person not following the rules, and to the organization that you’re representing. It is also less likely to put the visitor on the defensive. 19 The Rules: Specific ways to address and educate Rule #1: Never remove animals, shells or rocks from the tidepools. Inform visitors who are collecting that they are in a Marine Protected Area and that we ask visitors to leave things as they find them. Explain that we are a high use area and if everyone collected there wouldn’t be anything left. Help the visitor return collected organisms to appropriate habitats. Ask people to leave shells, because they are an important element to the intertidal areas. Shells provide shelter, hiding places and are reused by animals. Broken bits of shells protect anemones from the sun. And calcium is recycled by animals in order to make more shells. Check buckets for live animals, shells, and shells with live animals on them. Let visitors know they are in a Marine Protected Area and that there is no collecting. Their bucket may already have been checked, so approach them by saying something like, “You may have already been asked, but I need to make sure you are aware that we are a Marine Protected Area and that we ask you to leave everything as you find it, even shells. Rule #2: Never pick up animals…observe them where they are. Ask visitors not to carry animals around. Again these organisms are uniquely adapted to specific habitats. If they are placed in a different location they may not survive Ask visitors who are touching to do so gently. It is common practice to have children touch with two fingers and be gentle to leave things as they found them. Discourage poking and prodding with foreign objects such as sticks, shovels and buckets. Rule #3: Walk gently taking care not to step on plants and animals. Encourage visitors to avoid walking on plants and animals. As a rule please inform visitors to walk on bare rocks and sand and to do their best to step around algae and organisms. However this is not a hard rule that you CANNOT walk on any plants and animals because this is obviously impossible if you are truly exploring the tidepools. Promote walking on bare rock. Ask visitors to watch where they step and to step on bare sand or bare rock. Point out that while a rock may look bare, it’s really covered in wildlife. Get down and point out some of these animals and important algae. Explain that animals also live under rocks and use algae as a preferred habitat. You might go so far as to explain how local scientist have shown that walking on both rockweed and mussels has been proven to lead to deleterious effects on these species. Promote staying out of tidepools or walking through them. It is really difficult to avoid trampling organisms if you are in a tidepool. Even if the bottom of the tidepool has a nice sand layer, there are often animals that live beneath the sand or maybe struggling to get out of a recent sand cover. 20 Rule #4: Never turn over rocks. Discourage people from turning over rocks. Careless turning can crush animals living attached to the rocks, under rocks or crush animals that were in the way of the rock when it landed. If rocks are left turned over, plants and animals could die from desiccation from the change in habitat conditions. The best way to avoid damaging animals and algae is not to disturb rocks at all. Enforcement If the above tactics and approaches do not discourage the guest from ignoring the “good tidepooler rules” please do the following two things. 1. Walk away from the person and the situation. Once you have informed the visitor of the rules and policies there is nothing more the docent/educator can do. If a person chooses to ignore you or to argue with you, the best thing to do is walk away from them. As a volunteer it is your job to be out there having a good time, it is simply not worth it to get in an argument with a young kid or defensive parent. Ask yourself, “Am I having fun?” and if the answer is “no” cut your shift short and go home. Come back next time refreshed, with a renewed commitment to educating others and enjoying the tidepools. 2. Call someone who can help. Each program has a response plan to get you the back up and assistance you need from professionals or enforcement personnel. Be familiar with the plan and the phone numbers found in the logistics package for each program site. Human Use, Research and Monitoring Numerous studies have been conducted to show that humans using the rocky intertidal areas can create adverse and negative effects to the habitat and organisms. People use this area for all sorts of reasons, it is our job to make sure that they appreciate and explore this environment without causing damage or unnecessary impacts to the algae, animals and habitat. Besides the research conducted on human use, rocky intertidal shores are a great place to conduct research on various ecological principals and the physiology of specific organisms. Monitoring of how these communities change over time has been studied for several years now on a regional scale through MARINe (Multi- Area Rocky Intertidal Network) through the help of local universities such as California State University Fullerton. For more information on human use, current research and monitoring efforts please visit www.ocmarineprotection.org/research/php or www.marine.gov. 21 Interpretation Principals 201 (from National Park Service’s “Interpreting for Park Visitors) I. The Interpretative Equation A. (KR + KA) x AT = IO (Knowledge of Resource + Knowledge of the Audience) x Appropriate Techniques = Interpretive Opportunities 1. The interpretive equation applies to all activities 2. It is important to keep the equation elements in balance B. “Grading” or assessing the desired OUTCOMES of the equation 1. The interpreter must regularly evaluate whether interpretive activities are providing effective opportunities (small “o” outcomes), and whether these opportunities result in the ultimate desired outcome of a stronger stewardship ethic in the audience (large “O” outcomes). II. The Five Elements of the Interpretive Equation A. Knowledge of the Resource (KR) 1. Knowledge is more than just the facts about the resources. Interpreters must identify and be fully aware of the many different intangible and universal meanings the resources represent to various audiences. 2. Interpreters must possess a very broad knowledge of the history of the park (supplement MPA) beyond just the enabling legislation. They must be knowledgeable about past and contemporary issues and the condition of the park and resources. 3. Interpreters should not use their knowledge of the resources and intangible/universal meanings associated with them to offer only bland recitals of non-controversial “safe” facts. Interpretation embraces a discussion of human values, conflicts, ideas, tragedies, achievements ambiguities, and triumphs. 4. Interpreters must accommodate and present multiple points of view in their interpretation and not presume to expound what the think is the only “official” or “true” version of the reources and their meanings. 5. Interpreters must be careful to rely on accurate information when developing interpretive material and avoid the tendency to exaggerate or slant information to present a personal or particular viewpoint. 6. Interpreters should use their knowledge to convey the park’s (MPAs) resource related themes. B. Knowledge of the Audience (KA) 1. Important! The definition of audience includes more than just those individuals who actually visit a park/MPA. We have a professional 22 2. 3. 4. 5. 6. responsibility to reach out and provide interpretive opportunities for those who will never visit a park, as well as to actual park visitors. There are many ways to be a visitor to a national park (or MPA) in person, electronically through a computer, through a program in a classroom, or by reading a book. There is no such thing as the average visitor. Not every visitor requires an “intensive” interpretive experience. Interpreters must recognize and respect the specific personal values and interest visitors associate with resources. Interpreters should keep in mind the “visitors bill of rights.” Whether visiting a park on-site or off, visitors have the right to: a. have their privacy and independence respected; b. retain and express their own values; c. be treated with courtesy and consideration; d. receive accurate and balanced information. Interpreters should recognize the “visitor continuum.” The ultimate goal of interpretation is to provide opportunities for visitors to forge compelling linkages with the resources that they develop an active stewardship ethic. Visitors generally fall into a continuum in one of the following give categories, any of which may lead to increasing awareness of the relationships between tangible resources and their intangible and universal values: a. recreation/”trophy hunting”/collecting; b. nostalgia/refuge/isolation; c. information/knowledge; d. connections/linkages; e. stewardship/patrons. The interpreter’s job is to ensure that visitors have a positive experience at any of these levels, and to try to help visitors reach a deeper and richer level of understanding if possible. No matter where the visitors are on the continuum, the interpreter should strive to give them something of value to take home. C. Knowledge of the Appropriate Techniques (AT) 1. There are many interpretive techniques, none of which is inherently better than another. Determination of the appropriate technique results from analysis of the resource themes and audience profile. The interpreter should never choose a technique without first identifying the theme, goals, and objectives and the prospective audience to determine if it is an appropriate “fit”. Choosing techniques willy-nilly or because the interpreter personally enjoys them may mean that programs are only reaching a small portion of the audience. 2. Whichever technique is chosen, whether personal or non-personal, on-site or off-site, interpreters should ensure that it addresses the tangible/intangible/universal linkages of the resource. 3. Interpreters must stay current on communications and delivery techniques and new media possibilities and use them as appropriate. However, beware of adopting new techniques simply because they are new. 23 4. Interpreters must regularly evaluate the effectiveness of the techniques used and replace or update them when they no longer achieve the desired outcomes. D. The Interpretive Opportunity (IO) 1. To provide interpretive opportunities to the widest array of audiences, the interpreter must be proficient in as many techniques as possible, and should ensure that the overall park interpretive program offers the interpretive themes through as many different techniques as appropriate. 2. The effect of the interpretive opportunity may not be immediately apparent to either the interpreter or the visitor. Interpretation may have both a long-term and/or a short term effect. Interpreters should not always expect to see an immediate reaction in the visitor. E. The Interpretive Outcome: INTERPRETATION IS A SEED, NOT A TREE! 1. Outcome evaluation must be visitor based. 2. Evaluations should examine both short-term and long-term outcomes. Evaluations of short-term outcomes focus on whether an effective interpretive opportunity was offered to the audience (i.e., was the information correct, was an appropriate technique used). Evaluations of long-term outcomes focus on whether the larger program or organizational goals/mission was met. 3. Although outcome cannot always be measured immediately or quantitatively, the interpreter still has a professional responsibility to measure the effectiveness of the various interpretive opportunities being offered to the public to see if they are successful or need revising or updating. 4. Interpreters must seek feedback from the audience to gauge the effectiveness of the interpretive them, content, program, etc. The degree to which the audience forms effective linkages to the resources, not the amount of information conveyed, audience applause, or the personal satisfaction of the interpreter, is the measure of an effective outcome. 5. Evaluation of interpretive outcomes can occur through a variety of mechanisms such as focus groups, visitor, “report cards”, and visitor surveys. III. Final Thought Although not specifically included in the interpretive equation, the interpreter’s attitude is a vital element in ensuring that the equation works properly. The interpreter must care about both the resource and facilitating interpretive opportunities and outcomes if he or she wishes to inspire caring in others. In short, those who appreciate the resources protect and conserve them. 24 Spanish Phrases and Names Useful to Docents/Educators ENGLISH SPANISH Hello. My name is ____________. Hola. Mi nombre es _________. Welcome to ____________. Bienvendio al _____________. I do not speak Spanish. Lo siento, No hablo Espanol. Please treat the animlas gently. Por favor trate bien a los animales. It is OK to touch, it won't hurt you. Esta bien tocarlos - no te danan. Would you like to touch this animal? Quire tocar esta animal? Please touch with just two fingers. Por favor toquolo con dos dedos. Please keep the animals in the water. Por favor mantenga los ainmales en el agua. Thank you for visiting. Gracias por visitarnos. Please come back soon. Por favor, regersen pronto. The Good Tidepooler Rules Never remove animals, shells or rocks from the tidepools Siga Las Relas de los Exploradores Cuidadosos de las Albercas Nunca remueva animales, conchas, o rocas de las albercas Never pick up animals…observe them where they are. Nunca coja los animales; observelos donde estan Don't pull animals off the rocks, or poke them with sticks. No arranque animales de las rocas, ni les lastime con algo puntiagudo Walk gently, taking care not to step on plants or animals. Camine con cuidado, asegurandose que no pisa las plantas o los animales Never turn over rocks. Nunca de vueltas a las rocas Abalone Anemone Barnacle Crab Hermit Crab Intertidal Kelp Limpet Morey Eel Mussel Nudibranch Octopus Oyster Rays Rocky Abulon Anemona Cirripedios Barnacles Cangrejo Cangrejo ermitano Intermareal La alga marina Lapas Morena Mejillon El nudibranquio Pulpo Ostra Raya Rocoso Sand Dollar Scallop Sea Cucmber Sea Hare Sea Star Sea Urchin Seaweed Shark Sheephead Shell Shrimp Squid Tides Tube Feet Wavy Turban 25 Dolar de mar Almeja voladora piene Pepino de mar Liebre Marina Estrella de mar Erizo La palma de mar Tiburon Vieja El camaron Camaron Calamar Las mareas Los pies tubulares Caracol Turbante Concha MARINE PROTECTED AREAS MPA Definitions California state law defines an MPA as a “named discrete geographic marine area seaward of the mean high tide line that has been designated by law or administrative action to protect or conserve marine life and habitat” (DFG 2005). The State of California recognizes three types of MPAs to protect living resources. State Marine Reserve (SMR): The most restrictive classification of MPA, these areas are notake areas (all extractive activities are prohibited). State Marine Park (SMP): May allow recreational take, or limit it in some way, but does not allow commercial take. State Marine Conservation Area (SMCA): May limit recreational and/or commercial take to protect a specific resource or habitat. Almost all MPAs in Orange County were originally designated as a marine life refuges. Although no specific objectives were provided for the marine life refuge designation, Fish and Game Code Section 10500 states that “Except under specific permit or authorization, it is unlawful to take or possess any invertebrate or specimen of plant life in a marine life refuge.” Benefits of Marine Reserves (excerpt from PISCO Science of Marine Reserves 2007) Scientists have studied more than 124 marine reserves around the world and monitored biological changes inside the reserves. A global review of these studies revealed that fishes, invertebrates and algae in marine reserves display increased: 1) Biomass (the mass of animals and plants) increased an average of 446%. 2) Density (the number of plants or animals in a given area) increased an average of 166%. 3) Body size of animals increased an average of 28%. 4) Species diversity (the number of species) increased an average of 21%. 26 DESCRIPTION OF LOCAL MPAs #1: Robert E. Badham State Marine Conservation Area Type: Formerly known as: Newport Beach Marine Life Refuge State Marine Conservation Area Local Area Manager: City of Newport Beach Harbor Resources, Refuge Supervisor #2: Crystal Cove State Marine Conservation Area Type: Local Area Manager: Formerly known as: Crystal Cove Underwater Park State Marine Conservation Area California Department of Parks and Recreation State Parks Environmental Scientist Crystal Cove State Park Superintendent #3: Irvine Coast State Marine Conservation Area Type: Local Area Manager: Formerly known as: Irvine Coast Marine Life Refuge State Marine Conservation Area California Department of Parks and Recreation State Parks Environmental Scientist Crystal Cove State Park Superintendent #4: Laguna Beach State Marine Conservation Area Type: Local Area Manager: Formerly known as: Laguna Beach Marine Life Refuge State Marine Conservation Area City of Laguna Beach Marine Safety Department Marine Protection Officer #5: Heisler Park State Marine Reserve Type: Local Area Manager: Formerly known as: Heisler Park Ecological Reserve State Marine Reserve City of Laguna Beach Marine Safety Department Marine Protection Officer #6: South Laguna Beach State Marine Conservation Area Type: Local Area Manager: Formerly known as: Laguna Beach Marine Life Refuge State Marine Conservation Area City of Laguna Beach Marine Safety Department Marine Protection Officer 27 #7: Niguel State Marine Conservation Area Type: Local Area Manager: Formerly known as: Niguel Marine Life Refuge State Marine Conservation Area None to date #8: Dana Point State Marine Conservation Area Type: Local Area Manager: Formerly known as: Dana Point Marine Life Refuge State Marine Conservation Area The Ocean Institute Executive Vice President, Education and Research #9: Doheny Beach State Marine Conservation Area Type: Local Area Manager: Formerly known as: Doheny Beach Marine Life Refuge State Marine Conservation Area California Department of Parks and Recreation Supervising Ranger, Doheny State Beach 28 FREQUENTLY ASKED QUESTIONS (FAQ’s) Q. What do you folks do? A. This is a Marine Protected Area and our job here as volunteers and staff is to introduce you to the magic of the area and help you understand some of the connections among species here. Q. Are you folks out here every day? A. No. We are at the beach during low tides when the tidepools are accessible and visitors are present. The extent of each interpretive program is determined by the time of year, time and extremity of the low tide and the number of visitors or groups anticipated. Q. Are you with the (state or federal) Park Service? A. Is some cases yes, but for the most part our volunteers are working with both local City and non-profit organizations. In an effort to have a consistent message and pool resources the Orange County Marine Protected Area Committee has been working together to fund and train all docents for the tidepool areas of Orange County. Other support comes from volunteers spending hours on the beach and from generous grants and donation made by businesses and visitors like you. Q. May I have a brochure? A. Absolutely, thank you for asking, we are very proud of our brochure. With it, you can identify plants and animals you will see while you are here at the tidepools. It will also give you a basic understanding of the connectedness of organisms in this marine environment. Also note the “good tidepooler rules” on the back that will help you explore the area in a safe manner. Q. Are you guys out here to enforce and regulate the tidepools? A. No, we are out here to educate the visitors about these valuable resources. Through this interpretation it is hoped that visitors will gain an increased appreciation of the tidepools and will voluntarily follow the suggested “good tidepooler rules.” We like to call this interpretive enforcement or conservation through education. Q. Do I need a degree in marine biology to help on the beach and how to become a volunteer/educator? A. No. The most important qualities of a successful volunteer are enthusiasm, tact in dealing with visitors, and a willingness to watch, listen and continue to learn. Each area will have there own procedures to become a volunteer, but the next new docent training course through OCMPAC is _________ and you can contact __________ to get enrolled in the training. Q. What animals will we see in the tidepools? A. This brochure, “What do you see in the tidepools today” will cover all the most common organisms that you will find in the tidepools. If you see anything not on the brochure or have further questions please let one of the docents/educators know so that we can tell you more. Q. When is low tide? A. Low tide is at _____ today. Please make sure that there is a tide chart in your docent bag and that you know what the tide is doing through out the course of your shift. The next question that follows is, “when is the low tide the following day or the following week?” 29 Q. What causes the tides? A. The tide is caused by the gravitational pull of the sun and the moon. The moon’s gravity plays a larger role because it is closer than the sun. We have our highest highs and our lowest lows when the moon is new or full. During these moon phases the moon and sun are opposite each other and the combined gravitational pull of both bodies creates the increased tidal changes. Q. What kind of tides do we have here? A. Mixed semi-diurnal. In a 24 hour period these are 2 high tides and 2 low tides, each of a different height. There is typically 6 hours between high tide and low tide. The lowest low for the next day will typically be 53 minutes later than today’s lowest low tide. Q. Can I take mussels to fish with from here? A. No. This is a Marine Protected Area that was designated to protect the rocky intertidal life. Even taking one or two mussels might be detrimental to the mussel beds. When a few mussels become dislodged from a bed it makes the remainder of the mussels vulnerable to natural disturbances such as wave shock and predation. Q. If this is a marine protected area, why can people fish here? A. The answer to this question will not be the same at all Orange County MPAs. Currently at both Heisler Park and Dana Point there is no fishing allowed from the intertidal. For the remainder of the areas an answer might be, “these MPAs were designed to protect the intertidal marine invertebrates and the designation of the MPA extends some ways out to sea. While most intertidal animals and plants are protected, a State Marine Conservation Area allows for both some take of commercial and recreational species. For these Conservation Areas the fishermen have very specific regulation to what they can and can not take, and it is up to the fishermen to know the Fish and Game regulations.” Q. Should I enforce the Fish and Game regulations for those fishing in an MPA? A. No. I would leave the enforcement of fishing regulations to the professionals who will both check licensing and catch. If the fishermen have some questionable catch and are regularly abusing the tidepools and fishing with collected bait, please contact the professionals immediately and let them deal with the situation. Q. Are these tidepools man made? I see all those bolts in the rocks are they holding them together? A. No and no. Orange County tidepools were all formed naturally through sedimentary processes. The bolts are there as reference markers for Biologist who monitor the area to see how species abundance and distribution changes over time. This monitoring is part of a statewide effort and biologist from Cal State Fullerton survey these intertidal areas. Q. How old do sea anemones get? Q. How do sea stars reproduce? Q. Are urchins poisonous? Q. What are those tadpoles in the water? A. There are lots of specific critter questions, some you will learn or know the answers to, others no one knows the answers to. Reproduction and age structure varies by species, please spend some time reading your resources and please talk to other volunteers or educators to learn these answers and tricks of the trade. 30 RECOMMENDED RESOURCES AND REFERENCES CITED Books Boles, J.R. and Werner Landry 1988. Santa Cruz Island Geology Field Trip Guide, San Diego Associate of Geologist. Campbell, Neil and Jane Reece 2002. Biology, Benjamin Cummings. Carlton J.T. (editor) 2007. The Light and Smith Manual Intertidal Invertebrates from Central California to Oregon (4th edition), University of California Press. Denny, M.W. and S.D. Gaines (editors) 2007. The Encyclopedia Tidepools and Rocky Shores, University of California Press. Hinton, Sam 1987. Seashore Life of Southern California, University of California Press. Murray S.N., Richard F. Ambrose and Megan N. Dethier 2006. Monitoring Rocky Shores, University of California Press. Niesen, T.M. 1982. The Marine Biology Coloring Book, Harper Collins Publishers. Ricketts, E.F. Jack Calvin and Joel Hedgpeth (D.W. Phillips editor) 1985. Between Pacific Tides (5th edition), Stanford University Press. Sept, J Duane 2002. The Beachcombers Guide to Seashore Life of California, Harbor Publishing. Tarbuck, E.J., and Fredrick Lutgens 1996. Earth: An Introduction to Physical Geology, Prentice Hall. Websites Orange County Marine Protected Area Committee: www.ocmarineprotection.org Cabrillo Marine Aquarium: www.cabrilloaq.org Marine Life Protection Act: www.dfg.ca.gov/mlpa Partnership for Interdisciplinary Study of Coastal Oceans: www.piscoweb.org National Marine Sanctuaries: www.sanctuaries.noaa.gov National Marine Protected Area Center: www.mpa.gov Multi-Area Rocky Intertidal Network – Intertidal Monitoring: http://www.marine.gov Cabrillo National Monument: http://www.nps.gov/cabr/ Photo Database of the California Coast: http://www.californiacoastline.org 31