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Cyanobacteria, otherwise known as blue-green algae, are oxygenic, photosynthetic prokaryotes. They occur naturally in many fresh, marine and brackish waters worldwide and play an important role in global carbon and nitrogen cycles. In their long history, cyanobacteria have developed structures and mechanisms that enable them to survive and proliferate under different environmental conditions. In the Baltic Sea, the mass development of cyanobacteria is compounded by a high level of eutrophication. The dominant species in the Baltic, the filamentous Aphanizomenon flos-aquae and Nodularia spumigena, can fix dissolved atmospheric N2, as a result of which they can outcompete other phytoplankton organisms. Heterocystous, filamentous cyanobacteria also make a significant contribution to the internal nutrient loading in the Baltic. The blooms of N. spumigena are of particular concern, as this cyanobacterium produces nodularin (NOD), a hepatotoxic peptide. The concentration of the toxin in the sea is regulated mainly by dilution with uncontaminated water, photolysis, sorption to sediments and microbial degradation. The transfer of the toxin in the Baltic trophic chain through zooplankton, mussels, fish and birds has been reported, but biodilution rather than bioconcentration has been observed. Cyanobacterial blooms are thought to pose a serious threat to the ecosystem. Their harmful effects are related to the occurrence of a high biomass, oxygen depletion, a reduction in biodiversity, and the production of toxic metabolites.
Czasopismo
Rocznik
Tom
Strony
293--319
Opis fizyczny
bibliogr. 124 poz., wykr.
Twórcy
autor
autor
- Department of Marine Biology and Ecology, Institute of Oceanography, University of Gdańsk, al. Marszałka Piłsudskiego 46, PL-81-378 Gdynia, Poland;, biohm@univ.gda.pl
Bibliografia
- 1.Amé M.V., Echenique J.R., Pflugmacher S.,Wunderlin D.A., 2006, Degradation of microcystin-RR by Sphingomonas sp. CBA4 isolated from San Roque reservoir (Córdoba - Argentina), Biodegradation, 17 (5), 447-455.
- 2.An J., Carmichael W.W., 1994, Use of a colorimetric protein phosphatase inhibition assay and enzyme linked immunosorbent assay for the study of microcystins and nodularins, Toxicon, 32 (12), 1495-1507.
- 3.Andersen R. J., Luu H. A., Chen D. Z.X., Holms C. F.B., Kent M. L., Le Blanc M., Taylor F. R. J., Williams D. E., 1993, Chemical and biological evidence links microcystins to salmon netpen liver disease, Toxicon, 31 (10), 1315-1323.
- 4.Bianchi T. S., Engelhaupt E., Westman P., Andrén T., Rolff C., Elmgren R., 2000, Cyanobacterial blooms in the Baltic Sea: natural or human-induced?, Limnol. Oceanogr., 45 (3),716-726.
- 5.Bouaïcha N., Maatouk I., 2004, Microcystin-LR and nodularin induce intracellular glutathione alteration, reactive oxygen species production and lipid peroxidation in primary cultured rat hepatocytes, Toxicol. Lett., 148 (1-2), 53-63.
- 6.Bourne D.G., Jones G. J., Blakeley R. I., Jones A., Negri A.P., Riddles P., 1996, Enzymatic pathway for the bacterial degradation of the cyanobacterial cyclic peptide toxin microcystin-LR, Appl. Environ. Microb., 62 (11), 4086-4094.
- 7.Carmichael W.W., 1992, Cyanobacteria secondary metabolites and the cyanotoxins, J. Appl. Microbiol., 72, 445-59.
- 8.Chen W., Song L., Peng L., Wan N., Zhang X., Gan N., 2008, Reduction in microcystin concentrations in large and shallow lakes: water and sedimentinterface contributions, Water Res., 42 (3), 763-773.
- 9.Choi B.W., Namikoshi M., Sun F., Rinehart K.L., Carmichael W.W., Kaup A.M., Evans W.R., Beasley V.R., 1993, Isolation of linear peptides related to the hepatotoxins nodularin and microcystins, Tetrahedron Lett., 34 (49), 7881-7884.
- 10.Choi H. J., Kim B.H., Kim J.D., Han M. S., 2005, Streptomyces neyagawaensis as a control for the hazardous biomass of Microcystis aeruginosa (Cyanobacteria) in eutrophic freshwaters, Biol. Control, 33 (3), 335-343.
- 11.Christoffersen K., Lyck S., Winding A., 2002, Microbial activity and bacterial community structure during degradation of microcystins, Aquat. Microb. Ecol., 27 (2), 125-136.
- 12.Cole J. J., Lane J.M., Marino R., Howarth R.W., 1993, Molybdenum assimilation by cyanobacteria and phytoplankton in freshwater and salt water, Limnol. Oceanogr., 38 (1), 25-35.
- 13.Cox P.A., Banack S.A., Murch S. J., 2003, Biomagnification of cyanobacterial neurotoxins and neurodegenerative disease among the Chamorro people of Guam, Proc. Nat. Acad. Sci., 100 (23), 13380-13383.
- 14.Cox P.A., Banack S. A., Murch S. J., Resmussen U., Tien G., Bidigare R.R., Metcalf J. S., Morrison L. F., Codd G.A., Bergman B., 2005, Diverse taxa of cyanobacteria produce β-N-methylamino-L-alanine, neurotic amino acid, Proc. Nat. Acad. Sci., 102 (14), 5074-5078.
- 15.Drevs T., Jaanus A., Vahtmäe E., 2007, Effect of cyanobacterial blooms on the abundance of the flounder Platichthys flesus (L.) in the Gulf of Finland, Est. J. Ecol., 56 (3), 196-208.
- 16.Edler L., Fernö S., Lind M. G., Lundberg R., Nilsson P.O., 1985, Mortality of dogs associated with a bloom of the cyanobacterium Nodularia spumigena in the Baltic Sea, Ophelia, 24 (2), 103-109.
- 17.Edwards Ch., Graham D., Fowler N., Lawton L.A., 2008, Biodegradation of microcystins and nodularin in freshwaters, Chemosphere, 73 (8), 1315-1321.
- 18.Engström-Öst J., Koski M., Schmidt K., Viitasalo M., Jónasdóttir S.H., Kokkonen M., Repka S., Sivonen K., 2002, Effect of toxic cyanobacteria on a plankton assemblage: community development during decay of Nodularia spumigena, Mar. Ecol.-Prog. Ser., 232, 1-14.
- 19.Falconer I.R., Humpage A.R., 1996, Tumour promotion by cyanobacterial toxins, Phycologia, 35 (Suppl. 6), 74-79.
- 20.Finni T., Kononen K., Olsonen R., Wallström K., 2001, The history of cyanobacterial blooms in the Baltic Sea, Ambio, 30 (4-5), 172-178.
- 21.Fladmark K. E., Serres M.H., Larsen N. L., Yasumoto T., Aune T., Doskeland S. O., 1998, Sensitive detection of apoptogenic toxins in suspension cultures of rat and salmon hepatocytes, Toxicon, 36 (1), 1101-1114.
- 22.Gorkhova E., 2009, Toxic cyanobacteria Nodularia spumigena in the diet of Baltic mysids: evidence from molecular diet analysis, Harmful Algae, 8 (1), 264-272.
- 23.Henriksen P., 2005, Estimating nodularin content of cyanobacterial blooms from abundance of Nodularia spumigena and its characteristic pigments - a case study from the Baltic entrance area, Harmful Algae, 4 (1), 167-178.
- 24.Heresztyn T., Nicholson B.C., 1997, Nodularin concentration in Lakes Alexandrina and Albert, South Australia, during a bloom of the cyanobacterium (blue-green algae) Nodularia spumigena and degradation of the toxin, Environ. Toxic. Water, 12 (4), 273-282.
- 25.Herfindal L., Oftedal L., Selheim F., Wahlsten M., Sivonen K., Doskeland S.O., 2005, A high proportion of Baltic Sea benthic cyanobacterial isolates contain apoptogens able to induce rapid death of isolated rat hepatocytes, Toxicon, 46 (3), 252-260.
- 26.Imanishi S., Kato H., Mizuno M., Tsuji K., Harada K.-I., 2005, Bacterial degradation of microcystin and nodularin, Chem. Res. Toxicol., 18 (3), 591 -598.
- 27.Ishii H., Nishijima M., Abe T., 2004, Characterization of degradation process of cyanobacterial hepatotoxins by a gram-negative aerobic bacterium, Water Res., 38 (11), 2667-2676.
- 28.Kankaanpää H., Leiniö S., Olin M., Sjövall O., Meriluoto J., Lehtonen K. K., 2007, Accumulation and depuration of cyanobacterial toxin nodularin and biomarker responses in the mussel Mytilus edulis, Chemosphere, 68 (7), 1210-1217.
- 29.Kankaanpää H., Sipiä V., Kuparinen J. S., Ott J. L., Carmichael W.W., 2001, Nodularin analyses and toxicity of a Nodularia spumigena (Nostocales, Cyanobacteria) water - bloom in the western Gulf of Finland, Baltic Sea, in August 1999, Phycologia, 40 (3), 268-274.
- 30.Kankaanpää H., Sjövall O., Huttunen M., Olin M., Karlsson K., Hyvärinen K., Sneitz L., Härkönen J., Sipiä V.O., Meriluoto J.A.O., 2009, Production and sedimentation of peptide toxins nodularin-R and microcystin-LR in the northern Baltic Sea, Environ. Pollut., 157 (157), 1301-1309.
- 31.Kankaanpää H., Turunen A.-K., Karlsson K., Bylund G., Meriluoto J.A.O., Sipiä V., 2005, Heterogeneity of nodularin bioaccumulation in northern Baltic Sea flounders in 2002, Chemosphere, 59 (8), 1091-1097.
- 32.Kankaanpää H., Vuorinen P. J., Sipiä V., Keinänen M., 2002, Acute effects and bioaccumulation of nodularin in sea trout (Salmo trutta m. trutta L.) exposed orally to Nodularia spumigena under laboratory conditions, Aquat. Toxicol., 61 (3-4), 155-168.
- 33.Karjalainen M., Engström-Öst J., Korpinen S., Peltonen H., Pääkkönen J.-P., Rönkkönen S., Suikkanen S., Viitasalo M., 2007, Ecosystem consequences of cyanobacteria in the Northern Baltic Sea, Ambio, 36 (2-3), 195-202.
- 34.Karjalainen M., Kozlowsky-Suzuki B., Lehtiniemi M., Engström- Öst J., Kankaanpää H., Viitasalo M., 2006, Nodularin accumulation during cynobacterial blooms and experimental depuration in zooplankton, Mar. Biol., 148 (4), 683-691.
- 35.Karjalainen M., Pääkkönen J.-P., Peltonen H., Sipiä V., Valtonen T., Viiasalo M., 2008, Nodularin concentrations in zooplankton and fish during a cyanobacterial bloom, Mar. Biol., 155 (5), 483-491.
- 36.Karjalainen M., Reinikainen M., Lindvall F., Spoof L., Meriluoto J.A.O., 2003, Uptake and accumulation of dissolved radiolabeled nodularin in Baltic sea zooplankton, Environ. Toxicol., 18 (1), 52-60.
- 37.Karjalainen M., Reinikainen M., Spoof L., Meriluoto J.A.O., Sivonen K., Viitasalo M., 2005, Trophic transfer of cyanobacterial toxins from zooplankton to planktivores: consequences for pike larvae and mysid shrimps, Envroin. Toxicol., 20 (3), 354-362.
- 38.Karlsson K.M., Kankaanpää H., Huttunen M., Meriluoto J.A.O., 2005a, First observation of microcystin-LR in pelagic cyanobacterial blooms in the northern Baltic Sea, Harmful Algae, 4 (1), 163-166.
- 39.Karlsson K.M., Sipiä V., Kankaanpää H., Meriluoto J.A.O., 2003, Mass spectrometric detection of nodularin and desmethylnodularin in mussels and flounders, J. Chromatogr. B, 784 (2), 243-253.
- 40.Karlsson K.M., Spoof L.E.M., Meriluoto J.A.O., 2005b, Quantitative LC-ESI-MS analyses of microcystins and nodularin-R in animal tissue - matrixeff ects and method validation, Environ. Toxicol., 20 (3), 381-389.
- 41.Kato H., Imanishi S.Y., Tsuji K., Harada K.-I., 2007, Microbial degradation of cyanobacterial cyclic peptides, Water Res., 41 (8), 1754-1762.
- 42.Keleti G., Sykora J.L., 1982 Production and properties of cyanobacterial endotoxins, Appl. Environ. Microb., 43 (1), 104-109.
- 43.Konoshina I., Lips U., Leppänen J.-M., 2003, The influence of weather conditions (temperature and wind) on cyanobacterial bloom development in the Gulf of Finland (Baltic Sea), Harmful Algae, 2 (1), 29-41.
- 44.Koski M., Schmidt K., Engström-Öst J., Viitasalo M., Jónasdóttir S.H., Repka S., Sivonen K., 2002, Calanoid copepods feed and produce eggs in the presence of toxic cyanobacteria Nodularia spumigena, Limnol. Oceanogr., 47 (3), 878-885.
- 45.Kozlowsky-Suzuki B., Karjalainen M., Lehtiniemi M., Engström-Öst J., Koski M., Carlsson P., 2003, Feeding, reproduction and toxin accumulation by copepods Acartia bifilosa and Eurytemora affinis in the presence of the toxic cyanobacterium Nodularia spumigena, Mar. Ecol.-Prog. Ser., 249, 237-249.
- 46.Kuiper-Goodman T., Falconer I., Fitzgerald J., 1999, Human health aspect, [in:] Toxic cyanobacteria in water: a guide to their public health consequences, monitoring and management, I. Chorus & J. Bartram (eds.), WHO Publ., E. & F.N. Spon, London, 113-153.
- 47.Kurmayer R., Christiansen G., 2009, The genetic basis of toxin production in Cyanobacteria, Freshwater Rev., 2 (1), 31-50.
- 48.Laanemets J., Lilover M. J., Raudsepp U., Autio R., Vahtera E., Lips I., Lips U., 2006, A fuzzy logic model to describe the cyanobacteria Nodularia spumigena blooms in the Gulf of Finland, Baltic Sea, Hydrobiologia, 554 (1), 31-45.
- 49.Lankoff A., Banasik A., Nowak M., 2002, Protective effect of melatonin against nodularin-induced oxidative stress, Arch. Toxicol., 76 (3), 158-165.
- 50.Larsson U., Hajdu S., Walve J., Elmgren R., 2001, Baltic Sea nitrogen fixation estimated from the summer increase in upper mixed layer total nitrogen, Limnol. Oceanogr., 46 (4), 811-820.
- 51.Lehtimäki J., Moisander P., Sivonen K., Kononen K., 1997, Growth, nitrogen fixation, and nodularin production by two Baltic Sea cyanobacteria, Appl. Environ. Microb., 63 (5), 1647-1656.
- 52.Lehtonen K. K., Kankaanpää H., Leiniö S., Sipiä V.O., Pflugmacher S., Sandberg-Kilpi E., 2003, Accumulation of nodularin-like compounds from the cyanobacterium Nodularia spumigena and changes in acetylcholinesterase activity in the clam Macoma baltica during short-term laboratory exposure, Aquat. Toxicol., 64 (4), 461-476.
- 53.Lobner D., Piana P.M.T., Salous A. K., Peoples R.W., 2007, β-N-methylamino-L-alanine enhances neurotoxicity through multiple reactions, Neurobiol. Dis., 25 (2), 360-366.
- 54.Łotocka M., 2001, Toxic effect of cyanobacterial blooms on the grazing activity of Daphnia magna Straus, Oceanologia, 43 (4), 441-453.
- 55.Łysiak-Pastuszak E., Drgas N., 2001a, Nitrogen compounds, [in:] Environmental conditions in the Polish zone of the southern Baltic in 2000, W. Krzemiński, E. Łysiak-Pastuszak & M. Miętus (eds.), Mater. Oddz. Mor. Inst. Meteorol. Gosp. Wod., Gdynia, 102-113.
- 56.Łysiak-Pastuszak E., Drgas N., 2001b, Phosphorus compounds, [in:] Environmental conditions in the Polish zone of the southern Baltic in 2000, W. Krzemiński, E. Łysiak-Pastuszak & M. Miętus (eds.), Mat. Oddz. Mor. Inst. Meteorol. Gosp. Wod., Gdynia, 89-96.
- 57.Łysiak-Pastuszak E., Drgas N., Piątkowska Z., 2004, Eutrophication in the Polish coastal zone: the past, present status and future scenarios, Mar. Pollut. Bull., 49 (3), 186-195.
- 58.Manage P.M., Kawabata Z., Nakano S.-I., 2001, Dynamics of cyanophage-like particles and algicidal bacteria causing Microcystis aeruginosa mortality, Limnology, 2 (2), 73-78.
- 59.Martins R. F., Ramos M. F., Herfindal L., Sousa J.A., Skarven K., Vasconcelos V.M., 2008, Antibacterial and cytotoxic assessment of marine cyanobacteria - Synechocystis and Synechococcus, Mar. Drugs, 6 (1), 1-11.
- 60.Mazur H., Lewandowska J., Błaszczyk A., Kot A., Pliński M., 2003, Cyanobacterial toxins in fresh and brackish waters of Pomorskie Province (Northern Poland), Oceanol. Hydrobiol. Stud., 32 (1), 15-26.
- 61.Mazur-Marzec H., Krężel A., Kobos J., Pliński M., 2006a, Toxic Nodularia spumigena blooms in the coastal waters of the Gulf of Gdańsk: a ten-year survey, Oceanologia, 48 (2), 255-273.
- 62.Mazur-Marzec H., Meriluoto J., Pliński M., Szafranek J., 2006b, Characterization of nodularin variants from the Baltic Sea using liquid chromatography/mass spectrometry/mass spectrometry, Rapid Commun. Mass Sp., 20 (13), 2023-2032.
- 63.Mazur-Marzec H., Toruńska A., Błońska M. J., Moskot M., Pliński M., Jakóbkiewicz-Banecka J., Węgrzyn G., 2009, Biodegradation of nodularin and effect of the toxin on bacterial isolates from the Gulf of Gdańsk, Water Res., 43 (11), 2801-2810.
- 64.Mazur-Marzec H., Tymińska A., Szafranek J., Pliński M., 2007, Accumulation of nodularin in sediments, mussels, and fish from the Gulf of Gdańsk, southern Baltic Sea, Environ. Toxicol., 22 (1), 101-111.
- 65.Mazur-Marzec H., Żeglińska L., Pliński M., 2005, The effect of salinity on growth, toxin production, and morphology of Nodularia spumigena isolated from the Gulf of Gdańsk, southern Baltic Sea, J. Appl. Phycol., 17 (2), 171-179.
- 66.Moffitt M.C., Neilan B.A., 2000, The expansion of mechanistic and organismic diversity associated with non-ribosomal peptides, FEMS Microbiol. Lett., 191 (2), 159-167.
- 67.Moffitt M.C., Neilan B.A., 2001, On the presence of peptide synthetase and polyketide synthase genes in the cyanobacterial genus Nodularia, FEMS Microbiol. Lett., 196 (2), 207-214.
- 68.Moffitt M.C., Neilan B.A., 2004, Characterization of the nodularin synthetase gene cluster and proposed theory of the evolution of cyanobacterial hepatotoxins, Appl. Environ. Microb., 70 (11), 6353-6362.
- 69.Moisander P.H., McClinton E., Paerl H.W., 2002, Salinity effects on growth, photosynthetic parameters, and nitrogenase activity in estuarine planktonic cyanobacteria, Microb. Ecol., 43 (4), 432-442.
- 70.Namikoshi M., Choi B.W., Sakai R., Sun F., Rinehart K. L., Carmichael W.W., Evans W.R., Cruz P., Munro M.H.G., Blunt J.W., 1994, New nodularin: a general method for structure assignment, J. Org. Chem., 59 (9), 2349-2357.
- 71.Nehring S., 1993, Mortality of dogs associated with a bloom of the mass development of Nodularia spumigena (Cyanophyceae), in a brackish lake at the German North Sea coast, J. Plankton Res., 15 (7), 867-872.
- 72.Neumann T., Schernewski G., 2005, An ecological model evaluation of two nutrient abatement strategies for the Baltic Sea, J. Marine Syst., 56 (1-2), 195-206.
- 73.Ohta T., Sueoka E., Iida N., Komori A., Suganuma M., Nishiwaki R., Tatematsu M., Kim S. J., CarmichaelW.W., Fujiki H., 1994, Nodularin, a potent Inhibitor of protein phosphatases 1 and 2A, is a new environmental carcinogen in male F344 rat liver, Cancer Res., 54 (24), 6402-6406.
- 74.Paczuska L., Kosakowska A., 2003, Is iron a limiting factor of Nodularia spumigena blooms?, Oceanologia, 45 (4), 679-692.
- 75.Paerl H.W., Fulton R. S., 2006, Ecology of harmful cyanobacteria, [in:] Ecology of harmful algae, E. Granéli & J.T. Turner (eds.), Ecol. Stud. Vol. 189, Part B, Springer, Berlin, Heidelberg, 95-109.
- 76.Paerl H.W., Huisman J., 2008, Blooms like it hot, Science, 320 (5872), 57-58.
- 77.Paldavičiené A., Mazur-Marzec H., Razinkovas A., 2009, Toxic cyanobacteria blooms in the Lithuanian part of the Curonian Lagoon, Oceanologia, 51 (2), 203-216.
- 78.Pliński M., JóźwiakT., 1995, Dynamics of heterocytous cyanobacteria growth in the brackish water, Abstr. 7th Int. Conf. Toxic Phytoplankton, 12-16 July 1995, Sendai, Japan, p. 101.
- 79.Pliński M., Mazur-Marzec H., JóźwiakT., Kobos J., 2007, The potential causes of cyanobacterial blooms in Baltic Sea estuaries, Oceanol. Hydrobiol. Stud., 36 (1), 125-137.
- 80.Pliński M., Musiał A., Ostrowski B., 1998, Blue-green algae blooms in the Gulf of Gdańsk and surrounding area, Oceanol. Stud., 27 (1), 39-44.
- 81.Ploug H., 2008, Cyanobacterial surface blooms formed by Aphanizomenon sp. And Nodularia spumigena in the Baltic Sea: small-scale fluxes, pH, and oxygen microenvironments, Limnol. Oceanogr., 53 (3), 914-921.
- 82.Poutanen E.-L., Nikkilä K., 2001, Carotenoid pigments as tracers of cyanobacterial blooms in recent and post-glacial sediments of the Baltic Sea, Ambio, 30 (4-5), 179-183.
- 83.Rahm L., Jönsson A., Wulff F., 2000, Nitrogen fixation in the Baltic proper: an empirical study, J. Marine Syst., 25 (3-4), 239-248.
- 84.Rantala A., Fewer D. P., Hisbergues M., Rouhiainen L., Valtomaa J., Börner T., Sivonen K., 2004, Phylogenetic evidence for the early evolution of microcystin synthesis, Proc. Nat. Acad. Sci., 101 (2), 568-573.
- 85.Rapala J., Berg K.A., Lyra C., Niemi R. M., Manz W., Suomalainen S., Paulin L., Lahti K., 2005, Paucibacter toxinivorans gen. nov., sp. nov., a bacterium that degrades cyclic cyanobacterial hepatotoxins microcystins and nodularin, Int. J. Syst. Evol. Micr., 55 (4), 1563-1568.
- 86.Rapala J., Lahti K., Räsänen L. A., Esala A.-L., Niemelä S. I., Sivonen K., 2002, Endotoxins associated with cyanobacteria and their removal during drinking water treatment, Water Res., 36 (10), 2627-2635.
- 87.Rashidan K. K., Bird D. F., 2001, Role of predatory bacteria in the termination of a cyanobacterial bloom, Microb. Ecol., 41 (2), 97-105.
- 88.Rinehart K. L., Harada K.-I., Namikoshi M., Chen C., Harvis C. A., Munroe M. H. G., Blunt J. W., Mulligan P.E., Beasley V. R., Dahlem A.M., Carmichael W.W., 1988, Nodularin, microcystin and the configuration of Adda, J. Am. Chem. Soc., 110 (25), 8557-8558.
- 89.Rinehart K. L., Namikoshi M., Choi B.W., 1994, Structure and biosynthesis of toxins from blue-green algae (cyanobacteria), J. Appl. Phycol., 6 (2), 159-176.
- 90.Salomon P., Janson S., Granéli E., 2003, Molecular identification of bacteria associated with filaments of Nodularia spumigena and their effect on the cyanobacterial growth, Harmful Algae, 2 (4), 261-272.
- 91.Sellner K.G., 1997, Physiology, ecology, and toxic properties of marine cyanobacteria blooms, Limnol. Oceanogr., 42 (5, part 2), 1089-1104.
- 92.Simis S.G.H., Tijdens M., Hoogveld H. L., Gons H. J., 2005, Optical changes associated with cyanobacterial bloom termination by viral lysis, J. Plankton Res., 27 (9), 937-949.
- 93.Sipiä V.O., Kankaanpää H.T., Flinkman J., Lahti K., Meriluoto J.A.O., 2001a, Time-dependent accumulation of cyanobacterial hepatotoxins in flounders (Platichthys flesus) and mussels (Mytilus edulis) from the northern Baltic Sea, Environ. Toxicol., 16 (4), 330-336.
- 94.Sipiä V.O., Kankaanpää H.T., Lahti K., Carmichael W. W., Meriluoto J.A.O., 2001b, Detection of nodularin in flounder and cod from the Baltic Sea, Env iron. Toxicol., 16 (2), 121-126.
- 95.Sipiä V.O., Kankaanpää H., Peltonen H., Vinni M., Meriluoto J.A.O., 2007, Transfer of nodularin to three-spined stickleback (Gasterosteus aculeatus L.), herring (Clupea harengus L.), and salmon (Salmo salar L.) in the northern Baltic Sea, Ecotox. Environ. Safe., 66 (3), 421-425.
- 96.Sipiä V.O., Kankaanpää H.T, Pflugmacher S., Flinkman J., Furey A., James K. J., 2002, Bioaccumulation and detoxification of nodularin in tissues of flounders (Platichthys flesus), mussels (Mytilus edulis, Dreissena polymorpha), and clam (Macoma baltica) from the northern Baltic Sea, Ecotox. Environ. Safe., 53 (2), 305-311.
- 97.Sipiä V.O., Karlsson K.M., Meriluoto J.A.O., Kankaanpää H.T., 2003, Eiders (Somateria mollissima) obtain nodularin, a cyanobacterial hepatotoxin, in Baltic Sea food web, Environ. Toxicol. Chem., 23 (5), 1256-1260.
- 98.Sipiä V.O., Neffling M. R., Metcalf J. S., Nybom S. M.K., Meriluoto J.A.O., Codd G.A., 2008, Nodularin in feathers and liver of eiders (Somateria mollissima) caught from the western Gulf of Finland in June-September 2005, Harmful Algae, 7 (1), 99-105.
- 99.Sivonen K., Jones G., 1999, Cyanobacterial toxins, [in:] Toxic cyanobacteria in water: a guide to their public health consequences, monitoring and management, I. Chorus & J. Bartram (eds.), WHO Publ., E. & F.N. Spon, London, New York, 41-111.
- 100.Sivonen K., Kononen K., Carmichael W.W., Dahlem A.M., Rinehart K. L., Kiviranta J., Niemelä S. I., 1989, Occurrence of the hepatotoxic cyanobacterium Nodularia spumigena in the Baltic Sea and structure of the toxin, Appl. Environ. Microb., 55 (8), 1990-1995.
- 101.Sivonen K., Niemelä S. I., Niemi R.M., Lepistö L., Luona T.H., Räsänen L.A., 1990, Toxic cyanobacteria (blue-green algae) in Finnish fresh and coastal waters, Hydrobiologia, 190 (3), 267-275.
- 102.Spoof L., Vesterkvist P., Lindholm T., Meriluoto J., 2003, Screening for cyanobacterial hepatotoxins, microcystins and nodularins in environmental water samples by reversed-phase liquid chromatography - electrospray ionization mass spectrometry, J. Chromatogr. A, 1020 (1), 105-119.
- 103.Stal L. J., Albertano P., Bergman B., von Bröckel K., Gallon J.R., Hayes P. K., Sivonen K., Walsby A.E., 2003, BASIC: Baltic Sea cyanobacteria. An investigation of the structure and dynamics of water blooms of cyanobacteria in the Baltic Sea - responses to a changing environment, Cont. Shelf Res., 23 (17-19), 1695-1714.
- 104.Strogyloudi E., Giannakourou A., Legrand C., Ruehl A., Graneli E., 2006, Estimating the accumulation and transfer of Nodularia spumigena toxins by the blue mussel Mytilus edulis: An appraisal from culture and mesocosm experiments, Toxicon, 48 (4), 359-372.
- 105.Suikkanen S., Fistarol G.O., Granéli E., 2004, Allelopathic effects of the Baltic cyanobacteria Nodularia spumigena, Aphanizomenon flos-aquae and Anabaena lemmermannii on algal monocultures, J. Exp.Mar. Biol. Ecol., 308 (1), 85-101.
- 106.Sullivan M. B., Waterbury J.B., Chisholm S.W., 2003, Cyanophages infecting the oceanic cyanobacterium Prochlorococcus, Nature, 424 (6952), 1047-1051.
- 107.Surakka A., Sihvonen L.M., Lehtimäki J.M., Wahlsten M., Vuorela P., Sivonen K., 2005, Benthic cyanobacteria from the Baltic Sea contain cytotoxic Anabaena, Nodularia, and Nostoc strains and an apoptosis-inducing Phormidium strain, Environ. Toxicol., 20 (3), 285-292.
- 108.Thingstad T. F., Lignell R., 1997, Theoretical models for the control of bacterial growth rate, abundance, diversity and carbon demand, Aquat. Microb. Ecol., 13 (1), 19-27.
- 109.Tillett D., Dittmann E., Erhard M., von Döhren H., Börner T., Neilan B.A., 2000, Structural organization of microcystin biosynthesis in Microcystis aeruginosa PCC 7806: an integrated peptide-polyketide synthetase system, Chem. Biol., 7 (11), 753-764.
- 110.Toruńska A., Bolałek J., Pliński M., Mazur-Marzec H., 2008, Biodegradation and sorption of nodularin (NOD) in fine-grained sediments, Chemosphere, 70 (11), 2039-2046.
- 111.Tuomainen J.M., Hietanen S., Kuparinen J., Martikainen P. J., Servomaa K., 2006, Community structure of the bacteria associated with Nodularia sp. (Cyanobacteria) aggregates in Baltic Sea, Microb. Ecol., 52 (3), 513-522.
- 112.Tymińska A., Mazur-Marzec H., Graczyk M., Pliński M., 2005, Effect of two different Nodularia spumigena extracts on Danio rerio eggs mortality and hatching time, Oceanol. Hydrobiol. Stud., 34 (Suppl. 3), 149-159.
- 113.Vahtera E., Conley D. J., Gustafsson B.G., Kuosa H., Pitkänen H., Savchuk O.P., Tamminen T., Viitasalo M., Voss M., Wasmund N., Wulf F., 2007, Internal ecosystem feedbacks enhance nitrogen-fixing cyanobacteria blooms and complicate management in the Baltic Sea, Ambio, 36 (2-3), 186-194.
- 114.Vahtera E., Laanemets J., Pavelson J., Huttunen M., Kononen K., 2005, Effect of upwelling on the pelagic environment and bloom-forming cyanobacteria in the western Gulf of Finland, Baltic Sea, J. Marine Syst., 58 (1-2), 67-82.
- 115.Valdor R., Aboal M., 2007, Effect of living cyanobacteria, cyanobacterial extracts and pure microcystins on growth and ultrastructure of microalgae and bacteria, Toxicon, 49 (6), 769-779.
- 116.Vuorio K., Lagus A., Lehtimäki J.M., Suomela J., Helminen H., 2005, Phytoplankton community responses to nutrient and iron enrichment under different nitrogen to phosphorus ratios in the northern Baltic Sea, J. Exp. Mar. Biol. Ecol., 322 (1), 39-52.
- 117.Walsby A. E., Hayes P. K., Boje R., 1995, The gas vesicles, buoyancy and vertical distribution of cyanobacteria in the Baltic Sea, Eur. J. Phycol., 30 (2), 87-94.
- 118.Wasmund N., 1997, Occurrence of cyanobacterial blooms in the Baltic Sea in relation to environmental conditions, Int. Rev. Ges. Hydrobio., 82 (2), 169 -84.
- 119.Wiegand C., Pflugmacher S., 2005, Ecotoxicological effects of selected cyanobacterial secondary metabolites a short review, Toxicol. Appl. Pharm., 203 (3), 201-218.
- 120.Wiegand C., Pflugmacher S., Oberemm A., Meems N., Beattie K.A., Steinberg C. E.W., Codd G.A., 1999, Uptake and effects of microcystin-LR on detoxication enzymes of early life stages of the zebrafish (Danio rerio), Env iron. Toxicol., 14 (1), 89-95.
- 121.Wiklund T., Bylund G., 1994, Diseases of flounder (Platichthys flesus (L.)) in Finnish coastal waters, [in:] Diseases and parasites of flounder (Platichthys flesus) in the Baltic Sea, G. Bylund & L.-G. Lönnström (eds.), BMB Publ. No. 15, 49-52.
- 122.Yoshida T., Takashima Y., Tomaru Y., Shirai Y., Takao Y., Hiroishi S., Nagasaki K., 2006, Isolation and characterization of a cyanophage infecting the toxic cyanobacterium Microcystis aeruginosa, Appl. Environ. Microb., 72 (2), 1239-1247.
- 123.Yoshizawa S., Matsushima R., Watanabe M. F., Harada K.-I., Ichihara A., Carmichael W.W., Fujiki H., 1990, Inhibition of protein phosphatases by microcystins and nodularin associated with hepatotoxicity, J. Cancer Res. Clin., 116 (6), 609-614.
- 124.Zurawell R.W., Chen H., Burke J.M., Prepas E. E., 2005, Hepatotoxic cyanobacteria: a review of the biological importance of microcystins in freshwater environments, J. Toxicol. Env. Health B, 8 (1), 1-37.
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bwmeta1.element.baztech-article-BUS5-0020-0038