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Invasive Sea Squirt Alive and Well on Georges Bank By Ellen Mecray (USGS) and Teri Frady (NOAA) Dec. 2004 / Jan. 2005 in this issue:  previous story | next story Above: Tunicate colony of a species of the genus Didemnum encrusting and cementing a pebble-gravel seabed and crowding a dark-orange anemone (lower part of photograph). Note the relatively few holes in the mat where the gray background is visible. Northern Georges Bank (lat 41°54.429' N., long 67°27.146' W.); water depth, 59 m (194 ft); November 2004. Specimen is 9 in. wide. Collectors: Page Valentine (USGS), Jeremy Collie (University of Rhode Island), and Robert Reid (NOAA). Photograph by Dann Blackwood (USGS). [larger version] Above: Underside of tunicate mat in image above, showing pebble gravel cemented by colonial tunicates (pale yellow). Note the relatively few holes in the mat where the gray background is visible. Northern Georges Bank (lat 41°54.429' N., long 67°27.146. W'); water depth, 59 m (194 ft); November 2004. Specimen is 5.6 in. wide. Collectors: Page Valentine (USGS ), Jeremy Collie (University of Rhode Island), and Robert Reid (NOAA). Photograph by Dann Blackwood (USGS). [larger version] An invasive sea squirt that was discovered on Georges Bank by Federal and university researchers a year ago is flourishing in U.S. waters near the United States-Canadian border, a joint research team announced in November after a research cruise to the affected area. Scientists from the U.S. Geological Survey (USGS), the National Oceanic and Atmospheric Administration (NOAA), and the University of Rhode Island estimate that mats made of thousands of individual squirts infest a 40-mi2 area of seabed that is highly productive for fish and sea scallops. In large parts of the affected area, the sea squirts cover 50 percent or more of the seabed. The Georges Bank infestation is unique, the only known occurrence of this magnitude in a major offshore fishing ground. Sea squirts are tunicates, a type of sea life with a primitive spinal cord and a firm, flexible outer covering called a "tunic," from which the name derives. A filter-feeding species of the genus Didemnum, they form dense mats, made of thousands of individuals, by attaching to firm substrates such as gravel, sea scallops, mussels, docks and other structures, and even seaweed. Tunicates can overgrow sea scallops and mussels, and they may affect other species of clams and worms that live in the seabed below the tunicate colony. An "invasive species" is one that is not native to an ecosystem and may harm that ecosystem if introduced. In fall 2003, the same research team first spotted this infestation over an approximately 6-mi2 area of ocean bottom during a scientific cruise to study habitats on Georges Bank. This year, a larger area with tunicate coverage was surveyed. The mats were observed over at least 40 mi2 of the gravel substrate on the north edge of Georges Bank. Video and photo transects made using the USGS Seabed Observation and Sampling System (SEABOSS; see USGS Fact Sheet 142-00) documented the distribution of the tunicate colonies in water depths of 42 to 65 m (138-213 ft). The cruise was conducted aboard the NOAA ship Delaware II. Scientists will analyze data collected on the cruise to determine whether the tunicate invasion has the potential to alter the seabed communities that sustain commercial fish species. Tunicate fragments were also found in the stomachs of haddock and winter flounder collected in the area, but they did not appear to be digested. Samples of the tunicate will be evaluated to determine its nutritional value to predators and to confirm the species through DNA analysis. The tunicate can spread by reproducing either sexually or asexually by budding. The free-swimming tadpoles produced by sexual reproduction live only a few days, during which time they can be spread by tidal and storm currents to form new colonies. By contrast, fragments of colonies are long-lived. Controlled experiments in Cape Cod waters by USGS and Woods Hole Oceanographic Institution scientists have shown that small pieces removed from Didemnum colonies increase dramatically by budding in a matter of weeks. Thus, fragmentation of tunicate mats could promote the spread of the species. Didemnum sp. occurs along the coasts of the Netherlands and France. In the United States, it has been documented in coastal New England from Connecticut to northern Maine and along the California coast, and in October 2004 it was first reported in Puget Sound off Edmonds, WA. The same species (or a close relative) is present at several localities in New Zealand. Officials in Edmonds and in New Zealand have used chemical applications and physical removal in attempts to eradicate the relatively small infestations there. Above: Area of invasive tunicate (yellow-shaded polygon) surveyed in November 2004. Map based on NOAA National Ocean Service (NOS) Chart 13200, depths in fathoms. [larger version] The species thrives in marine environments that lie within its preferred temperature range (28-75°F) and that have firm substrates and plentiful food, conditions that are widespread off the coasts of New England and Atlantic Canada. It could change gravel habitats that lie along the north edge of Georges Bank, as well as immobile sand habitats characteristic of southern Georges Bank. Didemnum cannot survive on habitats of moving sand, and therefore much of the shallow Georges Bank crest is not threatened. The species is not yet known to occur on mud habitats that are typical of the deep basins of the Gulf of Maine. For more information on Didemnum on Georges Bank, and the worldwide occurrence of this invasive species, see the USGS Web site "Marine Invasive Species". Invaders Have Fewer Parasites, Giving Them a Competitive Edge Over Native Animals and Plants Feb. / Mar. 2003 Invasive Sea Squirt Alive and Well on Georges Bank - USGS Press Release U.S. Geological Survey (USGS) Seabed Observation and Sampling System - USGS Fact Sheet 142-00 U.S. Geological Survey (USGS) Marine Invasive Species U.S. Geological Survey (USGS) in this issue:  previous story | next story

Dec. 2004 / Jan. 2005 Mailing List: Sign up to receive monthly email updates: print this issue in this issue: cover story: Indian Ocean Tsunami Could a Tsunami Happen Here? Deltaic Habitats in Puget Sound Invasive Sea Squirt Flourishing How Sea Floor Sediment Moves Submarine Canyons Named for Marine Geologists Appreciation Day for Congressman Young Students Learn About Coastal and Marine Science Hurricanes Focus Attention on USGS Research College Students Visit USGS Center in St. Petersburg Scientists Participate in Great-American Teach-In Scientists Interviewed About Invasive Sea Squirt GIS Day CCWS Open House Scientists Interviewed for HBO Program International Symposium on Coastal Issues Jeff Williams Reviews Storm Surge Model Gulf and Caribbean Fisheries Institutes Conference Suwannee River Basin and Estuary Integrated Science Workshop Regional Executive Visits FISC Office Jingping Xu Joins Western Coastal and Marine Geology Team Special Oceanography Issue Includes Sediment Dynamics Article Dec. / Jan. Publications List

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