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 CODAR – Coastal Radar
The installation of the first Coastal Radar (CODAR) station at Westshore Terminals, south of Vancouver, is well underway. When complete, in September, radial surface velocity data will be available through the VENUS website. The second CODAR station, located 22 to the north, will be operational in 2012. By combining data from both stations, VENUS will provide surface current maps in the Southern Strait of Georgia every 30 minutes.
BC Ferries Instrumentation
The installation of an instrument system on the M/V Queen of Alberni is also rapidly progressing. In October, during a scheduled maintenance dry dock period, the hull will be fitted with an external pod 2 m below the waterline. A suite of instruments will take standard measurements that will be recorded in a data logger and then transmitted via satellite to the database at UVic. Within minutes, the latest data will be available on the VENUS website. Our longer term plan is to make the data available to ferry passengers, too.
Buoy in Saanich Inlet
The design of the buoy profiling system is nearing completion. Development of the winch system and instrument interfaces has been underway for several months. The expected delivery date for the winch system is November 2011. It will then undergo integration testing before eventually taking its place on the buoy. Surface to seafloor profiling operations will begin in summer 2012 after we link this mid-Inlet system to the VENUS node.
Bluefin AUV (Ocean Technology Lab, UVic)
The Ocean Technology Lab (UVic, Engineering Dept), a long-time partner of VENUS, has made significant progress integrating an instrument suite into their AUV. The OTL team plans testing of the vehicle in August in Saanich Inlet.
In June 2011 issue, Ocean News & Technology presented annual update on major ocean observing projects and initiatives that are taking place in different parts of the world. VENUS Phase II – Expansion was featured as part of the update.
Full story is available at http://www.ocean-news.com/home/1053-june-feature-story.
VENUS team members assemble a portable transponder in April 2011 at the Roberts Bank coal terminal in Tsawwassen. The transponder was used to map the antenna pattern of the planned “CODAR” (coastal radar) installation in a 1 km circle around the antenna site.
Once installed, the CODAR system will have the ability to measure surface ocean currents almost all the way across to Galiano Island (visible in the background) on the opposite side of Georgia Strait. It may be possible to use BC Ferry vessels, like the one seen in the distance, as passive radar reflectors in order to measure antenna patterns. This will corroborate (but not completely replace) antenna patterns measured using transponders from small, open boats.
During the week of April 12th, the VENUS Engineering team tested several locations for CODAR antennae installation. This week’s Image of the Week shows the radial coverage pattern from one of the proposed sites: Westshore Terminals, site 2.
Ultimately, the VENUS CODAR system will employ two CODAR stations, one at IONA and one at the Westshore Terminals. When both stations are installed (2011), we will obtain and serve our users radial current vector data for the entire region between the two stations located 20 km apart.
For more details on Phase II developments visit: http://venus.uvic.ca/research/venus-phase-ii/
Several projects have begun to take shape as part of the VENUS Phase II.
Our current activities for Saanich Inlet centre on the profiling system. The former CTD Station SI-6, located 4 km south of the VENUS Node, was selected through consultations with users. We have applied for permit to install a fixed buoy there. The engineering group is in the final stage of selecting a supplier for the winching system, and a 7m buoy has been secured from DFO through Crown assets. The buoy will be refurbished and customized to support the winching system, which will be cabled directly to the VENUS Node. We anticipate the Buoy Profiling System (BPS) will be operational in the summer of 2012.
We have also ordered an Environmental Sample Processor (ESP) from Spyglass Bio-security through our collaboration with UBC. The ESP is a water sampling system that performs genetic analysis in situ. This instrument system is slated to be integrated on the profiler instrument cage in 2013.
In the Strait of Georgia, several initiatives are underway. The Central Node has been upgraded and redeployed, now with eight ports which doubles its capacity to support science packages.
The East Node is currently out of the water to get the same upgrades. It will be redeployed in February 2011.
Our Coastal Radar antennae (CODAR Seasonde 25 MHz), which will map surface currents of the southern Strait, have arrived. We plan to erect the antennae in two locations on the Vancouver side of the Strait. Currently, we are still waiting for permits to operate these systems but anticipate one if not both will be operational in the summer of 2011.
Three Seakeeper 1000 systems, the turnkey solution for supporting instruments on BC Ferries, have been ordered, and the anticipated delivery date for this hardware is March 2011. We will endeavour to install one of the systems on a vessel regularly traveling the Tsawwassen to Duke Point route this year. The remaining systems will be installed on the other main routes that regularly cross the Strait in 2012/13.
Stay tuned!
Now that the cabled infrastructure on the seabed is well established and robust, the VENUS Facility is entering a new growth phase following a successful grant award through the Canada Foundation for Innovation. Over the next 4 years VENUS will grow:
- Additional seafloor sensors in moveable ‘modules’;
- Remote and direct measurements at the surface (HF Radar and instrumented Ferries);
- Interactive profiling of the water column in Saanich Inlet (Profiler);
- Remote measurements made by mobile platforms (Gliders and an AUV);
- New data products and presentations.
In Saanich Inlet, the Facility will install a large powered buoy mid Inlet, cabled back to the subsea Node. On the buoy a sophisticated winching system will allow hourly profiles of the water column. The modular system will support more than 20 sensors at any given time. The Inlet is an ideal location for biogeochemical especially in the circumstance of growing hypoxia in the ocean.
The Strait of Georgia is the second busiest waterway in North America, and is also home to the outflow of a major salmon spawning river. The VENUS cabled array in the Strait supports real-time science on whale vocalizations, sediment transport, salmon abundance and the stability of the delta slope. We will expand VENUS capabi-lity with HF radar antennae, providing surface current and wave information to scientists, shipping, rescue coordination agencies, among others. Furthermore, the Facility will instrument several Ferries to enable the measurement of oceanic and meteorological surface conditions in the Strait. These data, as with the radar information, will be transmitted back to the database made available online.
For the first time, the Facility will deploy mobile assets to allow scientists to sample in ways, places and conditions that would otherwise not be possible. To obtain water column properties in the tidally dynamic Strait, ocean gliders will gather data such as temperature, salinity, oxygen, chlorophyll-A and turbidity as they travel from surface to seabed.
In collaboration with the Ocean Technology Laboratory at UVic, the Facility will also offer scientists access to an AUV. The vehicle will undergo a retrofit to enable additional sensor technologies and capabilities, including modes for seabed tracking and profiling.
Five specialized platforms will support research on seafloor processes by configuration to suit evolving experiments anywhere within the Facility. Each platform will have up to 12 instruments focused on a study theme. Cameras (Near-Infra-Red, Acoustic, Digital), current and turbulence sensors, chemical and sediment sensors etc. will be used, often in novel ways and applications. These sub-sea Laboratories will be unique in scope, flexibility, and access.
All of these systems are reliant on a complex data management system. The existing infrastructure is now well understood and managed. The arrival of these new technologies and data will undoubtedly introduce associated challenges, both at the outset and operationally over the years. Perhaps the greatest challenge for the science community at large will be the synthesis and integration of all of this information derived from different sources.
VENUS recognizes this challenge. Ultimately the goal is to become an integrated observing system that serves focused studies on the seabed but also encapsulates all the sensing information to provide over-arching forecasts of the state of the coast.
The Strait of Georgia Central Node Pod was successfully recovered on August 28 using the Oceanic Explorer ROV. The Node Pod contains all the Node controllers and network switches. The upgrades will bring the internal workings of the Node up to the latest design standards of the Node manufacturer, Ocean Works International of North Vancouver. Also recovered for servicing were the Central VIP with a SBE CTD, an RDI ADCP, a 38 kHz AWCP, and the VENUS Web Cam. The Central Node Pod and VIP are scheduled to be re-deployed in December.
We have just heard that the first part of an $11M request is granted. Last fall, forty-two scientists contributed to a new grant proposal to the Canada Foundation for Innovation with a companion submission for matching funds to the BC Knowledge Development Fund. The peer review through CFI recommended full funding. The Subsea Online Laboratories proposes to expand greatly the scope of VENUS and aid developments in NEPTUNE Canada. The concept was two-fold: one, to develop movable modules to execute comparative studies in different VENUS locations and two, to explore the third dimension through profilers, autonomous vehicles, and instruments on the surface. A major goal is enhancement of data delivery products. While we must wait until matching funds are confirmed, there is no reason not to start planning. Now that our basic infrastructure is operative, we look forward to working with researchers to plan the tools for new adventures in discovery.
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CODAR – Coastal Radar 
