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Występowanie toksyn sinicowych w wodach powierzchniowych ujmowanych na potrzeby komunalne

Identyfikatory
Warianty tytułu
EN
Occurrence of cyanobacteria in surface waters received for municipal needs
Języki publikacji
PL
Abstrakty
PL
Nadmierny wzrost fitoplanktonu powoduje tzw. rozkwit wody. Zjawisko to sprawia, że woda nie nadaje się do celów konsumpcyjnych i rekreacyjnych. Wśród organizmów rozmnażających się w wodzie są cyjanobakterie. Zainteresowanie tymi organizmami wynika z toksyn, które wytwarzają. Niniejsza publikacja jest przeglądem literatury na temat rodzajów toksyn, metod ich określania i usuwania ze zbiorników wodnych.
EN
Excessive growth of phytoplankton causes the so-called bloom of water. This phenomenon makes the water unsuitable for consumption and recreational purposes. Among the organisms that multiply in water are cyanobacteria. The interest in these organisms is due to the toxins, which cyanobacteria produce. The publication is a review of the literature on the types of toxins, methods of their determination and removing from water reservoirs.
Czasopismo
Rocznik
Tom
Strony
35--43
Opis fizyczny
Bibliogr. 50., rys., tab.
Twórcy
  • Uniwersytet im. A. Mickiewicza, Wydział Chemii, Zakład Technologii Uzdatniania Wody
  • Uniwersytet im. A. Mickiewicza, Wydział Chemii, Zakład Technologii Uzdatniania Wody
  • Uniwersytet im. A. Mickiewicza, Wydział Chemii, Zakład Technologii Uzdatniania Wody
  • Uniwersytet im. A. Mickiewicza, Wydział Chemii, Zakład Dydaktyki Chemii
Bibliografia
  • 1. Bourke A.T.C. et al., (1983) An outbreak of hepato-enteritis (the Palm Island mysterydisease) possibly caused by algal intoxication. Toxicon. 21,45-48.
  • 2. Buratti F. et al. (2017),Cyanotoxins: producing organisms, occurrence, toxicity, mechanism of action and human health toxicological risk evaluation. Springer-Verlag Berlin Heidelberg.
  • 3. Carmichael W.W. (2001) Health effects of toxin-producing cyanobacteria, The Cyano Habs. Hum. Ecol. Risk Assessement. 7, 1393-1407.
  • 4. Codd G.A., et al., (2005) From mass mortalities to management measures. In: Harmful cyanobacteria (Huisman J, Matthijs HCP, Visser PM, eds); 1-23.
  • 5. Chiswell R.K., et al., (1999) Stability of cylindrospermopsin, the toxin from the cyanobacterium. Cylindrospermopsis raciborskii, effect of pH, temperature and sunlight on decomposition. Environ.Toxicol. 14, 155-161.
  • 6. Chmist, J., Hämmerling, M. (2016). Selecting the most effective method of recultivation of water reservoirs using the AHP metod. Acta. Sci. Pol., Formatio Circumiectus, 15(2), 27–39.
  • 7. Chorus I. Bartram J. (1999) Toxic Cyanobacteria in Water, a guide to their public health consequences monitoring and management. Spoon Press.
  • 8. Chorus I. et al. (2000) Health risks caused by freshwater cyanobacteria in recreational waters. Toxicol. Environ. Health Part B. 3, 323-347.
  • 9. Cox P. A., Banack S. A., Murch S. J., (2003). Biomagnification of cyanobacterial neurotoxins and neurodegenerative disease among theChamorro people of Guam. Proceedings of National Academy of Science, 100 (23), 13380–13383.
  • 10. Drenner, W., Hambright, K. T. (1999). Biomanipulation of fish assemblages as a lake restoration technique. Archiv für Hydrobiologie, 146, 2: 129–165.
  • 11. Duy T.N. et al, (2000) Toxicology and risk assessment of freshwater cyano-bacterial (bluegreen algal) toxins in water. Rev. Environ. Contam. Toxicol., 163, 113 –186.
  • 12. Ernst B. et al. (2008): Investigations on the impact of toxic cyanobacteria on fish – as exemplified by the coregonids in lake Ammersee.
  • 13. Falconer I.R., Humpage A.R., (1996). Tumour promotion by cyanobacterial toxins. Phycologia, 35 (Supl. 6), 74–79.
  • 14. Funari E., Manganelli M., Sinisi L. (2012) Impact of climate change on waterborne diseases. Ann Ist Super Sanitŕ 48(4):473–487.
  • 15. Haque F. et al., (2017) Extraction and applications of cyanotoxins and other cyanobacterial secondary metabolites, 164-175.
  • 16. Horppila J. et al. (1998) Top-down or bottomup effects by fish: issues of concern in biomanipulation of lakes. Restorat. Ecol., 6, 1, 20–28.
  • 17. Ito E. Satake M., Yasumoto T. (1996) Pathological effects of lyngbyatoxin A upon mice. Toxicon. 40, 2002, 551-556.
  • 18. Jonasson S. et al. (2010) Transfer of a cyanobacterial neurotoxin within a temperate aquatic ecosystem suggests pathways for human exposure. Proceedings of National Academy of Science.
  • 19. Jurczak T. Tarczyńska M., Meriluoto J. (2003) Występowanie i różnorodność hepatotoksyn sinicowych.Materiały konferencyjne „Mikrozanieczyszczenia w środowisku człowieka”, 50-59.
  • 20. Kondo F. et al. (1992)., Separation and identification of microcystins in cyanobacteria by frit-fast atom bombardment liquid chromatography/mass spectrometry. Toxicon, 1992, 30, 227-237.
  • 21. Kondo F.et al. (2002): Determination of microcystins in lake water using reusable immunoaffinity column. Toxicon, 40, 893-899.
  • 22. Kankaanpaa H. et al. (2009) Productionand sedimentation of peptide toxins nodularin-R and microcystin-LR in the northern Baltic Sea, Environ. Pollution, 157 (157),1301–1309.
  • 23. Krawczyk B., Szczukocki D. (2016), Cyjanobakterie – sprzymierzeńcy czy wrogowie?, Uniwersytet Łódzki, Wydział Chemii Katedra Chemii Nieorganicznej i Analitycznej Pracownia Zagrożeń Środowiska.
  • 24. Kurmayer R., Christiansen G., (2009). The genetic basis of toxin production in Cyanobacteria. Freshwater Review, 2 (1), 31–50.
  • 25. Llewellyn L.E., (2006), Saxitoxin, a toxic marine natural product that targets a multitude of receptors. Nat. Prod. rep. 23, 200-222.
  • 26. Mazur-Marzec H. et al. (2006). Toxic Nodularia spumigena blooms in the coastal waters of the Gulf of Gdańsk: a ten-year survey. Oceanologia, 48 (2), 255–273.
  • 27. McGregor G.B. et al. (2012) First report of a toxic Nodularia spumigena (Nostocales/Cyanobacteria) bloom in sub-tropical Australia. I. Phycological and public health investigations. Int J Environ Res Public Health 9(7):2396–2411.
  • 28. Msagati T.A.M., Siame B.A. i Shushu D.D. (2006) Evaluation of methods for the isolation, detection and quantification of cyanobacterial hepatotoxins. Aquat. Toxicol., 78, 382-397.
  • 29. Nagai H. Yasumoto Y., Hokama Y. Aplysiatoxin and debromoaplysiatoxin as the causative agents of a red alga Gracilaria coronopifolia poisoning in Hawaii. Toxicon. 37, 753-761.
  • 30. Namikoshi M., et al. (2003) Simultaneous production of homoanatoxin-a, anatoxina and a new non-toxic 4-hydroxyhomoanatoxin-a by the cyanobacterium Raphidiopsis mediterranea Skuja. Toxicon. 42, 533-538.
  • 31. Ohta T. et al. (1994) Nodularin, a potentInhibitor of protein phosphatases 1 and 2A, is a new environmental carcinogen in male F344 rat liver. Cancer Research, 54 (24), 6402–6406.
  • 32. Ohtani I. Moore R.E., Runnegar M.T.C. (1992) Cylindrospermopsin: a potent hepatotoxin from the blue-green alga Cylindrospermopsis raciborskii. J. Am. Chem. Soc. 114, 7941-7942.
  • 33. Oren A. (2011) Cyanobacterial systematics and nomenclature as featured in the International Bulletin of Bacteriological Nomenclature and Taxonomy. Int. J. Syst. Evol. Microbiol. 61, 10-15.
  • 34. Paerl H.W., Otten T.G. (2013) Blooms Bite the Hand That Feeds Them. Science 342(6157):433–434.
  • 35. Poon G.K. et al. (1993): Liquid chromatography electrospray ionization-mass spectrometry of cyanobacterial toxins. J. Chromatogr., 628, 215-233.
  • 36. Rapala J., et al. (2005), First report of saxitoxin in Finnish Lakes and possible associated effects on human health. Envrion Toxicol. 3, 331-340.
  • 37. Rellan S., et al. (2009) First detection of anatoxin-a in humand and animal dietary supplements containing cyanobacteria. Food Chem. Toxicol. 47, 2189-2195.
  • 38. Repka S. et al. (2004) Associations of cyanobacterial toxin, nodularin, with environmental factors and zooplankton in the Baltic Sea. Microbial Ecology, 47, 350–358.
  • 39. Runnegar M.T. et al. (1995), Inhibition of reduced glutathione synthesis by cyanobacterial alkaloid cylindrospermopsin in cultured rathepatocytes. Biochem. Pharmacol. 49, 219–225.
  • 40. Seckbach J. (2007) Algae and cyanobacteria in extreme environments. Springer, Dordrecht, Holandia, 661–683.
  • 41. Sipi V.O. et al., (2001) Time-dependent accumulation of cyanobacterial hepatotoxins in flounders (Platichthys flesus) and mussels (Mytilus edulis) from the Northern Baltic Sea. Environ. Toxicol. 16, 330–336.
  • 42. Sivonen K., et al. (1989) Occurrence of the hepatotoxic cyanobacterium Nodularia spumigena in the Baltic Sea and structure of the toxin. Applied Environmental Microbiology, 55 (8), 1990–1995.
  • 43. Stewart I. et al., (2008) Cyanobateria and cyanobacterial toxins. Oceans and human health:risks and remedies.from the seas. Academic Press, 271–296.
  • 44. Sutryk K. Mazur-Marzec H. (2012) Toksyczne zakwity cyjanobakterii w Morzu Bałtyckim. Gdańsk.
  • 45. Tandeau de Marsac N., (2000) Toxic cyanobacteria in water consequences on health, preventive and remedial measures. Conf. Proc. „Water, Microbes and Health”.
  • 46. Thaler B. D. (1995), Restoration of a small meromictic lake: Effect on water chemistry and stratification, Limnologica 25 (3-4), 193–210.
  • 47. Van Buynder P. G. et al., (2001)Nodularin uptake by seafood during a cyanobacterial bloom. Environ.Toxicol.16, 468-471.
  • 48. Ward.K,(2013) Cyanobacteria & Cyanotoxins: Recent Progress Toward Understanding Impacts on Water Quality, Division of Water Quality State Water Resources Control Board.
  • 49. Westhuizen A.J., Elof J.N. (1983). Efect of temperature and light on the toxicity and growth of the blue-green alga Microcystis aeruginosa(UV-006). Planta 163(1), 55-59.
  • 50. Wiegand, C. and Pflugmacher, S.(2005): Ecotoxicological effects of selected cyanobacterial secondary metabolites – A short review. Toxicol Appl. Pharm, 203, 201-218.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c6e45b1e-6416-410d-a608-5a5a051dff14
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