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$2 Million Supports Ocean Observatories
Overview
**NEWS RELEASE** Two revolutionary, interactive seafloor observatories led by the University of Victoria will benefit from more than $2 million in new funding from CANARIE Inc., a national organization that promotes advanced networks and applications. The NEPTUNE Canada (North-East Pacific Time-series Undersea Network Experiments) observatory, will lay 800 km of fibre optic cable and instruments off the outer coast of B.C., starting in 2007. A sister observatory, VENUS (Victoria Experimental Network Under the Sea), will lay 43 km of cable and instruments in two locations off the south coast of B.C. The first 3-km leg of VENUS was installed in Saanich Inlet near Victoria in February. Both observatories will use the Internet to continuously feed data, sounds and images from the ocean depths to laboratories, classrooms, science centres and homes around the world. Scientists will gather continuous information on ocean change, seismic activity, fish and marine mammal movements, and seafloor ecology. The CANARIE funding, divided between two projects, will allow NEPTUNE and VENUS scientists to use leading-edge web services technology to communicate with their seafloor instruments and manage the large volume of data they collect. Web services are software systems designed to support machine-to-machine interaction over a network. "CANARIE is very pleased to support the NEPTUNE and VENUS projects through our Intelligent Infrastructure Program," says Andrew Bjerring, president and CEO of CANARIE. "Projects such as these are leveraging the advanced capabilities of CAnet 4, Canada’s national research and education broadband network, to provide new knowledge and break new ground in scientific endeavour." "We are delighted that our major observatory projects have attracted this level of support from CANARIE," says Dr. Martin Taylor, UVic’s vice-president research. "Computer control of the subsea sensors and autonomous and tethered vehicles from many laboratories on land represents a huge computational and communications challenge." In the first project, funded by $1.1 million from CANARIE, the NEPTUNE team is partnering with IBM Canada Ltd. to develop new technologies in software design and architecture. These technologies will ensure that NEPTUNE and VENUS instrument systems are as flexible as possible, and that data can be quickly processed and shared across platforms. "With so many types of instruments connected to the observatories we need a system that will quickly respond on its own to configuration changes," says Benot Pirenne, NEPTUNE Canada’s assistant director for information technology. "We also need powerful, efficient and intelligent data processing to turn large volumes of raw data into information." It’s estimated that the NEPTUNE and VENUS archives will have accumulated several petabytes of data after only a few years of operation. One petabyte is equal to one quadrillion bytes, or roughly the equivalent of 20 million four-drawer filing cabinets full of text. The second project, funded by more than $939,000 from CANARIE, will develop web services technology to operate the controls of underwater high-definition TV cameras hooked up to VENUS and NEPTUNE. The cameras will relay high-quality imagery from the ocean floor to the world via the Internet. Dubbed "Undersea Window," the project is led by McGill University researcher John Roston, a specialist in interactive multimedia. His partners are the NEPTUNE and VENUS teams, and Colin Bradley, director of UVic’s laboratory for automation, communication and information systems research. "This project will develop ways to interactively control camera and video transmissions from locations across the continent," says Bradley, who is responsible for the underwater engineering aspects of the project. "Ultimately, we’d like to move a camera around on an underwater vehicle, but for now we’re working on the interfaces for a stationary system where the camera can pan, tilt and zoom on command." The CANARIE contribution is being augmented with funding from industrial partners, the University of Victoria and McGill University, bringing the funding commitment for the two projects to $1.5 million and $1.3 million respectively. CANARIE is a not-for-profit corporation funded by Industry Canada to promote the development and use of next-generation research networks such as CAnet 4 and the applications and services that run on them.
$20 Million to Expand Seafloor Observatory
Overview
**NEWS RELEASE** The research capacity of the University of Victoria-led NEPTUNE Canada, the world’s first regional cabled ocean observatory, received a significant boost today with the announcement of an additional $20 million in funding. The $8 million from the Canada Foundation for Innovation (CFI), $8 million from the BC Knowledge Development Fund (BCKDF) and $4 million of in-kind support from private partners including Alcatel will allow scientists to significantly expand the scope and scientific impact of the NEPTUNE Canada observatory. Beginning in fall 2007, Alcatel will lay an 800-km network of powered fibre optic cable across the seafloor in the deep ocean off the B.C. coast. A series of laboratories, or "nodes," along the cable will allow land-based scientists to remotely control and monitor instruments, video cameras and underwater vehicles as they collect data from the ocean surface to beneath the seafloor. The observatory will revolutionize ocean research by transmitting images and data instantly to shore where they will be relayed to researchers, educational institutions, science centres and the public via the Internet. The additional funding will be used to increase the number of nodes from two to as many as six and the number of scientific instruments from 70 to more than 200. This will allow more coverage of the northern Juan de Fuca tectonic plate, permitting broader studies on such key topics as seismic and tsunami activity, ocean-climate interactions and influence on fisheries, gas hydrate deposits, and seafloor ecology. "I want to express my appreciation to CFI, BCKDF and Alcatel for recognizing the importance and significance of NEPTUNE Canada’s potential through this support," says UVic President David Turpin. "Thanks to the combined efforts of the partners in this initiative, Canada and UVic will be at the forefront of undersea research, leading the world in the use of regional cabled ocean observatories and driving the industrial discovery and advancements that will accompany it." "In addition to securing Canada’s reputation as a world leader in the field of ocean research, the potential benefits of the NEPTUNE project to Canada are numerous," says Eliot Phillipson, president and CEO of the Canada Foundation for Innovation. "From a wealth of new knowledge about our oceans to the development of new technologies, this world-class 1/2 initiative is sure to have a real and positive impact on the lives of Canadians." "NEPTUNE will position B.C. as a world leader in the multidisciplinary study of the ocean and its processes," says Advanced Education Minister Murray Coell. "High-tech will continue to be a critical part of B.C.’s economic future, and that’s why we need to invest in the people and the projects that will help ensure the best opportunities for British Columbia. I fully expect to see B.C. produce more world-class researchers as a result of their involvement with NEPTUNE." Alcatel, which operates in more than 130 countries, has played a key role in the development and implementation of the most important submarine cable networks in operation today. "We’re pleased to continue our cooperation with UVic in this exciting technological adventure that is NEPTUNE Canada," states Jean Godeluck, President of Alcatel’s submarine network activity. "This new project confirms the momentum of submarine network deployments for scientific applications enabling investigations into a wide range of phenomena, from astrophysical to oceanographic subjects." "With this funding, NEPTUNE Canada will move ahead with a much expanded scope, on schedule, and realize significant cost savings by installing additional instrumented nodes in 2007 and 2008," says Dr. Chris Barnes, NEPTUNE Canada’s project director. "With these additional nodes, we’ll more than triple our scientific data collection and achieve a profoundly better overview of earth and ocean processes." Initial funding for NEPTUNE Canada was announced in October 2003 and totalled $62.4 million from the Canada Foundation for Innovation (CFI) and the BC Knowledge Development Fund (BCKDF). Contributions from the U.S. and UVic bring total funding for the NEPTUNE project to CDN $112 million. Another USD $120 million is expected from the U.S. as its main contribution to this bi-national project.
Sea urchins on the move
Overview
NEWS RELEASE New research has uncovered a change in behaviour of deep-sea fragile pink sea urchins off the south coast of Vancouver Island that is linked to climate change impacts including the “[Blob](https://www.oceannetworks.ca/news-and-stories/stories/the-warm-blob-chills-out/)”, a marine heatwave that persisted in the Pacific Ocean off North America between 2013 to 2016. Researchers from the Memorial University, Ocean Networks Canada (ONC) and the University of Victoria (UVic) found pink sea urchins (*Strongylocentrotus fragilis*) have been moving up into shallower waters as food sources and oxygen levels at lower depths decline due to a warming ocean. The research team analyzed seven years of physicochemical and video imagery data (2013-2020) collected at Barkley Canyon Upper Slope within ONC’s [NEPTUNE observatory](https://www.oceannetworks.ca/observatories/physical-infrastructure/cabled-networks/), along with 14 years of Fisheries and Oceans Canada trawl surveys, covering a 760-square kilometre area in the northeast Pacific Ocean. The data from NEPTUNE’s Barkley Canyon Upper Slope platform (depth 396 metres) included video cameras, oxygen sensors, and tools that monitor water currents and water physical properties.
New summer ocean temperature records set for two sites on ONC's Pacific observatory
Overview
NEWS RELEASE Ocean Networks Canada (ONC) has recorded the highest daily average summertime temperatures at two of its seafloor observatory sites in the northeast Pacific Ocean since continuous live monitoring started there in 2009. ONC, a University of Victoria initiative, operates the North-East Pacific Time-series Undersea Networked Experiments (NEPTUNE) observatory that powers scientific instruments and thousands of sensors, providing real time ocean conditions data. The 800-kilometre NEPTUNE cabled observatory is located off the west coast of Vancouver Island.
Endeavour site records the highest level of earthquake activity in 20 years
Overview
A peak of more than 200 earthquakes per hour were detected this week at a deep sea site within Ocean Network Canada’s northeast Pacific seafloor observatory, the highest rate of earthquakes observed in this region [since 2005](https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022JB025662). On March 6, 2024, ONC’s real time monitoring network detected significant tectonic activity including an approximately 4.1 magnitude earthquake at the North-East Pacific Time-series Undersea Networked Experiments (NEPTUNE) observatory’s Endeavour site, at a depth of approximately 5 kilometres and 240 kilometres offshore of Vancouver Island. Increased earthquake rates have been observed at the site since 2018, with the March 6 peak swarm following several days of increased small earthquake frequency.
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