Category Archives: Invertebrate

Membranipora serrilamella: Kelp-encrusting Bryozoa

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The colonial marine bryozoan Membranipora serrilamella, formerly referred to as Membranipora membranacea. produces a planktonic larva that is encased by a triangular bivalved shell. Following a relatively long free-swimming phase, the larva settles as an epizootic colony on the blade of laminarians and other subtidal marine algae. It then undergoes a metamorphosis to become the sessile progenitor of the colony, referred to as the ancestrula”.

Encrusting colonies are typically found on marine algae on the lower shore to shallow water. Found encrustating in kelps and other large seaweeds, especially common on the brown algae Laminaria, but can also be found growing in rocks, glass, floats or other.
Description: This epiphiytic bryozoan forms encrusting lacy matlike colonies of very small, rectangular aurozooids 0.42 x 0.13 mm. with tubercules or short spines in the corners. Each zooid has lateral calcified walls that contain ventral incalcified bands providing flexibility; A frontal membrane completely roofs the space between the supporting side walls with a lophophore (feeding tentacles) visible within. Tower zooids may also be present, where the frontal membrane projects upwards in a columnar way. Forms white, disc-like colonies, approx. 1 mm high and up to and over 100 mm wide. Zooids are rectangular and for together neatly in radially arranged rows that grow outward and branch into new rows as the pattern frows wider.
Additional information: Colonies may vary in size. Membranipora membranecea grows quickly (several mm/ day) in response to predation from sea slugs and in order to maintain its position on the kelp frond. Prolific growth is favoured by fast flowing water which provides food and oxygen. Egg production occurs once a year in the spring; the larva (cyphonautes) is planktotrophic and is the most abundant and largest coastal larva in Britain between June and August. The larva settles in late simmer-early autumn.
Natural history: Colonies are made up of hundreds or thousands of individual zooids, which are not much larger than a pond head. Their eight week growing season falls between late spring and early autumn. During this time, how they grow is dependent upon their success in the competition for space. The interaction between colonies can be cooperative to aggressive depending upon their size. Small colonies communicate by using electrical signals. Large colonies use runners called stolons from which new zooids bud from to mediate aggressive behaviors.

Domain- Eukaryota
Superphylum Prostomia
Phylum Bryozoa
Class  Gymnolaemata
Order Cheilostomatida
Suborder: Malacostegina •
 Family:  Membraniporidae •
Genus: Membranipora de Blainville, 1830
species: M. serriamella

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 8 2005- Fredy ( PC 32)

 

Nematode species–The Race Rocks Taxonomy

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Nematodes are abundant in decomposing material and are common as parasites in a number of animals.

This specimen was found in a collection of live material, hydroids, sponges and colonial ascidians that Laura collected at a depth of 15 meters, near the turbine site.

Domain Eukarya
Kingdom Animalia
Phylum Nematoda
Class
Order
Family
Genus
Species  sp.
Common Name: roundworm
This file is provided as part of a collaborative effort by the students, faculty, Staff, and volunteers of Lester B. Pearson College

2005
 Sylvia Roach

Clavactinia sp. Photomicrography of Dr. Anita Brinckmann-Voss

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Classification: Biota Checked: verified by a taxonomic editorAnimalia (Kingdom) > Checked: verified by a taxonomic editorCnidaria (Phylum) > Checked: verified by a taxonomic editorHydrozoa (Class) > Checked: verified by a taxonomic editorHydroidolina (Subclass) > Checked: verified by a taxonomic editorAnthoathecata (Order) > Checked: verified by a taxonomic editorFilifera (Suborder) > Checked: verified by a taxonomic editorHydractiniidae (Family) > Checked: verified by a taxonomic editorClavactinia (Genus) sp. (species not identified)

These images were scanned from 35 mm.slides taken by photomicrography of samples collected on permit at Race Rocks by Dr. Anita Brinckmann-Voss* with the assistance of students and faculty of Lester B. Pearson College. Scanning and preparation for html was done by Garry Fletcher.

Copyrighted 1999–All Images on this page are the property of: Dr. Anita Brinckmann- Voss They can not be used or modified without her written permission.

see this link for other hydroids:  https://www.racerocks.ca/tag/hydroid/

* All hydroid species shown on this website have been reported in :Brinckmann-Voss, A. 1996.- Seasonality of hydroids (Hydrozoa, Cnidaria) from an intertidal pool and adjacent subtidal habitats at Race Rocks, off Vancouver Island, Canada. Scientia Marina 60 (1):89-97.

Hydroid photomicrography by Dr. Anita Brinckmann-Voss

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Find the individual file on these species photographed by Dr.Brinckmann- Voss in the Race Rocks taxonomyo

See this link for all the hydroid entries:  https://www.racerocks.ca/tag/hydroid/

These images were scanned from 35 mm.slides taken by photomicrography of samples collected on permit at Race Rocks by Dr. Anita Brinckmann-Voss* with the assistance of students and faculty of Lester B. Pearson College. Scanning and preparation for html was done by Garry Fletcher.

Copyrighted 1999–All Images on this page are the property of:
Dr. Anita Brinckmann- Voss They can not be used or modified without her written permission.

* All hydroid species shown on this website have been reported in

:Brinckmann-Voss, A. 1996.- Seasonality of hydroids (Hydrozoa, Cnidaria)

from an intertidal pool and adjacent subtidal habitats at Race Rocks,

off Vancouver Island, Canada. Scientia Marina

60 (1):89-97.

Return to the file on Dr. Anita Brinckmann-Voss

Mycale toparoki: yellow sponge–The Race Rocks taxonomy

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In the work of Dr. Gitai Yahel on filter feeders at Race Rocks, this was one of the species of sponge he submitted for further identification.

yellowsponge

In the area where the tidal current turbine is to be placed, this species is abundant.

mycale1

taxonomy work by Prof. H.M. Reiswig,

mycale2

Microscopic drawings of the spicules

Domain Eukarya
Kingdom Animalia
Phylum Porifera
Class Demospongia
Order Poeciloscierida
Family Mycalidae
Genus Mycale
Species toparoki Koltun, 1958
Common Name: yellow sponge?
This file is provided as part of a collaborative effort by students, volunteers, faculty, staff and researchers of Lester Pearson College
 Date: 2005 Dr.Gitai Yahel

Link to other sponge specimens from Race Rocks

Return to the Race Rocks Taxonomy 

 

Abietinaria rigida : The Race Rocks Taxonomy

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In this picture, the biotic associations of the rock scallop can be seen to consist of several hydroid species. Abietinaria rigida  is number 3. scallopnumbered   Ectopleura is numbers 1 and 5.

Domain Eukarya
Kingdom Animalia
Phylum Cnidaria
Class Hydrozoa
Order Leptothecata (=Leptomedusae)
Family Sertulariidae
Genus Abietinaria
Species rigida, Nutting 1904
Common Name:  ———–

This file is provided as part of a collaborative effort by the students,volunteers,staff and faculty of Lester B. Pearson College. 2005.

see this link for other hydroids:  https://www.racerocks.ca/tag/hydroid/

Species List for the West Side of the Race Rocks Jetty , 2005

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This list was compiled by Pam Thuringer of Archipelago Marine on May12, 2005. She examined the west side of the docks exposed at a 0.35m tide as part of the Environmental Impact assessment for the Tidal Current Project.

Invertebrates Balanus glandula many
Semibalanus cariosus many
Hemigrapsus nudis few
Mytilus californianus few
Sponge ( orange encrusting species) few
Katharina tunicata few
Littorina scutulata many
Tectura persona few
Lottia pelta few
Anthopleura elegantissima few
Lirubuccinum dirum few
General Group Species Occurence
Brn. Algae Nereocystis luetkeana sparse
Fucus sp. sparse
Leathesia difformis sparse
Hedophyllum sessile abundant
Alaria marginata abundant
Costaria costata few
Red Algae Mazzaella splendans few
Mastocarpus pappilatus sparse
Halosaccion glandiforme few
Lithothamnion sp. few
Odonthalia floccosa sparse
Polysiphonia sp. sparse
Coralline algae. several species sparse
Porphyra perforata sparse
Endocladia muricata sparse
Green Algae Ulva sp. sparse
Acrosiphonia sp. few

Solmissus marshalli –The Race Rocks Taxonomy

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solmissus

Solmissus sp. taken from the video linked below.

Solmissus marshalli lives in the midwater zone of seas. It feeds by swimming slowly with its tentacles stretched out. When animals bump into the tentacles, stinging cells fire and hold on. Depending on the size of the prey, it can take a jellyfish up to two hours to move food from its tentacles to its stomach. The jellyfish feeds on gelatinous animal plankton, other jellies and copepods. It is a secondary consumer.

In this video you can see two different species of jellyfish, Solimissus marshalli and Mitrocoma cellularia. These invertebrates are part of the phylum Cnidaria which include hydroids, scyphozoan jellyfishes, sea anemones, sea pens and corals. They are constructed of 2 layers of cells-the outer covering and the inner covering of the digestive cavity. Between is a jellylike layer (mesoglea). Some cells are specialized for digesting or stinging. The jellyfish is the sexual ‘medusa stage’ of a hydroid. The hydroid medusa has a membrane (velum) that grows inward from margin of the bell. Most of the 60 or so local jellyfishes are medusaes of hydrozoans; surprisingly very attractive, but usually very small and they often go unnoticed. These specimens were videoed by Jean-Olivier Dalphond and Damien Guihen on a sunny day of June 2001. Identification was by Dr. Anita Brinckmann-Voss. Anita regularly samples the waters of Race Rocks as well as nearby Eemdyck passage, Beecher Bay , Pedder Bay and Sooke harbour where the upwelling water from the Strait of Juan de Fuca often brings numerous medusae.

Species recognized by World Register of Marine Species (WoRMS) Biota Animalia

Cnidaria

Hydrozoa , Owen

Narcomedusae Haeckel 1879

Cuninidae Bigelow 1913

Solmissus

Solmissus marshalli Agassiz & Mayer, 1902

See this link for other hydroids:  https://www.racerocks.ca/tag/hydroid/
Other Members of the Phylum Cnidaria 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. 

Lester B. Pearson College:
2005 Debra Quek PC Yr 31

 

 

Mitrocoma cellularia : jellyfish – Race Rocks Taxonomy

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mitrocoma

Mitrocoma cellularia


In this video you can see two different species of jellyfish, Solimissus marshalli and Mitrocoma cellularia. These invertebrates are part of the phylum Cnidaria which include hydroids, scyphozoan jellyfishes, sea anemones, sea pens and corals. They are constructed of 2 layers of cells-the outer covering and the inner covering of the digestive cavity. Between is a jellylike layer (mesoglea). Some cells are specialized for digesting or stinging. The jellyfish is the sexual ‘medusa stage’ of a hydroid. The hydroid medusa has a membrane (velum) that grows inward from the margin of the bell. Most of the 60 or so local jellyfishes are medusaes of hydrozoans; surprisingly very attractive, but usually very small and they often go unnoticed. These specimens were videoed by Jean-Olivier Dalphond and Damien Guihen on a sunny day of June 2001. Identification was by Dr. Anita Brinckmann-Voss. Anita regularly samples the waters of Race Rocks as well as nearby Eemdyck passage, Beecher Bay , Pedder Bay and Sooke harbour where the upwelling water from the Strait of Juan de Fuca often brings numerous hydroid medusae. 

From NCBI taxonomy

See this link for other hydroids:  https://www.racerocks.ca/tag/hydroid/ Link to the Race Rocks Taxonomy index

This file is provided as part of a collaborative effort by the students, faculty, staff and volunteers  of 
 Date:
2005		 Garry Fletcher

Caprella laeviuscula: Caprellid shrimp– The Race Rocks Taxonomy

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We found these Caprellids at a depth of 20 metres attached to hydroids on a Balanus nubilus. They frequently dwell amongst hydroids. The size of this individual was 3mm. These individuals were photographed using a Motic Digital Microscope at 10X magnification. Note the response to stimulation by a dull probe.

In the picture below , the current meter float which was in the water for a year, came up covered with Caprellids. See this file on the Current meter:

Look closely to see these tiny skeleton shrimp clinging to bryozoans, hydroids or algae. Their body shape and color help the shrimp to blend into their background. Their bodies are long, cylindrical and range from pale brown and green to rose. Some species can quickly change color to blend into their backgrounds.

Skeleton shrimp look like, and sometimes are called, “praying mantises of the sea.” They have two pairs of legs attached to the front end of their bodies, with three pairs of legs at the back end. The front legs form powerful “claws” for defense, grooming and capturing food. The rear legs have strong claws that grasp and hold on to algae or other surfaces. They use their antennae for filter feeding and swimming.

Diet
diatoms (microscopic plants), detritus, filtered food particles, amphipods 
Size
to 1.5 inches (4 cm) long 
Range
low intertidal zone and subtidal waters in bays,

Conservation Notes

Skeleton shrimp are abundant and live in many habitats, including the deep sea. They play an important role in the ecosystem by eating up detritus and other food particles. 

Cool Facts

Shrimp, sea anemones and surf perch prey on skeleton shrimp. The females of some skeleton shrimp species kill the male after mating. 

Skeleton shrimp use their front legs for locomotion. To move, they grasp first with those front legs and then with their back legs, in inchworm fashion. They swim by rapidly bending and straightening their bodies. 

To grow, skeleton shrimp shed their old exoskeletons and form new, larger ones. They can mate only when the female is between new, hardened exoskeletons. After mating, the female deposits her eggs in a brood pouch formed from leaflike projections on the middle part of her body. Skeleton shrimp hatch directly into juvenile adults.

Source: Monterey Bay Aquarium:
Online Field Guide http://www.mbayaq.org/efc/living_species/default.asp?hOri=1&inhab=521

Other Members of the Phylum Arthropoda 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. This file was originally started by Kevin Mwenda PC Yr 31