Pfiesteria piscicida Bibliography
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The presence of P. piscicida in Chesapeake Bay is documented. The appearance and behavior of the algae and symptoms associated with fish mortality were consistent with those previously observed in P. piscicida-associated aquaria fish kills in North Carolina. The discovery of P. piscicida in Chesapeake Bay shows that dinoflagellates have a dramatic and far-reaching impact on fish stocks in shallow, eutrophic estuaries. Effects of the toxic dinoflagellate, Pfiesteria piscicida, on juvenile bay scallops (Argopecten irradians, Lamarck). Springer, J. J.; Burkholder, J.; Shumway, S. E. National Shellfisheries Association Journal of Shellfish Research, 1996; Vol 15; Number 2, p. 530 [np], 1996 Effects on fisheries and human health linked to a toxic estuarine dinoflagellate. Burkholder J M; Glasgow H B Jr N.C. State Univ., Raleigh, NC 27965-7612, USA. Toxicon, 34 (3). 1996. 308. Fifth Pan American Symposium on Animal, Plant and Microbial Toxins, Frederick, Maryland, USA, July 30-August 4, 1995. Fish-killing dinoflagellates in a tropical marine aquarium. Florida Dep. Environ. Protect., Florida Mar. Res. Inst., St. Petersburg, FL 33701 IN: Harmful Marine Algal Blooms. Proliferation D'Algues Marines Nuisibles. Nantes (France), 1993 Landsberg, J.H.; Steidinger, K.A.; Blakesley, B.A.;Lassus, P.;Arzul, G.; Erard-Le Denn, E.; Gentien, P.; Marcaillou-Le Baut, C. eds. Lavoisier: Paris, 1995, pp. 6570 Abstract: A recent fish mortality in a marine home aquarium in Florida was associated with two scenarios: a bloom of a previously undescribed free-living dinoflagellate and a heavy infestation of a parasitic dinoflagellate. Parasitic dinospores were identified after trophonts obtained from the gills of 4 species were incubated. The parasite is tentatively identified as Amyloodinium cf. ocellatum. The connection between these stages and the life cycle of the Pfiesteria-like species is being studied. A recent fish mortality in a marine home aquarium in Florida was associated with two scenarios: a bloom of a previously undescribed free-living dinoflagellate and a heavy infestation of a parasitic dinoflagellate. Parasitic dinospores were identified after trophonts obtained from the gills of 4 species were incubated. The parasite is tentatively identified as Amyloodinium cf. ocellatum. The connection between these stages and the life cycle of the Pfiesteria-like species is being studied. Fish kills linked to a toxic ambush-predator dinoflagellate: Distribution and environmental conditions. Burkholder, J.M.; Glasgow, H.B.,Jr.; Hobbs, C.W. Department of Botany, North Carolina State University, Box 7612, Raleigh, NC 27695-7612 Mar. Ecol. Prog. Ser., vol. 124, no. 1-3, pp. 43-61, 1995 Abstract: Pfiesteria piscicida gen. et sp. nov. is stimulated by fresh fish secreta, and it was lethal to all 19 species of native and exotic finfish and shellfish bioassayed in culture; thus far in field and aquaculture kills linked to the dinoflagellate, 13 additional fish species have been affected. Field data andlaboratory bioassays document toxicity at high temperatures and salinity. Pfiesteria-like species also have been tracked to other eutrophic sudden-death fish kill sites. Pfiesteria piscicida gen. et sp. nov. is stimulated by fresh fish secreta, and it was lethal to all 19 species of native and exotic finfish and shellfish bioassayed in culture; thus far in field and aquaculture kills linked to the dinoflagellate, 13 additional fish species have been affected. Field data andlaboratory bioassays document toxicity at high temperatures and salinity. Pfiesteria-like species also have been tracked to other eutrophic sudden-death fish kill sites. Impacts of Cultural Eutrophication on Water Quality, Algae, and Aquatic Angiosperms. Burkholder Jm North Carolina State Univ/botany, Raleigh, North Carolina 27695 Source: Fedrip Database, National Technical Information Service (NTIS) U. S. Department of Agriculture/Cooperative State Research Service Abstract: Complete enclosure experiments are used to To examine controlling influences of cultural eutrophication on water quality and aquatic flora, especially concerning dinoflagellate. The effects of water-column nitrate enrichment (simulating sewage inputs) and high temperatures on the seagrass, Zostera marina, are studied. Reductions in nutrient loading could discourage the growth of P. piscicida. Complete enclosure experiments are used to To examine controlling influences of cultural eutrophication on water quality and aquatic flora, especially concerning dinoflagellate. The effects of water-column nitrate enrichment (simulating sewage inputs) and high temperatures on the seagrass, Zostera marina, are studied. Reductions in nutrient loading could discourage the growth of P. piscicida. Insidious effects of a toxic estuarine dinoflagellate on fish survival and human health. Glasgow H B Jr; Burkholder J M; Schmechel D E; Tester P A; Rublee P A Dep. Botany, Box 7612, North Carolina State University, Raleigh, NC 276957612 Journal of Toxicology and Environmental Health 46 (4). 1995. 501-522. Abstract: The estuarine dinoflagellate Pfiesteria piscicida gen. et sp. nov. produces exotoxin(s) that can be absorbed from water or fine aerosols. Human exposure to aerosols from ichthyotoxic cultures has been associated with health problems, including hepatic and renal dysfunction; easy infection and low counts of several T-cell types may indicate immune system suppression. Pfiesteria piscicida is euryhaline and eurythermal, and in bioassays a nontoxic flagellated stage has increased under P enrichment, suggesting a stimulatory role of nutrients. Pfiesteria-like dinoflagellates have been found at other sites. The estuarine dinoflagellate Pfiesteria piscicida gen. et sp. nov. produces exotoxin(s) that can be absorbed from water or fine aerosols. Human exposure to aerosols from ichthyotoxic cultures has been associated with health problems, including hepatic and renal dysfunction; easy infection and low counts of several T-cell types may indicate immune system suppression. Pfiesteria piscicida is euryhaline and eurythermal, and in bioassays a nontoxic flagellated stage has increased under P enrichment, suggesting a stimulatory role of nutrients. Pfiesteria-like dinoflagellates have been found at other sites. Interactions of a toxic estuarine dinoflagellate with microbial predators and prey. Burkholder J M; Glasgow H B Jr Dep. Botany, Box 7612, North Carolina State Univ., Raleigh, NC 27695-7612 Archiv fuer Protistenkunde 145 (3-4). 1995. 177-188. Abstract: The toxic ambush-predator dinoflagellate, Pfiesteria piscicida (gen. et. sp. nov.) targets finfish and shellfish prey, and is a causative agent of fish kills. After fish death, remaining gametes revert to asexual, nontoxic zoospores that thrive in nutrient-enriched waters with flagellated algal prey. Toxic ambushpredator dinoflagellates play a major role in the structure and function of estuarine The toxic ambush-predator dinoflagellate, Pfiesteria piscicida (gen. et. sp. nov.) targets finfish and shellfish prey, and is a causative agent of fish kills. After fish death, remaining gametes revert to asexual, nontoxic zoospores that thrive in nutrient-enriched waters with flagellated algal prey. Toxic ambushpredator dinoflagellates play a major role in the structure and function of estuarine microbial food webs. Killer dinoflagellate fact sheet. Hart, K. North Carolina Univ., Chapel Hill (USA). Sea Grant Program , 1994, 2 pp Abstract: North Carolina Sea Grant researchers discovered a fish killer a microscopic animal that paralyzes fish with toxins and sucks away their flesh. JoAnn Burkholder, an aquatic botanist at N.C. State University, explains that Pfiesteria piscimortuis means "fish killer." North Carolina Sea Grant researchers discovered a fish killer a microscopic animal that paralyzes fish with toxins and sucks away their flesh. JoAnn Burkholder, an aquatic botanist at N.C. State University, explains that Pfiesteria piscimortuis means "fish killer." The morphology and cytology of a newly discovered toxic dinoflagellate. Steidinger, K.A.; Truby, E.W.; Garrett, J.K.; Burkholder, J.M. Florida Mar. Res. Inst., Florida Dep. Environ. Protect., St Petersburg, FL 33701 Harmful Marine Algal Blooms."Proliferation D'algues Marines Nuisibles" Conference Location: Nantes (France), 1993 Lassus, P.; Arzul, G.; Erard-Le Denn, E.; Gentien, P.; Marcaillou-Le Baut, C. eds. Lavoisier: Paris, 1995, pp. 83-88 Abstract: The toxic ambush predator known as Pfiesteria piscimorte (Steidinger et al., in prep.) is a polymorphic dinoflagellate with flagellated, amoeboid, and cyst stages. We have observed the flagellated stage turning into a naked, amoeboid, star-like stage within minutes. One theory explaining this transformation involves two unique cytological characters, both known to be transformable, that are attributable to dinoflagellates: the multimembrane cell covering and the "mesokaryotic" nucleus. The toxic ambush predator known as Pfiesteria piscimorte (Steidinger et al., in prep.) is a polymorphic dinoflagellate with flagellated, amoeboid, and cyst stages. We have observed the flagellated stage turning into a naked, amoeboid, star-like stage within minutes. One theory explaining this transformation involves two unique cytological characters, both known to be transformable, that are attributable to dinoflagellates: the multimembrane cell covering and the "mesokaryotic" nucleus. Ocean commotion. Tibbetts J Environmental Health Perspectives. 104 (4). 1996. 380-385. Pfiesteria piscicida gen. et sp. nov. (Pfiesteriaceae fam. nov.), a new toxic dinoflagellate with a complex life cycle and behavior. Steidinger, K.A.; Burkholder, J.M.; Glasgow, H.B.,Jr.; Hobbs, C.W.; Garrett, J.K.; Truby, E.W.; Noga, E.J.; Smith, S.A. Florida Mar. Res. Inst., Dep. Environ. Prot., 100 Eighth Ave., S.E., St. Petersburg, FL 33701 J. Phycol., vol. 32, no. 1, pp. 157-164, 1996 Abstract: Dinoflagellate Pfiesteria piscicida is a polymorphic and multiphasic species with flagellated, amoeboid, and cyst stages. The physiology and biology of this new species is described. The species is placed in a new family, Pfiesteriaceae, and the order Dinamoebales is emended. Dinoflagellate Pfiesteria piscicida is a polymorphic and multiphasic species with flagellated, amoeboid, and cyst stages. The physiology and biology of this new species is described. The species is placed in a new family, Pfiesteriaceae, and the order Dinamoebales is emended. Response of two zooplankton grazers to an ichthyotoxic estuarine dinoflagellate. Mallin, M.A.; Burkholder, J.M.; Larsen, L.M.; Glasgow, H.B.,Jr. Cent. Mar. Sci. Res., Univ. North Carolina, 7205 Wrightsville Ave., Wilmington, NC 28403 J. Plankton Research, vol. 17, no. 2, pp. 351-363, 1995 Abstract: Experimental tests of interactions between P. piscicida and estuarine zooplankton predators, specifically the rotifer Brachionus plicatilis and the calanoid copepod Acartia tonsa are reported. Results indicate that on a short-term basis, toxic stages of P. piscicida can be readily utilized as a nutritional resource by these common estuarine zooplankters. Studies are needed on the long-term effects of P. piscicida on zooplankton, the potential for toxin bioaccumulation across trophic levels, and the utility of zooplankton as biological control agents for this toxic dinoflagellate. Experimental tests of interactions between P. piscicida and estuarine zooplankton predators, specifically the rotifer Brachionus plicatilis and the calanoid copepod Acartia tonsa are reported. Results indicate that on a short-term basis, toxic stages of P. piscicida can be readily utilized as a nutritional resource by these common estuarine zooplankters. Studies are needed on the long-term effects of P. piscicida on zooplankton, the potential for toxin bioaccumulation across trophic levels, and the utility of zooplankton as biological control agents for this toxic dinoflagellate. Role of a Newly Discovered Toxic Dinoflagellate in Finfish and Shellfish Kills in the Neuse and Pamlico Estuaries. Burkholder JM; Glasgow HB; Noga EJ; Hobbs CW North Carolina State Univ. at Raleigh. Dept. of Botany. North Carolina Dept. of Environment, Health, and Natural Resources, Raleigh. Albemarle-Pamlico Estuarine Study. Abstract: The objectives of the study were to obtain field and experimental information needed to formally speciate and characterize the general ecology of a newly discovered toxic estuarine dinoflagellate, and to examine its significance in causing fish kills in the Neuse and Pamlico (North Carolina) estuaries. The objectives of the study were to obtain field and experimental information needed to formally speciate and characterize the general ecology of a newly discovered toxic estuarine dinoflagellate, and to examine its significance in causing fish kills in the Neuse and Pamlico (North Carolina) estuaries. Scanning electron microscopy of selected protists associated with marine fish. Blakesley, B.A.; Landsberg, J.H. Florida Mar. Res. Inst., Florida Dep. Environ. Prot., 100 Eighth Ave. SE, St. Petersburg, FL 33701-5095 Iinternational Symposium on Aquatic Animal Health:Programs and Abstracts. Seattle, WA, 1994 Univ. of California, School of Veterinary Medicine, Davis, CA, 1994, p. 43 Abstract: Scanning electron microscopy was used to study parasitic, commensal, and free-living protists associated with cultured, wild, and aquarium-held marine fish in Florida. Modifications to the SEM revealed the presence of previously undescribed thin-plated armature in some parasitic and free-living dinoflagellates Scanning electron microscopy was used to study parasitic, commensal, and free-living protists associated with cultured, wild, and aquarium-held marine fish in Florida. Modifications to the SEM revealed the presence of previously undescribed thin-plated armature in some parasitic and free-living dinoflagellates and other morphological details. Stage transformations in the complex life cycle of an ichthyotoxic "ambushpredator" dinoflagellate. Dep. Bot., Box 7612, N. Carolina State Univ., Raleigh, NC 27695, USA IN: Harmful Marine Algal Blooms. "Proliferation D'algues Marines Nuisibles" Nantes (France), 1993. Burkholder, J.M.; Glasgow, H.B.; Steidinger, K.A.; Lassus, P.;Arzul, G.; ErardLe Denn, E.; Gentien, P.; Marcaillou-Le Baut, C. eds. Lavoisier, Paris, 1995, pp. 567-572 Abstract: An estuarine dinoflagellate, Pfiesteria piscimortuis, represents a new family, genus and species of armored dinoflagellate. There are 15 known stages in An estuarine dinoflagellate, Pfiesteria piscimortuis, represents a new family, genus and species of armored dinoflagellate. There are 15 known stages in its complex life cycle, consisting mostly of filipodial ("star") and lobose amoebae that can transform from flagellated forms (vegetative cells, planozygotes, gametes). Toxic flagellated vegetative cells (TFVCs) emerge from scaled cysts and excrete a potent neurotoxin while multiplying or producing anisogamous gametes. Trophic controls on stage transformations of a toxic ambush-predator dinoflagellate. Burkholder J M; Glasgow H B Jr Dep. Botany, Box 7612, North Carolina State Univ., Raleigh, NC 27695 Journal of Eukaryotic Microbiology 44 (3). 1997. 200-205. Abstract: The toxic dinoflagellate, Pfiesteria piscicida, was recently implicated as the causative agent for r fish kills in the Albemarle-Pamlico Estuarine System of the southeastern USA. Toxic zoospores of P. piscicida excrete lethal neurotoxins that narcotize the prey, disrupt its osmoregulatory system, and attack its nervous system. The toxic dinoflagellate, Pfiesteria piscicida, was recently implicated as the causative agent for r fish kills in the Albemarle-Pamlico Estuarine System of the southeastern USA. Toxic zoospores of P. piscicida excrete lethal neurotoxins that narcotize the prey, disrupt its osmoregulatory system, and attack its nervous system. Watch out for killer algae. Malvaney, Kieran E--The Environmental Magazine, 1996 Vol. VII, No. 2 (March-April), p. 15 Return to the Water Quality Information Center at the National Agricultural Library. Last update: September 11, 1997 The URL of this page is http://http://www.nalusda.gov/wqic/Bibliographies/eb9704.html J. R. Makuch /USDA-ARS-NAL-WQIC Disclaimers [U.S. Department of Agriculture (USDA)] [Agricultural Research Service (ARS)] [National Agricultural Library (NAL)]
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Detection and quantification of Pfiesteria piscicida by using the mitochondrial cytochrome b gene.
Mitochondrial cytochrome b was isolated from the dinoflagellate Pfiesteria piscicida, and the utility of the gene for species identification was examined. One of the primer sets designed was shown to be highly specific for P. piscicida. A time step PCR protocol was used to demonstrate the potential of this primer set for quantification of this species.
متن کاملPersisting learning deficits in rats after exposure to Pfiesteria piscicida.
Pfiesteria piscicida and other toxic Pfiesteria-like dinoflagellates have been implicated as a cause of fish kills in North Carolina estuaries and elsewhere. Accidental laboratory exposure of humans to P. piscicida has been reported to cause a complex syndrome including cognitive impairment. The current project was conducted to experimentally assess the possibility of cognitive effects of P. pi...
متن کاملHeteroduplex mobility assay-guided sequence discovery: Elucidation of the small subunit (18S) rDNA sequences of Pfiesteria piscicida and related dinoflagellates from complex algal culture and environmental sample DNA pools By:
The newly described heterotrophic estuarine dinoflagellate Pfiesteria piscicida has been linked with fish kills in field and laboratory settings, and with a novel clinical syndrome of impaired cognition and memory disturbance among humans after presumptive toxin exposure. As a result, there is a pressing need to better characterize the organism and these associations. Advances in Pfiesteria res...
متن کاملIdentical ribosomal DNA sequence data from Pfiesteria piscicida (Dinophyceae) isolates with different toxicity phenotypes.
Complete small subunit ribosomal RNA, internal transcribed spacer 1 and 2, 5.8S, and partial large subunit ribosomal RNA gene sequences were generated from multiple isolates of Pfiesteria piscicida. Sequences were derived from isolates that have been shown to be ichthyotoxic as well as isolates that have no history of toxic behavior. All of the sequences generated were identical for the differe...
متن کاملA rat model of the cognitive impairment from Pfiesteria piscicida exposure.
Pfiesteria piscicida Steidinger & Burkholder, an estuarine dinoflagellate known to kill fish, has also been associated with neurocognitive deficits in humans. We have developed a rat model to determine the cause-and-effect relationship between exposure to Pfiesteria-containing water and cognitive impairment and to determine the neurobehavioral mechanisms underlying the Pfiesteria effect. The ra...
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