Category Archives: Phylum Echinodermata

Ceramaster arcticus: The Race Rocks Taxonomy

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Our thanks to The Royal British Columbia Museum for providing this photo taken by Brent Cooke.

 

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Asteroidea
Family Goniasteridae
Genus Ceremaster
Species arcticus (Verrill 1909)
Common Name:
Ceramaster arcticus (Verrill 1909) (Goniasteridae)

 

From the information Phil Lambert submitted to  Syesis, 11:61–64 (1978)

Ceramaster arcticus (Verrill 1909) (Goniasteridae)
British Columbia: Race Rocks, Victoria, 9 m, one specimen (BCPM 973-251-34);

Winter Inlet, Pearse Island, 23 rn, one specimen (BCPM 974-224-43);
Work Channel, 31 m, two specimens (BCPM 974391-6);
northwest of Queen Charlotte Islands, 119 m, one specimen (NMC 1733).

Previously known from Bering Sea to St. Paul Harbour, Kodiak Island, Alaska (57*461N, 152*27W) (Fisher 1911), littoral zone to 186 rn (D’yakonov 1950). The specimen from Race Rocks (48*18’N, 123,36’W) extends the known range 2180 km southward.

References :
Philip Lambert, New geographic and bathymetric records for some northeast Pacific asteroids (Echinodermata: Asteroidea) Syesis, 11:61–64 (1978)

Royal British Columbia Museum Collection data. 

Catalogue Number: 973-00251-034
Collector’s Field Number:
Scientific Name: Ceramaster arcticus

Collection Event

Collection Date(YYYY-MM-DD): 1973-09-18

Geographic Place

Location Name: Victoria; Race Rocks
Location Description: passage between lighthouse and small islets in the lee of the rock
Province/State: British Columbia
Other Members of the Phylum Echinodermata at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
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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.

 Garry Fletcher

Cucumaria pseudocurata The Race Rocks Taxonomy

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Description
Cucumaria pseudocurata is a small species with a length averaging between 1.5cm and 3cm. Their dorsal side ranges from brownish black to light brown to yellowish gray, while the ventral side varies from brown to white. Five bands of tube feet can be found in single or zig-zag rows, with the three ventral rows being more robust. C. pseudocurata has 8 equal-sized tentacles, and 2 smaller ventral ones. The tips of the tentacles generally have the darkest pigment. Between two of the dorsal tentacles can be found the genital papilla. The skin ossicles of this particular species are typically oval perforated plates.

This small cucumber can be found intertidally among the Mytillus Californianus (mussel beds) on the Western side of the main island.
See also the Black Brooding Sea cucumber, one of similar size but a darker color and a subtidal habitat

The book Sea Cucumbers of British Columbia, Southeast Alaska, and Puget Sound by Phil Lambert is the best source for identification of most of the 45 species of local sea cucumbers. In it he notes that the habitat of Cucumaria pseudocurata in the Juan de Fuca Strait tends to be ” This page has a copy of the reference to this species and others:
See also Taxing Problems by Philip Lambert – Now Curator Emeritus of Invertebrates, Royal BC Museum for a description of the difficulty in classification and the need to classify by the skin ossicles.
Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Holothuroidea
Order Dendrochirotida
Family Cucumariidae
Sub Family Cucumariinae
Genus Cucumaria
Species pseudocurata
Common Name: Tar-Spot Sea Cucumber

 

Other Members of the Phylum Echinodermata at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
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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 2002 Erin Schwenger (PC year 29)  Rahilla (PC)

Cucumaria pseudocurata: Tar-spot Sea Cucumber

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DescriptionCucumaria pseudocurata is a small species with a length averaging between 1.5cm and 3cm. Their dorsal side ranges from brownish black to light brown to yellowish gray, while the ventral side varies from brown to white. Five bands of tube feet can be found in single or zig-zag rows, with the three ventral rows being more robust. C. pseudocurata has 8 equal-sized tentacles, and 2 smaller ventral ones. The tips of the tentacles generally have the darkest pigment. Between two of the dorsal tentacles can be found the genital papilla. The skin ossicles of this particular species are typically oval perforated plates.

This small cucumber can be found intertidally among the Mytillus Californianus (mussel beds) on the Western side of the main island.
See also the Black Brooding Sea cucumber, one of similar size but a darker color and a subtidal habitat.

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Holothuroidea
Order Dendrochirotida
Family Cucumariidae
Sub FamilyCucumariinae
Genus Cucumaria
Species pseudocurata
Common Name: Tar-Spot Sea Cucumber 

The book Sea Cucumbers of British Columbia, Southeast Alaska, and Puget Sound by Phil Lambert is the best source for identification of most of the 45 species of local sea cucumbers. In it he notes that the habitat of Cucumaria pseudocurata in the Juan de Fuca Strait tends to be ” This page has a copy of the reference to this species and others:

See also Taxing Problems by Philip Lambert – Now Curator Emeritus of Invertebrates, Royal BC Museum for a description of the difficulty in classification and the need to classify by the skin ossicles.

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.

Erin Schwenger (PC yr 29))

Hippasteria spinosa:The Spiny Sea star–The Race Rocks taxonomy

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Spiny Stars are rarely seen by divers at Race Rocks. Ryan demonstrates one to the Colwood Elementary a school class

Description:

The Hippasteria spinosa is an uncommon, 5 armed, aboral surfaced sea star. Its most marginal plates have 2 spines and it has some conspicuous bivalved pedicellariae.

Its colour is orange to vermillion, which intensifies at the short, stalky arms (R/r=1.7 to 2.6) and becomes whiter near the mouth. Usually in the subtidal region at depths of 100 to 500 metres, it can sometimes be found on the beach. It is characterized by having all its plates covered with granules, giving it a spiny, STELLATE look.The mouth has 4 or 5 marginal spines and a slightly wider than high mouth (elipsis shape).

Habitat and region

Can be found from Kodiak Island to Southern of California and the Sea of Okhotsk and is more common around the west coast of Vancouver Island and other exposed coastal parts. It prefers muddy, shallow environments and can also be found in shell and rock.

References:
Taxonomy: Marine Invertebrates of the Pacific Northwest; Kozloff, Eugene, University of Washington Press, 1996 Edition, USA

 

Eupentacta quinquesemita:white sea cucumber–The Race Rocks Taxonomy

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Here are the tentacles extended on a cluster of Eupentaca.Their bodies are hidden. Photo by Dr.A. Svoboda

GENERAL DESCRIPTION

Eupentacta quinquesemita is stiff to touch due to abundant calcareous ossicles in the skin and tube feet. The body grows 4-8 cm in length. The non-retractile tube feet give it a spiky look. It has five rows of tube feet (four tube feet in width) with smooth skin between. The two ventral feeding tentacles are smaller than the other eight. This character is useful for identifying this species when only the tentacles are visible. The expanded tentacles are creamy white with tinges of yellow or pink at the bases.

Skin ossicles: numerous large, porous, ovoid bodies dominate the ossicles but among them are small, delicate baskets. The latter are important in differentiating this species from Eupentacta pseudoquinquesemita.

HABITAT

They are fairly common under the rocks and in cervices, low intertidal zone on rocky shores; common on concrete piles and marina floats in Monterey harbor, Vancouver (British Columbia) to Morro Bay (San Luis Obispo. Co). High densities of this species occur in strong currents. Juveniles (up to 1 cm) settle among hydroids and small algae in high current areas and on floating docks.

REPRODUCTION

Eupentacta quinquesemita is a suspension feeder. It spawns from late March to mid May. The female produces eggs greenish in color, 370 to 416 um diameter: the male releases sperm, and fertilization takes place in open water. The yolky egg develops into a non-feeding evenly ciliated larva. In culture, the larva grows to the armoured stage in 11 to 16.5 days.

 

PREDATORS

The predators of Eupentacta quinquesemita are: the Sun Star (Solaster stimpsoni), the Sunflower Star (Pycnopodia helianthoides), the Six-armed Star (Leptasterias hexactis) and the Kelp Greenling (Hexagrammos decagrammus).

BIOTIC ASOCIATION

The internal parasite, Thyonicola americana, a shell-less wormlike snail, attaches elongated coils of eggs to the intestine of E. quinquesemita. The larvae are released into the intestine and probably scape through the anus. Any parasites that are ejected by evisceration perish.

FEEDING

Is by shovelling of sediment into the mouth and digesting the microfauna within. No direct feeding is required. Is omnivore.

DomainEukarya
Kingdom Animalia
Phylum Echinodermata
Class Holothuroidea
SubclassDendrochirotacea
Order Dendrochirotida
Family Sclerodactylidae
Genus Eupentacta
Species quinquesemita
Common name White sea cucumber

REFERENCES

Lambert, P. 1997. Sea Cucumbers of British Columbia, Southeast Alaska and Puget Sound. UBC Press, British Columbia Canada. 166 pages

Morris, R., P. Abbott, and E. Haderlie.1980. Intertidal Invertebrates of California. Standford University Press, Stanford, California. 690 pages.

Kozloff, E. 1996 . Seashore Life of the Northern Pacific Coast. Fourth Edition. University Of Washington Press. Seattle and London. 370 pages.

 

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.

 Patricia  (PC year28)

Orthasterias koehleri: Rainbow sea star– The Race Rocks Taxonomy

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General description:

Arms radius to 21cm, gets fairly big to 50cm; disk small, with five slender arms; aboral surface bearing prominent sharp spines and a conspicuous ruff of pedicellariae, which are white; color vivid; varying from rosy pink with a gray mottling, to bright red mottled or banded with yellow, the spines whitish or lilac.

Habitat

Uncommon, on mud, sand, and kelp but occurs in the very low intertidal zone, on shaded rock surfaces. It is more common at scuba depths and extends to 250m, being found from Alaska to Southern California.

Feeding
Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Asteroidea
Order Forcipulatida
Family Asteriidae
Genus Orthasterias
Species koehleri
COMMON NAME: Rainbow sea star

Orthasterias koehleri feed on small snails, limpets, clams, scallops, chiton, barnacles, and tunicates. They can dig clams out of cobbled bottoms, and use the pull of the tube feet to spread apart the outer layer of a clam shell until a small opening is made between the valves. The stomach is then inserted through the opening and the clam digested.

Reproduction

To expose the gonads in a rainbow sea star, make a 1-2 inch cut in the ray near the junction with the disk, push the digestive gland gently aside to expose the underlying gonad, then firmly grasp the gonoduct with forceps and cut it free from the gonopore. Fragments of gonad can be removed, but the cut gonad will leak gametes into the body cavity. Suture the incision or leave it to heal unsutured in clean and strongly flowing seas water. Recovery is better if the insicion is small, the digestive gland is undamaged, and all air is removed from the body cavity. This method has been used with success.

References

Intertidal Invertebrates of California, Between Pacific Tides
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.

Esrah Ugurlu (PC year 28

Strongylocentrotus droebachiensis: Green sea urchin –The Race Rocks taxonomy

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See this green urchin in the video and compare it with the purple and red urchins

 

Green Sea Urchin: average size is 50-60 mm, but may reach a maximum size of about 85 mm.

Distribution: The green sea urchin is one of the most widely distributed of all Echinoderms. It has a circumpolar distribution, which extends into the Arctic regions of both the Atlantic and Pacific Oceans. It commonly inhabits the rocky subtidal zone from the low-tide mark down to a depth of 1200 m, but also occurs intertidally in tide pools.

 

 

Diet: The green sea urchin primarily grazes on seaweeds (kelp being its preferred food source), but will also consume a wide variety of organisms including mussels, sand dollars, barnacles, whelks, periwinkles, sponges, bryozoans, dead fish, and – when hungry enough – other sea urchins.

This shows the grazing action of sea urchin teeth, arranged in a complex assemblage of small bones, the five teeth gouged out this star pattern in the stipe of a Pterygophora.

 

The skeleton of the sea urchin is called a “.test”. The radial symmetry is reflected in the placement of all the tube feet holes. Here you can see the size of a green urchin compared to a red urchin

 

 

 

Reproduction: Green sea urchins release their gametes into the water column where the eggs are fertilized by the sperm. The sexes are separate. The resulting larva (termed an “echinopluteus”) undergoes development planktonically for a period of one to several months before settling on the sea floor and metamorphosing into the adult form. Reproduction occurs on an annual cycle with spawning occurring in the spring, generally between February and May, but sometimes as late as June.  See the Lab on Sea urchin Embryology.

This video from underwater Safari shows a wolf eel crunching a sea urchin…

Behavior: Where urchins occur at high density, destructive grazing can produce habitats devoid of seaweeds. These areas may be termed “sea urchin barren grounds”.. When sea urchins are removed from these sites, either manually or by disease, the reduction in grazing pressure often results in the development of highly productive kelp forests. These kelp beds provide shelter for a wide variety of marine organisms (e.g. fish, lobsters, crabs, sea stars, bivalves, gastropods, bryozoans) and the habitat is typically much more diverse than barren grounds. Hence, sea urchins are one of the principal factors controlling habitat diversity in the rocky subtidal environment.

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.

Aldo Caixeta (PC yr 28)/strong>

Cucumaria miniata: Orange sea cucumber–The Race Rocks Taxonomy

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The orange Cucumaria miniata sea cucumber is a common resident just off the docks at Race Rocks in 5 to 10 meters of water. In this video they occur in a high concentration relative to other areas. Each orange tuft is the tentacle mass. If disturbed, it quickly withdraws into the sea cucumber body which is always buried under loose rocks.

Note the name Cucumaria miniata should be on the following video instead of C. curata

General Description:The Orange sea cucumber received its Latin name, Cucumaria because it resembles a cucumber. The orange pigment that separates it from other sea cucumbers comes from a chemical called cinnabar or vermilion. Although it seems to be completely soft and fragile, it actually has bone-like plates in the body wall called ossicles. To stay attached to the holes between the rocks, the cucumber uses tube feet that you can see in the image above in 5 rows around the circumference of the body. If you ever want to keep one as a pet, don’t get too attached because they usually only live about 5 years, sometimes 10 if they’re lucky.

Habitat:

Sea cucumbers live in between boulders and sheltered rock formations. Because they are able to stay attached to surfaces, they prefer to live in areas with stronger currents, making it harder for predators to reach them.

Feeding:

The orange sea cucumber is a suspension feeder. This means that it catches food in its tentacles. After the food is caught, it removes the food with its eating arms and scrapes it into its mouth. Sea cucumbers eat plankton and detritus.

Reproduction:

Unfortunately, sea cucumbers aren’t very intimate creatures. In fact, their mating process can’t have any less contact. When the time comes to make a new cucumber and two cucumbers are physically (and emotionally) ready, one will release eggs into the water and the other will release sperm. From that, the two elements meet in suspension and that’s it.

Predators and Defenses:

The cucumbers main predators include fish, and even humans. That’s right kids, there are some people in the world that actually eat these things. To protect itself, the cucumber has many defenses. Their skin is some of the most amazing tissue found on an animal. The compound is made of a material called ‘catch collagen’ which can change from liquid to solid when neurologically triggered. It does this so can squeeze into small spaces and then harden again. Another defense is they “pee” out all the water in their system and shrink into a small, hard rock. The “peeing” usually occurs when the cucumber is removed from its habitat. If that’s not enough for you, they also can bust out a defense called evisceration. What happens here is if the cucumber is stressed and scared enough, it will spew its guts out. That means everything, intestines, gonads, respiratory organs, everything. Now after that, you would think that’s the end but if it can get itself to a safe habitat, it can actually regenerate its organs.

Biotic Associations

These guys are generally really passive, and they don’t really interact with any other organism or with between each other really.
References:http://oz.plymouth.edu/~lts/invertebrates/Primer/text/holothuroidea.html

http://www.afsc.noaa.gov/hodiak/photo/cuke03.html

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Holothuroidea
Family Cucumariidae
Genus Cucumaria
Species miniata

Common Name: Orange Sea Cucumber

 

Other Members of the Phylum Arthropoda at Race Rocks 
taxonomyiconReturn to the Race Rocks Taxonomy
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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.

 March OctoberFebruary , 2002, Andres Jennings (PC yr 28)

Psolus chitonoides: creeping pedal sea cucumber

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Predation of a Psolus chitinoides by a sea star is examined and discussed by Laura and Nadege. The stomach of the sea star surrounds the sea cucumber and the soft neck and mouth of Psolus is well inside the cavity of the sea

 

Sea cucumbers have inhabited the world’ s oceans for about 400 million years. Psolus chitonoides is an unusual species of these marine invertebrates. Its diverse characteristics have given it 4 common names: Armoured sea cucumber, Creeping armoured sea cucumber, Slipper sea cucumber and Creeping pedal sea cucumber.

Compare the tentaclesof Psolus with the end of the California Sea Cucumber to the left. Photo by Dr.A.Svoboda

Tentacles of P.chitinoides

A-Description

As all echinoderms, the creeping pedal cucumber has a spiny skin. Also, its appearance is closer to a chiton than to a sea cucumber (here is the origin of its name “chitonoides“).

1-External features:an oval body (7cm long to 5.8 cm wide) domed dorsally with stiff, shingle-like scales, flat, flexible sole ventrally. Its tentacles(8-10) are dendritic, equal in size, or 8 large and 2 small. Also observing the body, it could be compared to an elongate cylinder lying on its side with the mouth at one end and the anus at the other. The rows of tube feet run the length of the body

2-Internal features: the tentacle ampullae, the rete mirable and cuverian organs are absent . On the other hand, we can observe the presence of retractor muscles. Respiratory trees are “y shaped”. Note that its madreporic body is attached to a dorsal mesentery. Its internal calcareous skeleton is composed as following:calcareous ring with anterior processes only. Psolus chitonoides is characterized by typical skin ossicles, where one type of circular perforated plate (some with knobs coalesced into a raised network) occur only in the ventral sole.

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Holothuroidea
SubclassAspidochirotacea
Order Dendrochirotida
Family Psolidae
Genus Psolus
Species chitonoides
Common Name: Creeping pedal sea cucumber
B-Physiology and Biology

1-Suspension feeder: tentacles trap larger particles (larger than 2mm) by bending inwards to form a cagelike enclosure. The mouth lips extend toward the particle as the nearest tentacle pushes it into the mouth .

2-Reproduction : the reproductive organs of a sea cucumber generally consist of 1 or 2 tufts of elongated tubules in the forepart of the body cavity.Spawning occurs annually, from mid March ot late May, commonly in the early morning. A spawning male will swab its genital papilla with its tentacles, then lift the tentacles to disperse the sperm . Females release long ropes of brick red eggs; fertilized eggs develop into pelagic lecithotrophic vitellaria larvae. Late larvae and early juveniles are negatively phototatic and settle gregariously.

3- Respiratory system: its water vascular system is a hydraulic system made up of tubes and valves that operate rows of extendible tube feet . As other sea cucumbers, Slipper sea cucumbers respire through their tube feet, body wall and respiratory trees.

4-Chemicals: there are toxic chemicals (saponins) on its tentacles, discouraging predators from nipping the tentacles. For example, even the Kelp Greenling (Hexagrammos decagrammus), which feeds on sea cucumbers, avoids this species.

C-Predators, parasites and commensals

1-Sea stars and fish are the main predators of the Psolus chitonoides.

2-Parasitic forms of flatworms and snails can live inside the sea cucumber

3-Commensal organisms are mostly scales that mimic the colour of sea cucumbers, and crawl on their skin.

D-Habitat

From exposed coast to sheltered inlets; although it seems to prefer clean, vertical rock that is free of sediment. Its soft, flat sole enables it to attach firmly to rock.

E-Range

Aleutian Islands to Baja California ; intertidal to 247m ; common in shallow subtidal areas.

References:

Kozloff, E.N. Keys to the Marine Invertebrates of Puget Sound , the San Juan Archipelago, and Adjacent Regions.

Lambert, P. 1997. Sea cucumbers of British Columbia, Southeast Alaska, and Puget Sound. UBC Press,

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.

 March October 2003-  Rahilla (PC)

Solaster dawsoni :Morning Sun star– The Race Rocks Taxonomy

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Description

Solaster dawsoni, named after its finder is an eight to sixteen armed starfish. Ranging from grey, yellow, brown or red with light patches covering the upper surface of its body, this sea star looks very much like a “sun”. It can grow up to a radius of 25cm (10″) with the central disk in between the arms a third of its total radius. It has radial symmetry and an endoskeleton like most other starfish and again, uses the normal water vascular system. It moves around on tube feet and therefore is a very slow moving animal. It breaths through skin gills.

Habitat

Solaster dawsoni resides in the cold, rocky intertidal and subtidal costal waters of the west coast of America, ranging from Alaska right down to California. It lives on a variety of bottom types, and can survive from the low tide line to around 420 metres (1200 feet) deep.

Feeding

Solaster dawsoni, unlike other species, preys on other sea stars. It is the “feared” predator of the orange cucumber and other starfish have been known to flee when touched by it. It will even prey on its own kind including its very close relative Solaster stimpsoni. This sea star also eats sea cucumbers and diamondback nudibranchs. Solaster dawsoni has to either overlap or grasp its prey before it can secure it and because of its slowness this may be the only way it can catch its prey. Because of sea stars’ “blindness”, a large sea star will sometimes flee when touched by a small one. In this way, Solaster dawsoni has been known to kill larger sea stars than itself.

ReproductionThe sun star spawns in the period of March to June when the ovaries contain the full sized oocytes (eggs). It releases large yolky eggs which float to the surface, where they are fertilized and develop into pelagic non-feeding larvae which are also buoyant. At this stage the larvae can not feed but can swim around. From here they then develop into sea stars.Defences and PredatorsAs the most fearsome of all the starfish, Solaster dawsoni is almost completely safe in the water. As mentioned already, one of this sea stars only predators is in fact, its own species.Biotic interactionSolaster dawsoni is a very passive organism. Living on its own, the only interactions it has are with its prey. Also during reproduction, the male and female are much closer together.

Domain Eukarya
Kingdom Animalia
Phylum Echinodermata
Class Asteroidea
Order Spinulosida
Family Solasteridae
Genus Solaster
Species dawsoni
Common Name: Morning sun star

 

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.

 February 2002 Joe Downham(PC year 28)