Fish killer caught? Ephemeral Pfiesteria compound surfaces.A team of researchers claims to have found an elusive algal algal pertaining to or caused by algae. algal infection is very rare but systemic and udder infections are recorded. See protothecosis. algal mastitis the algae Prototheca trispora and P. toxin implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in massive fish kills along the Mid-Atlantic coast in the 1990s. They say that the compound's characteristics explain why it has been so difficult to track down. Other researchers, however, remain skeptical. The hunt for a toxic product of the single-celled alga Pfiesteria piscicida Pfiesteria piscicida is a dinoflagellate that some researchers claim is responsible for many blooms in the 1980s and 1990s on the coast of North Carolina. Pfiesteria dates to the early 1990s, when researchers laid the blame for fish kills in North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. waters on the organism (SN: 9/27/97, p. 202). Moreover, scientists who worked with the alga in the laboratory reported headaches and rashes. Public safety concerns led Maryland officials to temporarily limit access to certain Chesapeake Bay Chesapeake Bay, inlet of the Atlantic Ocean, c.200 mi (320 km) long, from 3 to 30 mi (4.8–48 km) wide, and 3,237 sq mi (8,384 sq km), separating the Delmarva Peninsula from mainland Maryland. and Virginia. waterways The list of waterways is a link page for any river, canal, estuary or firth. International waterways
Not all scientists agreed that a toxic agent secreted by that alga was responsible for the fish deaths. Some researchers blamed a fungal disease first described in the 1980s (SN: 10/10/98, p. 231), while two research groups independently reported that they couldn't find evidence that Pfiesteria shumwayae Pfiesteria shumwayae is a dinoflagellate that was recently found in Taskinas Creek, a tributary of the York River in James City County, Virginia. The toxicity of P. shumwayae is unknown, although it is considered potentially dangerous. , the other named Pfiesteria species, makes a toxin (SN: 8/10/02, p. 84). One of those teams proposed that the alga eats away fish skin. A different group now reports a structure for the chemical that it says is responsible for the toxicity. Peter D. R. Moeller, an organic chemist with the National Oceanic and Atmospheric Administration's Hollings Marine Laboratory in Charleston, S.C., and his colleagues describe their data online for an upcoming Environmental Science & Technology. From work that used five analytical methods, the researchers propose that the toxin's structure contains a carbon chain interrupted by a sulfur-copper-sulfur segment. They found that the compound, when energized by light, produces free radicals, which are highly reactive chemical species with unpaired electrons. As the compound generates free radicals, it decomposes, Moeller says, so it remains active only for several days. This could explain why the toxin has been so elusive. "It's destroying itself. That's why you can't find it after the fact," Moeller says. Various environmental cues are necessary to start the compound on its free radical--generating path, he adds. The researchers found that light, high heat, and changes in pH can set off the compound. Other enviromnental conditions could also contribute, Moeller says, adding that the researchers won't know more "until we test this in the wild." But the new evidence has left others unconvinced of the compound's structure and toxicity. Robert E. Gawley, an organic chemist at the University of Arkansas The University of Arkansas strives to be known as a "nationally competitive, student-centered research university serving Arkansas and the world." The school recently completed its "Campaign for the 21st Century," in which the university raised more than $1 billion for the school, used in Fayetteville who has searched for the toxin, says that the characterization report is incomplete and doesn't meet "the standards of a rigorous structural proof." William B. Tolman, an inorganic chemist at the University of Minnesota (body, education) University of Minnesota - The home of Gopher. http://umn.edu/. Address: Minneapolis, Minnesota, USA. in Minneapolis, says that the evidence for copper-sulfur bonds is weak. The reported distance between the copper and sulfur atoms is too long for the proposed structure, he says. Tolman also notes that while the researchers provide proof that free radicals are present, "whether or not the free radicals are responsible for the toxicity is not clear." |
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