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Harmful Algal Bloom (Red Tide) Models and Forecasts to be Expanded in Gulf of Maine
October 17, 2006A new observation and modeling program focused on the southern Gulf of Maine and adjacent New England shelf waters could aid policymakers in deciding whether or not to re-open, develop, and manage offshore shellfish beds with potential sustained harvesting value of more than $50 million per year. These areas are presently closed to the harvest of certain species of shellfish due to the presence of red tide toxins.
Researchers at the Woods Hole Oceanographic Institution (WHOI) and colleagues from seven other universities or agencies began the five-year Gulf of Maine Toxicity program, or GOMTOX, on September 1. The $7.5 million dollar program is funded by a grant from the National Oceanic and Atmospheric Administration's (NOAA) National Ocean Service, Center for Sponsored Coastal Ocean Research (NOS/CSCOR) through the ECOHAB program.
The new research effort expands past studies in the Gulf of Maine and builds on data collected during the historic 2005 red tide, which led to closure of both nearshore shellfish beds and offshore beds in federal waters out to Georges Bank. The toxicity also extended for the first time to the islands of Martha's Vineyard and Nantucket.
The Gulf of Maine (GoM) and its adjacent southern New England shelf is a vast region with extensive shellfish resources, large portions of which are frequently contaminated with paralytic shellfish poisoning (PSP) toxins produced by the dinoflagellate Alexandrium fundyense. The 2005 outbreak caused millions of dollars in economic damage, but monitoring programs and cooperation among federal, state and local officials, scientists, and shellfishermen prevented any reported cases of illness from people eating contaminated shellfish.
"As a result of the 2005 bloom and the closures in federal waters offshore and on the Cape and Islands, we realized we needed to expand efforts and develop a full, regional-scale understanding of Alexandrium fundyense blooms," lead investigator Don Anderson of WHOI said. "We don't understand the linkages between bloom dynamics and toxicity in waters near shore versus the offshore, nor do we know how toxicity is delivered to the shellfish in those offshore waters. An additional challenge is the need to expand modeling and forecasting capabilities to include the entire region, and to transition these tools to operational and management use."
Anderson said the information and new technologies gained from the project will help managers, regulators and the shellfish industry to fully utilize and effectively manage both nearshore and offshore shellfish resources, and could lead to harvesting of the offshore surfclam and ocean quahog beds on Georges Bank and Nantucket Shoals, which have an estimated potential value of more than $50 million a year. The program should also provide information crucial to the development of a roe-on scallop industry in those waters-a product which is presently restricted because of toxin that accumulates in the roe.
GOMTOX will utilize a combination of large-and small-scale survey cruises, autonomous gliders, moored instruments and traps, drifters, satellite imagery and numerical models. Researchers will incorporate field observations into a suite of numerical models of the region for hindcasting and forecasting applications for both near shore and offshore shellfish resources.
In addition to WHOI researchers, scientists participating in GOMTOX represent Canada's Department of Fisheries and Oceans, NOAA's Northeast Fisheries Science Center, the Canadian National Research Council, the U.S. Food and Drug Administration, University of Maine, University of Massachusetts, and the Stellwagen Bank National Marine Sanctuary.
"We will be working closely with federal, state and local officials, resource managers and shellfishermen to synthesize results and disseminate the information and technology," Anderson said. "Our ultimate goal is to transition scientific and management tools to the regulatory community for operational use. This project covers the entire Gulf fo Maine, including the Bay of Fundy, so there are many affected user groups, communities, and industries who stand to benefit."
Woods Hole Oceanographic Institution
"As a result of the 2005 bloom and the closures in federal waters offshore and on the Cape and Islands, we realized we needed to expand efforts and develop a full, regional-scale understanding of Alexandrium fundyense blooms," lead investigator Don Anderson of WHOI said. "We don't understand the linkages between bloom dynamics and toxicity in waters near shore versus the offshore, nor do we know how toxicity is delivered to the shellfish in those offshore waters. An additional challenge is the need to expand modeling and forecasting capabilities to include the entire region, and to transition these tools to operational and management use."
Anderson said the information and new technologies gained from the project will help managers, regulators and the shellfish industry to fully utilize and effectively manage both nearshore and offshore shellfish resources, and could lead to harvesting of the offshore surfclam and ocean quahog beds on Georges Bank and Nantucket Shoals, which have an estimated potential value of more than $50 million a year. The program should also provide information crucial to the development of a roe-on scallop industry in those waters-a product which is presently restricted because of toxin that accumulates in the roe.
GOMTOX will utilize a combination of large-and small-scale survey cruises, autonomous gliders, moored instruments and traps, drifters, satellite imagery and numerical models. Researchers will incorporate field observations into a suite of numerical models of the region for hindcasting and forecasting applications for both near shore and offshore shellfish resources.
In addition to WHOI researchers, scientists participating in GOMTOX represent Canada's Department of Fisheries and Oceans, NOAA's Northeast Fisheries Science Center, the Canadian National Research Council, the U.S. Food and Drug Administration, University of Maine, University of Massachusetts, and the Stellwagen Bank National Marine Sanctuary.
"We will be working closely with federal, state and local officials, resource managers and shellfishermen to synthesize results and disseminate the information and technology," Anderson said. "Our ultimate goal is to transition scientific and management tools to the regulatory community for operational use. This project covers the entire Gulf fo Maine, including the Bay of Fundy, so there are many affected user groups, communities, and industries who stand to benefit."
Woods Hole Oceanographic Institution
Algal Bloom Current Events and Algal Bloom News RSSNOAA Forecast Predicts Large
A team of NOAA-supported scientists from the Louisiana Universities Marine Consortium, Louisiana State University, and the University of Michigan is forecasting that the "dead zone" off the coast of Louisiana and Texas in the Gulf of Mexico this summer could be one of the largest on record.
UBC researcher solves century-old enigma of prehistoric marine mass grave
Good old-fashioned detective work has turned up the first conclusive explanation for the origin of a massive bonebed in southern California, according to a new study led by a UBC paleontologist.
Researchers report 'moderately large' potential for red tide outbreak in Gulf of Maine region
The potential for an outbreak of the phenomenon commonly called "red tide" is expected to be "moderately large" this spring and summer, according to researchers with the Woods Hole Oceanographic Institution (WHOI) and North Carolina State University (NCSU).
Algal biomonitor
A paper published in the current issue of the International Journal of Environment and Pollution, explains how a DNA test can be used to detect harmful algal blooms across the globe.
In Computer Models and Seafloor Observations, Researchers See Potential for Significant 2008 "Red Tide" Season
The end of April usually brings the first signs of harmful algae in New England waters, and this year, researchers participating in the Gulf of Maine Toxicity (GOMTOX) study-led by Woods Hole Oceanographic Institution (WHOI)--are preparing for a potentially big bloom.
In computer models and observations, researchers see potential for significant 'red tide' season
The end of April usually brings the first signs of harmful algae in New England waters, and this year, researchers from the Woods Hole Oceanographic Institution (WHOI) and North Carolina State University (NC State) are preparing for a potentially big bloom.
Underwater Microscope Helps Prevent Shellfish Poisoning Along Gulf Coast of Texas
Through the use of an automated, underwater cell analyzer developed at the Woods Hole Oceanographic Institution (WHOI), researchers and coastal managers were recently able to detect a bloom of harmful marine algae in the Gulf of Mexico and prevent human consumption of tainted shellfish.
Antarctic expedition provides new insights into the role of the Southern Ocean for global climate
In the Southern Ocean, large quantities of surface-drifting plankton algae are able to significantly reduce the carbon dioxide content of the surface waters, which can affect the global carbon dioxide cycle.
ESA's Medspiration project branches out to support biodiversity
Maps of the sea surface temperature around Galapagos Islands and Cocos Island in the Pacific Ocean are being produced daily and are available online in full resolution in near-real time as part of the Medspiration project, an ESA-funded effort to represent the most reliable temperature of the seas on a global basis.
Changes in reef latitude
Since the 1980s, researchers have hypothesized that nutrient levels rather than temperature are the main factor controlling the latitudinal bounds of coral reefs, but the issue remains controversial.
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