Charadrius vociferus: Killdeer- The Race Rocks Taxonomy

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Killdeer are migratory visitors to Rave Rocks Ecological Reserve. Their calls are often heard at nigth in the spring

Domain Eukarya
Kingdom Animalia
Phylum Chordata
Sub-Phylum Vertebrata
Class Aves
Order Charadriiformes
Family Charadriidae
Subfamily Charadriinae
Genus Charadrius
Species vociferus
Common Name: Killdeer

reference link: http://www.birds.cornell.edu/AllAboutBirds/BirdGuide/Killdeer_dtl.html

Other Members of the Class Aves at Race Rocks.

taxonomyiconReturn to the Race Rocks Taxonomy
and Image File
April 2009 Garry Fletcher

Dr. Anita Brinckmann-Voss and Hydroid Research at Race Rocks

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anitaDr. Anita Brinckmann-Voss  passed away in December of 2017.

From 1986, to 2005,  Dr. Brinckmann-Voss of Sooke, BC assisted the students and faculty of Lester Pearson College with her understanding of marine invertebrate ecology and her expertise in the taxonomy of hydroids.  These small colonial animals, the alternate stage of the life-cycle of jellyfish, occur in rich profusion underwater at the Race Rocks Marine Ecological Reserve.  When the original species list was done for the Race Rocks Ecological Reserve Proposal, in 1979, only 2 hydroids had been included on our species list. Now over 60 species have been identified by Anita and she continued to assist students with research projects while she furthered her research on specimens from the island until 2004. Anita has established long term research plots in a tidepool at the reserve and documents the distribution of hydroids underwater with the assistance of students and faculty in the Diving program at Lester B. Pearson College. Below: Anita accompanied Garry, Chris and Joe on a dive to Secretary Island, West of Race Rocks up the Strait of Juan de Fuca towards Sooke. The purpose was to collect samples for hydroid specimens.  

anitaandsvobodaDr. Armin Svoboda and his son Hanno visited Race Rocks with Chris Blondeau and Dr. Anita Brinckmann-Voss in August of 2004. His pictures taken on a dive there are linked here.

 

 

 See this link for the hydroids identified by Anita. https://www.racerocks.ca/tag/hydroid/ 

See all the posts on this website tagged with Dr. Anita Brinckmann-Voss

bellatitle-1Gallery of photomicrographs of Hydroids- photos by Dr. Anita Brinckmann-Voss

tubulariaVideo on the habitat of a rare Tubularia

 

 

 

 

 

westshorePhotos of  Intertidal Hydroid Habitat on West side of Race Rocks .

 

 

 

 

PUBLICATIONS of Dr. Voss from her Research at Race Rocks Ecological Reserve :

 1. Brinckmann-Voss, A. , Lickey, D.M. , and Mills, C.E. 1993 Rhysia fletcheri (Cnidaria, Hydrozoa, Rhysiidae), a new species of Colonial Hydroid from Vancouver Island British Columbia, Canada) and the San Juan Archipelago (Washington, USA) . Canadian Journal of Zoology 71: 401-406

Abstract: 

  • A new species of colonial athecate hydroid, Rhysia fletcheri , is described from Vancouver Island, British Columbia, Canada, and from Friday Harbour, Washington, U.S.A. It’s relationship to Rhysia autumnalis Brinckmann from the Mediterranean and Rhysia halecii (Hickson and Gravely) from the Antarctic and Japan is discussed. Rhysia fletcheri differs from Rhysia autumnalis and Rhysia halecii in the gastrozooid having distinctive cnidocyst clusters on its hypostome and few, thick tentacles.
  • hydrfemeMost of its female gonozooids have no tentacles. Colonies of R. fletcheri are without dactylozooids. The majority of R. fletcheri colonies are found growing on large barnacles or among the hydrorhiza of large thecate hydrozoans. 
  • Rhysia fletcheri occurs in relatively sheltered waters of the San Juan Islands and on the exposed coast of Southern Vancouver Island. Colored photos of Rhysia males. females and gastrozooids are included.

 2. 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 Advances in Hydrozoan Biology , Vol 60 (1):89-97

Abstract:

  • An assemblage of 27 hydroid species was reported from a tide pool in the lower rocky intertidal zone, and compared with 42 hydroids of the adjacent subtidal region. Location of hydroids within the pool, seasonal occurrence, growth and sexual maturity were tabulated, and some systematic aspects discussed. Possible causes of hydroid species diversity were considered, including location of the tide pool in an area of tidal rapids, and shading by surf-grass and rock cliffs during low tide.

Lepeophtheirus.sp: Sea Louse–The Race Rocks Taxonomy

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parasite

Close up of parasitic sea lice on the head of a ling cod. Photos  by Dr. Armand Svoboda

lepeophtherius sp.

Lepeophtheirus.sp: Sea Louse-on the head of a ling cod — photo by Dr. A. Svoboda

Domain Eukarya
Kingdom Animalia
Phylum Arthropoda
Suphylum Crustacea
Class Maxillopoda
Order Siphonostomatoida
Family Caliguidae
Genus Lepeophtheirus
Species sp.
Common Name: Parasitic copepod

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. Garry Fletcher

 

Tidal Currents and Current Measurement at Race Rocks

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The current at Race Rocks had just changed to a flood – it would be getting up to 6 knots in a few hours, so it was probably at about 5 knots at this time.

currentnowsTidal Current Predictions for  Race Passage
Prediction: Graph 

 

Race Passage Current tables, 2021

 

 

 

ADCP6Along with the installation of the Tidal Current turbine,  an ADCP was installed to give real time profiles of the Currents at Race Rocks. See the attached file for the type of profile that was generated:Sample of the result of the data analysis at Site 1:

 

sw24mThe Creation of the Race Passage Current Tables

 

 

 

Map of Currents at Race Rocks from ADCP tests

 

 

 

 

awac2See the video on wave and current measurement using the Acoustic Wave and Current instrument.

 

 

waterpropertiesWater Properties in Juan de Fuca

 

 

 

 

cursymbField Lab on Current Studies using Drogues.

 

 

 

tomiondeck1stomiondeck1sOceanographic
Research on Mixing in upwellings
of Race Rocks

 

 

kallesKalle Kallestrom’s essay on The biotic associations on the Current meter Block

 

 

 

deweysStratified Tidal Flow over a Bump
Richard Dewey,et al–Interactions of stratified flow on an isolated topographic feature: a bump to the east of Race Rocks.

 

ebbs MATLAB charts of barotropic currents to the east of Race Rocks.

 

 

 

generatorsLink to the Tidal Current Power Project

 

Boat runs Aground at Race Rocks

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See the shipwrecks File

Adopt an Ecosystem

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BACKGROUND: “Adopt an Ecosystem” involves using the internet as a means to get individuals and groups in other communities: provincial, state, national and international, involved in collaborating with others, and providing an educational resource while ensuring the stewardship of their own local ecological resources.

OUTLINE WITH POWER POINT PRESENTATION:
This 10 step outline presents the basic model of how to go about setting up an Adopt an Ecosystem Project in your school or organization.

 

THE PROCESS:
We are urging individuals, school groups and service groups in communities to establish internet files on a local natural area which they are able to document easily at a number of levels of scientific sophistication. This natural area may be a small corner of a school yard, a piece of coastline, a local stream or pond, or it could be an established ecological reserve or park. Valuable long-term baselines can be established with students of each year or individuals leaving a “digital legacy’ or a permanent on-line record which is available for other classes to make additions and updates in the future.
THE IMPORTANCE OF THE “PROCESS”

By involving individuals in the documentation and monitoring of their adopted ecosystem, a sense of “ownership” of one’s ecosystems and responsibility for their stewardship is experienced. In addition participants are encouraged to use technology to assist in the accumulation of valuable long-term ecological information which can serve as baselines for environmental impact decisions in the area, and as a valuable baseline on the area’s biodiversity.

OBJECTIVES: (The teacher and class may decide on setting their goals for this project, using only a limited number of the suggested activities.) After doing this assignment, students will be able to:

a) Design a plan and procedure for the creation of a local : “Adopted Ecosystem”

b) Use field methods involving quantification to document the chosen ecosystem with a baseline inventory.

c) Use a Spreadsheet program for the analysis and recording of locally collected data.

d) Set up a weather station for collection of weather data.

e) Construct a species list and/or taxonomy of the local organisms in the “Adopted Ecosystem”.

f. iNaturalist contributions Recently I opened an account on iNaturalist.com . I have been able to add many pictures of species taken around the Metchosin coast, as well as other locations. https://www.inaturalist.org/observations/garryf

It is a great idea to contribute to iNaturalist so by opening a free account on iNaturalist.com it  is a good way to do establish a baseline for organisms in your ecosystem and get professional assistance from experts for identification of species.  for instance for the biodiversity project the following entries are recorded by various individuals, https://www.inaturalist.org/projects/metchosin-biodiversity

f) Setup a website dedicated to the collection of resources relating to your locally adopted ecosystem.

g) Outline the Ecosystem Services and the value of the Natural Capital of your adopted Ecosystem.

PROCEDURE:. Identify the area and describe the ecological features that make the area unique, important or just representative of other surrounding ecosystems. Also indicate what your group intends to do with it.

2. You may indicate time lines for your goals, and even designate responsibilities to different group members in order to help you plan your strategy.

3. Establish a good “baseline inventory ” of what is there presently. Many ecological techniques are available to quantify organisms and their distribution. You may use our Transect Files as an example.

4. Establish a class project to provide a taxonomy of the species of your local ecosystem.

5. Include dated maps, databases, taxonomic inventories, checklists, photographs, videos or drawings to document your site. Open a project on iNaturalist.com  that enables you to enter photos of species and have experts help in making identifications

6. Begin monitoring the site for aspects of its structure and function. For structure: what living things are there, how they are distributed, what relationships or biotic associations exist. Also, the structure includes physical factors such as temperature, salinity, etc. –start gathering long term data, enter it into a database (such as excel), and save it to the internet site so that others can download and manipulate the data.

7.Download Google Earth and make a 3 dimensional image of the area with your ecosystem.

8. Search for historical and other recent maps or charts of your area. Include these as part of the information recorded.

9. If you have access to your own internet site, assemble the information on the site, let us know its location and we will provide a link to your site from racerocks.ca.

10. Establish a Project to list and value the Ecosystem Services and Natural Capital of your ecosystem. In recent years, we have started to acknowledge that “ecosystem services ” are something to which we must start paying attention as to fail to do so leads to a decline in quality of life:
This file explores that idea further and invites you to contribute to a new project : Defining the Ecosystem Services of Race Rocks. By looking at the model of such services developed for Race Rocks, you might also get an idea how you could choose a part of your own local ecosystem and do a similar analysis.

11. In the fall of 2005 we installed a Davis Weather Instrument at Race Rocks for real time monitoring of a number of meteorological events.

From this environmental data index page, you can see how we are developing pages for each environmental abiotic factor and interpreting how that factor is important in the ecosystems of Race Rocks. Many schools already have weather stations installed. Here are some examples from the Victoria area:

Send inquiries to: Garry Fletcher

Pionosyllis sp. : Necklace worm– Race Rocks Taxonomy

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rm241010pionos2l

Pionosyllis sp. necklace worm , photo by Ryan Murphy

 

Pioosyllis.

This annelid has only been observed a few times at Race Rocks, this photo was taken by Johan Ashuvud (PC yr 5) in 1980.

In Marine Life of the Pacific Northwest, this species is referred to as the “mystery necklace worm” .Detailed examination of the palps, teeth, cirri and chaeta are necessary for identification.

Below is another annelid from the gallery of images taken by Ryan Murphy in 2010 when he was Ecoguardian at Race Rocks.

wormicon

Domain: Eukarya
Kingdom: Animalia
Phylum: Annelida
Class: Polychaeta
Order:  Aciculata
Family:  Syllidae ?
Genus: Pionosyllis ?
Species sp:
Common Name: Necklace worm?
Other Members of the Phylum Annelida at Race Rock

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.

Propane generators to be used as a backup system

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Once into the tidal generating process, the engineers found out that these generator units were no longer necessary, so they have been removed

First Nations Burial Cairns on Great Race Rock Island

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The configuration of the rocks in several stone mounds at Race Rocks are suggestive of First Nations use of this area for burials in the period AD 500. Investigation into sites on the lower part of Vancouver Island, have shown that over 400 such sites exist on the nearby Rocky Point area.
These sites have recently been the subject of a Master’s thesis by Darcy Mathews of the Anthropology Department, University of Victoria.

Darcy Matthews visited today to document these cairns.

For the complete reference to this topic go to http://www.racerocks.com/racerock/firstnations/burialmound/burialmound.htm