Category Archives: Underwater

Pycnopodia helianthoides: Sunflower star–The Race Rocks taxonomy

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Pycnopodia tend to be found thriving in regions rich in seaweed, in low intertidal zones on rocky shores. They have an arm radius that ranges from forty to sixty-five centimeters. Small juveniles have five arms but develop twenty four by the time they are adults. Pycnopodia have an aboral surface and are usually pink, purple or brown in color. Occasionally they will be red or yellow in color. They also have the ability to regenerate lost arms. Pycnopodia are the largest, heaviest and most active of the Pacific coast sea stars. Pycnopodia feed on Stronglyocentrotus purpuratus (the purple sea urchin), bivalves, polychaetes, chitons, snails, hermit crabs, crabs, sea cucumber, and Leptasterias sea stars . The Pycnopodia utilize over fifteen thousand sucker feet when capturing prey. Their prey is swallowed whole and digested internally, and they have the ability to partially evert their stomach. Antagonistic, combative behavior has been observed when two Pycnopodia encounter one another. The key predator of the Pycnopodia is the King Crab. A fourfold increase in speed has been noted when the Pycnopodia is in contact with a predator. If the Pycnopodia does not escape, the predator will latch on to one of its many arms and begin to feed.

The sea star Pycnopodia helianthoides is one of the largest invertebrate predators at Race Rocks. In this close up view, on the dorsal side, the pinkish tufts contain the pedicellariae (small pincers) and the dermal branchiae (for gas exchange) On the ventral view, the central mouth is surrounded by many tube feet.

In October, 2001, federal Fisheries Minister Herb Dahliwal and the Provincial Environment Minister Joan Sawiki visited Race Rocks to officially proclaim the opening of the Race Rocks MPA. In this video, Ryan Murphy shows the ministers a Pycnopodia.

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Asteroidea
Order Forcipulatida
Family Asteriidae
Genus Pycnopodia
Species helianthoides
common nameSunflower Star

References cited:

Marine Invertebrates of the Pacific Northwest, Eugene N Kozloff, 1996, University of Washington Press
Intertidal Invertebrates of California, Robert H Morris Donald P Abbot and Eugene C Haderlie, 1980, Stanford University Press
Pacific Seashores- A Guide to Intertidal Ecology, Thomas Carefoot, 1977, J.J. Douglas Ltd

 

Other Members of the Phylum Echinodermata at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams.

 December 2001-  Hannah McKinnnon (PC)

Moon Jellies

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Thursday, February 07, 2002
Good Evening
TEMPERATURE: Max. 8.0C Min. 4.9C  Reset 6.1C Rain 4.0 mm
MARINE LIFE: 9 mature and 6 immature Bald Eagles today.There were no Moon Jellyfish in the water today, just three that had stranded in the gravel. A couple of crows and one immature gull did some ‘investigating’ but quickly lost interest.No Canada Geese today.
posted by Carol or Mike S at 6:15 PM
Good Morning
WEATHER: Sky Cloudy  Vis. 15 Miles Wind Calm Sea Rippled
posted by Carol or Mike S at 7:16 AM

Zalophus californianus: California Sea lion–The Race Rocks Taxonomy

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rmuwoct11califswim

California sea lion photo by Ryan Murphy

 

rm2010calsl

Male California sea lion– note ears;

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California sea lion. still wet and therefore almost black. When they are dry they are dark brown. G.Fletcher photo.

California sea lions are known for their intelligence, playfulness, and noisy barking. Their color tends toward chocolate brown, although females are often a lighter golden brown. Males may reach 1,000 lbs. (more often 850 lbs.or 390 kg) and 7 feet (2.1 m) in length. Females grow to 220 lbs. (110 kg) and up to 6 feet (1.8 m) in length. They have a “dog-like” face, and around five years of age, males develop a bony bump on top of their skull called a sagittal crest. The top of a male’s head often gets lighter with age. These members of the Otariid, or walking seal, family have external ear flaps and are equipped with large flippers which they use to “walk” on land.

The trained “seals” in zoos and aquaria are usually California sea lions.

calif

Dry sea lion on the left and wet one on the right with a northern sea lion lying behind them. Sept 2006-G.Fletcher photo

In this picture they are seen mixed in with the Northern Sea Lions on many of the islands at Race Rocks. They do prefer however, West Rock, North Rock and the North West corner and the docks area of Great Race Rocks.

 

bakerlion

Northern and California Sea lion with Mt Baker in the background. photo: G.Fletcher

In 1970 , Trevor Anderson reported to David Hancock for the Journal article “California Sea Lion as a Regular Winter Visitant off the British Columbia Coast” that ” California Sea Lions had hauled out on rocks near the light every winter since 1966…. and a peak of population of 30 was reached in February, 1969.”

It is clear that the population of these animals has risen considerably over the years, and by 2007, up to 300 may haul out in the fall of the year.

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In the fall of 2011, the California sea lions were especially attracted up near the house in mid September . They all departed when an earthquake struck the north end of Vancouver island. Ryan Murphy photo

BREEDING

Sea lions do not pup at Race Rocks, it is strictly a winter haulout colony. Most pups are born on the outer coast to the South in June or July and weigh 13-20 lbs. (6-9 kg). They nurse for at least 5-6 months and sometimes over a year. Mothers recognize pups on crowded rookeries through smell, sight, and vocalizations. Pups also learn to recognize the vocalizations of their mothers. Breeding takes place a few weeks after birth. Males patrol territories and bark almost continuously during the breeding season. Gestation lasts about 50 weeks and lactation 5 to 12 months. The longevity is estimated to be around 17 years.

FEEDING HABITS

California sea lions are opportunistic feeders and eat such things as squid, octopus, herring, rockfish, mackerel, anchovy and whiting. The California sea lion competes with the Northern Sea Lion Eumetopias jubata for habitat and food

NOTES

California sea lions are very social animals, and groups often rest closely packed together at favored haul-out sites on land, or float together on the ocean’s surface in “rafts.” They are sometimes seen porpoising, or jumping out of the water, presumably to speed up their swimming. Sea lions have also been seen “surfing” breaking waves.

The males are probably the most vocal of all mammals, and let out a loud incessant honking bark to protect over their territories. They are faithful to their territories, and to their harems of up to 15 females. Sea Lions swim up to 25mph which makes them one of the fastest aquatic carnivores.

Sea lions are known to damage fishing gear and steal or destroy fish in the nets. As a result a lot of California sea lions drown in nets and they are frequently shot at by commercial fishers.
See examples below and in the video.

Sea lions are preyed upon by killer whales. Sea lions are known to have such diseases as pneumonia, caused by a parasitic lungworm, and a bacterial infection called leptospirosis, which affects their livers and kidneys.

Other problems for California sealions involve humans. Sea lions have been found illegally shot and also caught in drift or gill nets and other marine debris. However, their population is growing steadily, and California sea lions can be seen in many coastal spots

The Californian Sea lion was once killed in great numbers for their blubber which could be made into oil, and the rest would be made into dog food. Today the seal lion is protected by international treaty which has led to a positive shift in their populations.

Domain Eukarya
Phylum: Chordata
Class: Mammalia
Order: Pinnipedia
Family: Otariidae
Genus: Zalophus
Species: californianus
Common Name: California Sea Lion

 ARCHIVED VIDEOS of Sea lions at Race Rocks
sealionimpactsSeptember, 2003 : This past few months we have seen three California and Northern Sea lions with fishing flashers hanging from their mouths. These animals pursue fishing lures , probably especially when live bait is used. They swallow the bait, and take down the meter plus length of leader line before the flasher comes to their mouth. The individuals will be seen for several days trailing these flashers. It is not known whether they eventually shed the flasher or whether this leads to an untimely death. Although they can pick up a flasher in waters at some distance from their haulouts, it certainly makes sense to restrict fishing activity when marine mammals are in the vicinity of a fishing vessel.
slionsFrom August to November, a group of California sea lions hauls out on the shore to the East of the Docks with a few even staying on the docks. They get very used to the boats docking there and are often joined by a few large Northern sea lions as well. The constant barking sound comes from the California Sea lions, and the low growls are from the Northerns.”
lionblastsEffects of DND Blasting at Bentinck Island: On November 7, 2002, the DND were still doing their demolition blasting exercises at Bentinck Island. (not Oct 7 as stated in this draft version of the video) The students from Lester Pearson College who were out for a project week were able to catch the images of the impact of these blasts on the first day from the science centre window and on the second day from the top of the light tower. In the tower, they interviewed Mike Demarchi of LGL who is currently doing a $50,000 contract for the Department of National Defence to monitor the impact of these blasts and to compare them with other disturbances at Race Rocks. ( Click on audio icon below)
ecotourimpactsEcotourism can have both positive and negative effects. In this video, you see twoecotourist whale-watching boats from Victoria B.C. that demonstrate two methods of viewing marine mammals. The yellow boat, the Prince of Whales rounds the middle rock inside the kelp bed, much too close to the island which is covered with northern sea lions and a few California sea lions. Since the animals on the North side of the island do not see the boat coming at this close distance, theyare startled and about 25 of them take to the water. Thehigh profile of the boatis increased by the individuals standing on the top of the boat, probably adding to the scare value.The other boat, the Discovery Launch, comes down the main passage between Great Race and the middle rock. They have approached slowly, drift with the current and present very little impact on both the sea lions on the middle rock and the harbour seals hauled out on the main island down in the foreground. Missing from this video however is video of their departure from the reserve where they swing in very close to the end of the docks, causing a stampede of a dozen sea lions in that areaThere are definite guidelines on viewing distance which are occasionally ignored by commercial operators and by private boats of the public that come into the reserve. Disturbance of any marine mammal colonies by vessel operators is against the law. Every time an animal has to change it’s behaviour because of human behaviour, there is a cost in terms of energy expenditure. Violations of this regulation should be reported to federal fisheries.If you feel you would like to provide feedback on this issue to the Department of Fisheries see contact information in this booklet on their Guidelines
dndblastsDND blasting at Bentinck Island.This video was made on October 7, 2002 in order to document the effect of the Department of National Defence demolition exercises on Bentinck Island on the behaviour of birds and marine mammals at Race Rocks MPA. In previous years we have observed considerable disruption by military exercises involving blasting on nearby Bentinck Island in the fall just after the sea lions have returned to the island. We have requested that blasts be spread out over a longer period of time during an exercise. Traditionally blasts have come in a series of three. The first one would alert the sea lions, the second would send a few in the water and the third would clear the islands. This year on this one occasion, only two blasts were held at five minutes apart. The results are shown in the video.gfsept0809brand849BRANDING:We often encounter marine mammals in the reserve which have been marked when trapped in another location as part of a scientific study. We are including in this file a set of pictures of marine mammals which have been tagged in various studies, along with the particulars of the observations. sealion12ENTANGLEMENT:

In September 1999, this California sealion, with a plastic hoop around his neck, was photographed from the docks at Race Rocks by MPA Guardian Carol Slater.

Sea lion with a plastic ring on his neck.

A sea lion with a plastic ring on his neck. See this file for our posts on “entanglement”. It shows the many examples of human debris compromising the health of sea lions.Sometimes however, there is a good news story. It seems like this California sea lion has made somewhat of a recovery, with skin growing over the plastic. See this and other images by . Ryan Murphy in his Flickr album.

SUBSPECIES

Three subspecies are recognized: Zalophus californianus californianus (Lesson, 1828), Zalophus californianus wollebaeki (Sivertsen, 1953) and Zalophus californianus japonicus (Peters, 1866), each living in a clearly separate range. According to Rice (1998), the differences between these types justifies classification as separate species: Zalophus californianus, Zalophus wollebaeki and Zalophus japonicus

seali2sleep

Ecological Equivalents:  The subspecies Zalophus wollebaeki sea lion from the Galapagos Islands.

 

Other Members of the Class Mammalia at Race Rocks.

taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams.

File originally compiled by Caroline Mwaniki (PC yr. 27)

 

Haliotis kamtschatkana: Northern Abalone–The Race Rocks Taxonomy

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Cryptic Coloration of Abalone
Associated organisms with abalone.

Domain Eukarya
Kingdom Animalia
Phylum Mollusca
Class Gastropoda
Subclass Prosobranchia
Order Archaeogastropoda
Suborder Pleurotomariina
Family Haliotidae
Genus Haliotis
Species kamtschatkana
Common Name: Northern Abalone

Paulina and the PC Divers go in search of abalone for our population tagging program. The opportunity arises to demonstrate the escape response of the Northern Abalone, when it is presented with a Pycnopodia, the giant sunflower star.

Scott Wallace did research in 1997 and 1998 at Race Rocks with Pearson College divers. He studied the population dynamics of the Northern Abalone, Haliotis kamtchatkana. His research was done as part of a PhD thesis in Resource Management from the University of British Columbia in Vancouver. In May of 2000, he returned to Race Rocks for a dive with Garry and Hana and an interview with Stephanie Paine and Director Julia Nunes for the Discovery Channel. In this video he demonstrates the measurement technique he used in his research

Link to Abstract of Scott’s Paper
Wallace, Scott, S. 1999, Evaluating the Effects of Three Forms of Marine Reserve on Northern Abalone Populations in British Columbia, Canada. Conservation Biology, Vol 13 No 4, August, 1999, pages 882-887.
An article by Scott Wallace:
Out of Sight, Out of Mind, and Almost out of Time out of sight out of mind–mpa

 

 

 

n 1998, we began a long term research program, initiated by Dr. Scott Wallace, on the population dynamics of the Northern Abalone
(Haliotis kamtschatkana).

For several years, the Pearson College divers monitored the population. In this video, Pearson College graduate Jim Palardy (PC yr.25) explains the process.

Carmen Braden and Garry find a Northern Abalone exposed at low tide in June in the intertidal zone of the east side of Race Rocks. They talk about its adaptations and the problem of overharvesting which has resulted in the endangered status.

This abalone was filmed by Felix Chow as it was rasping off diatoms from the glass wall of the aquarium. A small tongue or radula scrapes the algae from the walls.

General information:

Northern or Pinto abalones (Haliotis kamtschatkana) belong to the class of mollusks having a shell that consists of one piece. The genus they belong to is Haliotis, which means “sea ear” and refers to the flattened shape of the shell.

abaloneshellDescription:

Pintos are the smallest abalones and they are commonly about 4 inches long, however the biggest individuals can grow as big as 6 inches long (12 cm). The shell is oval or rounded with a large dome towards one end; it is also irregularly mottled and narrow. The colour of the shell exterior is mottled greenish brown with scattered white and blue. The shell has a row of respiratory pores through which the abalone takes in water and filters dissolved oxygen from the surrounding water with its gills. Water that passes through the body leaves through the respiratory holes carrying away waster from the digestive system. Pinto abalones have from 3 to 6 open holes in their shells. The shape of these respiratory holes is oval and they are raised. The colour of the pinto abalones’ epipodium is mottled greenish tan or brown. The tentacles are thin and the colour of them can vary from yellowish brown to green. Abalones’ muscular foot has a strong suction power that permits the abalone to clamp tightly to rocky surfaces.

Habitat:

Pinto abalones have definite preferences in locations and habits. Pinto abalones range from Sit ka, Alaska to Monterey, California. The only member of the genus is likely to be found in the Puget Sound region., on the open coast of Vancouver Island and Washington. Farther south pinto abalones become strictly sub tidal. Pinto abalones can be found clinging to rocks in kelp beds along open coastal environments that have a good water circulation. Their habitat is between the low inter tidal zone and sub tidally down to 70 feet (18 meters depth).

Life cycle:

The life cycle of an abalone begins from an egg. Abalone female releases millions of eggs, but only about 1% (or even less) of the offspring survive the many challenges they have to face before maturity. The eggs turn into a free living larva and then after drifting with the currents about a week the abalone larva settles to the bottom and begins to develop the adult shell form.

Predators:

Abalone have many predators. They get eaten by other animals (crabs, lobsters, octopuses, starfish, fish and snails) and crushed to the rocks by strong waves. The sea otter was traditionally one of the most significant predators of abalones, although they have not yet moved into the Strait of Juan de Fuca, from the re-introduction several years ago to northern Vancouver Island.

Nutrition:

Pinto abalones, as all abalones, are herbivores. They use their large, rough radulas (“tongues”) to scrape pieces of algae and other plant material from the rock surfaces. The adult abalone feeds on loose pieces of algae drifting in water. Abalones prefer large brown algae; mainly different kind of kelps and seaweed. The colour banding on many abalone shells is caused by the changes in the type of algae that the abalone has eaten.

Threats:

Pinto abalones used to be subject to sports and commercial fishery . They suffered from over harvesting and habitat loss and poaching. There is now a permanent closure on all abalone fishing on the B.C. Coast. For the Pacific North West Coast First Nations People, the beautiful shells of abalone were used for jewelry and abalone also were a seafood delicacy. They occur sub tidally and only in remote areas.

See the Abalone measurement and statistics exercise at RaceRocks:
http://www.racerocks.com/racerock/research/abalone/abalonemeas.htm

See our abalone exercise for middle school.

References Cited:

Kozloff, Eugene N., Marine Invertebrates of the Pacific Northwest, University of Washington Press, Seattle and London, 1996.

Kozloff, Eugene N., Seashore life of the Northern Pacific Coast, University of Washington Press, Seattle and London, 1996.

Meglitsch, Paul A., Invertebrate Zoology; second edition, Oxford University Press, 1972.

Snively, Gloria, Exploring the Seashore in British Columbia, Washington and Oregon, Gordon Soules Book Publishers Ltd., Vancouver/London, 1981.

http://www.pacificbio.org/ESIN/OtherInvertebrates/NorthernAbalone/NorthernAbalone_pg.html ( available at this URL in 20101)

http://www.sonic.net/~tomgray/describe.html

Other Members of the Phylum Mollusca at Race Rocks.

taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams. Salla Vornanen, PC yr 27

 

Leptasterias hexactis The Race Rocks Taxonomy

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The six rayed sea star is found both intertidally and subtidally at Race Rocks. They are one of the smaller sea stars.

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Asteroidea
Order Forcipulatida
Family Asteriidae
Genus Leptasterias
Species  hexactis  (Stimpson,1862)
COMMON NAME: Six- rayed Star
Introduction
Description: Radius 2″ (51 mm), 6-armed ( note the species name hexactis referring to the six arms.). Green, black, brown, or red, sometimes mottled. Disk moderate-sized with 6 fairly broad arms; spines on upper surface dense and mushroom-shaped. rarely do we find these at Race Rocks exceeding 15 cm in length.
Habitat: On rocky shores. We frequently find these when doing intertidal studies or when diving in shallow water at Race Rocks. Range British Columbia to s. California.
Discussion: L. hexactis eats small snails, limpets, mussels, chitons, barnacles, sea cucumbers, and other species, including dead animals. It produces yellow, yolky eggs that stick together in a mass after fertilization. These are brooded under the disk of the female until they hatch as miniature sea stars after 6 to 8 weeks. The small six-rayed sea stars of the West Coast are quite variable and have presented problems of identification. The only other species currently recognized is the Small Slender Sea Star (L. pusilla) which has sharp spines and longer, thinner arms than L. hexactis, and is a light gray-brown or reddish color. It also has a very limited range from San Francisco to Monterey Bay. It reaches a radius of 1″ (25 mm).
Echinoderms have a few important aspects in common. They have bony ossicles in their body. They have a water-vascular system which pumps water through the madroporite. They also have small jaws that are supported by the water-vascular system. And they have tube feet which they use to attach to objects, for protection, as well as to obtain food. They have radial symmetry and most can regenerate lost limbs.

 

Other Members of the Phylum Echinodermata at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams.

 December 2001(PC)

Parastichopus californicus The Race Rocks Taxonomy

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 Video of Albinism and Leucism in Sea Cucumbers

 

 

 

 

Video of escape response when attacked by Pycnopodia sp.

 

 

 

 

Video of a male sea cucumber releasing sperm

 

 

 

Emily finds a partially albino (pinto?) Parastichopus while diving near Church Island… just up the Strait from Race Rocks. 

 

 

DESCRIPTION:

The California Sea Cucumber grows up to 50cm long. They are the largest cucumbers in B.C. waters. They range in colours from red in juveniles to brown or mottled brown, with all white individuals occurring rarely. They are covered on the dorsal side with flesh coloured papillae, and on the ventral side by tube feet. A circle of peltate feeding tentacles surround a subterminal mouth, directed ventrally at the anterior end. Oxygenated water is forcibly pumped into the sea cucumber’s respiratory trees in several successive inhalations, and then deoxygenated water is forcefully expelled. Eye-witness accounts have noted small fish being expelled with this force of water, perhaps living in symbiosis with the California sea cucumber.

RANGE:

Gulf of Alaska to Cedros Island, West of Lower California. Intertidal to 249m. Common on mud, gravel, shell, rock rubble or solid bedrock, from exposed coast to sheltered inlets. Greatest densities occur in quieter waters where organic sediments settle on hard surfaces. Harvesting of Sea Cucumber is also done by divers, throughout their range.

FEEDING, BEHAVIOR, AND BREEDING:

Sea cucumbers feed as they move along the bottom, traveling up to a maximum of 3.9m a day. They gain nutrition from organic material in sediment, mostly form bacteria and fungi. California Sea Cucumbers cease feeding and become dormant from September to early March. Once they reach maturity at four years of age, they will migrate to shallow water to spawn from late April to August, although this timing varies with location. Fertilization takes place in open water. Free swimming larva feed on plankton for 35-52 days before settling to the bottom. Parastichopus californicus has few natural predators. Sunflower starts sometimes eat them, and the sea cucumber reacts strongly by rearing back and flexing violently to avoid being eaten. They are harvested commercially in B.C., Washington, and Alaska for meat, and limits have been set for the amount that may be caught. When disturbed, as other sea cucumbers, it will contract and squirt a powerful stream of water from its posterior end. Five pairs of muscle bands which run the length of the body help this organism in contracting and escape from sea stars. Perhaps one of the most interesting features is this organisms ability to regenerate new organs for winter after expelling them during its dormant phase. It seems there is controversy as to whether sea urchins expel or reabsorb their organs. Recent evidence cited by Philip Lambert of the RBC museum in Victoria(1997) indicates that the sea cucumbers reabsorb their organs.

FURTHER INFORMATION NEEDED:

-further study at Race Rocks of commensal fish living in respiratory tree

-behaviour studies

-colouration, how long it takes to occur in full pigmentation, as a white individual found near Race Rocks has recently begun to change tan colour–later development?

-mechanism of absorbing/ejecting and regenerating organs

WEBSITE LINKS TO SEA CUCUMBERS:

Sea cucumber fishery – Pacific Region
http://www.pac.dfo-mpo.gc.ca/ops/fm/shellfish/Sea_Cucumber/biology_cucumber.htm

A paper by Phil Lambert on Sea Cucumber Taxonomy
http://rbcm1.rbcm.gov.bc.ca/nh_papers//taxing.html

REFERENCES CITED:

Carefoot, Thomas (1977), Pacific Seashores : A Guide to Intertidal Ecology
Lambert, Philip (1997), Sea Cucumbers of B.C., Southeast Alaska and Puget Sound
Morris, Abbott, Haderlie (1990), Intertidal Invertebrates of California
pearsonlogo2_f2The Race Rocks taxonomy is a collaborative venture originally started with the Biology and Environmental Systems students of Lester Pearson College UWC. It now also has contributions added by Faculty, Staff, Volunteers and Observers on the remote control webcams.  – Sarah Trefry Dec 2001 (PC)

Other Members of the Phylum Echinodermata at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
and Image File

Archival images: Panoramic Views of Race Rocks.

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These QuickTime VR or virtual reality panoramas allow you to look 360 degrees around a scene. We have created a series of VR movies of the island for you to get a better idea of just what the core of the MPA looks like.

To view the panoramas. Click on the links under the map picture below. You need the QuickTime plugin to view the files. If you can see the rotating image above, you have the correct software to view the panoramas.

This set of panoramas was made possible by a donation by Richard Catinus, Account Executive, Western Region, Apple Canada, Inc . He provided the software QTVR to the racerocks.com Activity at Pearson College.
Damien Guihen and Jean-Olivier Dalphond, Lester Pearson College students, stayed on at Race Rocks for two weeks in June 2001. They did the photography using a digital camera. Damien did the html of the pages and the assemblage of the QTVR panoramas .
June 2001.

SORRY , These movies have not been converted to mP4 yet so please come back later

islandviews

Webcast to Conference in New York from underwater Race Rocks

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During a presentation to the ETC conference at the United Nations School in New York in the spring of 2001, we tried out the underwater audio link from DIVELINK . An audio signal is relayed by SONAR for Ryan to a receiver near the docks. This receiver was connected to the audio input on the G3 laptop computer and to the shore tender as well. Both voices could be carried by the Sorenson Broadcaster first by wireless AirPort and then onto the internet. In this way we were able to communicate from underwater in the Pacific Ocean live by internet to the Altlantic coast. In this video, Ryan Murphy, a student at Pearson College, operates the device and the camera was operated by Jean-Olivier Dalphond, also a student at the college.

Fouling on Sensor bar

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Already by March, the growth of algae on the environmental sensors and the aluminum bar has been prolific. Regular dives have to be made to keep the sensors free of algae. The predominant Genus here is Laminaria.

Ryan Murphy films underwater at West Race Rocks

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This video was shot by the team of Pearson College divers while practicing for the live webcast for the QuickTime Live Conference in California- Oct 2000 .

On the 4th of October, a 5 member diving team brought the camera to West Race Rock to film the marine life there. Along with Red Sea Urchins (Strongylocentrotus franciscanus), Plumose Anemones (Metridium farcimen), and a Tiger Rockfish (Sebastes nigrocinctus) was a large school of Black Rockfish (Sebastes melanops). The camera crew for the dive was J.O. Dalphond, Hana Boye, and myself. Organism identification responsibility falls on me. Hinted streaming video time is 3 minutes 22 secs
My name is Ryan Murphy and I am a Year 26 Pearson Student from Newfoundland. I am doing the editing on this movie. I’m the diver with the blue snorkel signalling “OK” at the beginning. Garry, our Guru, is showing me how to do this in iMovie as this is my first movie, I hope you enjoy it.