[Adamovský O, Kopp, R., Hilscherová K, Babica, P., Palíková M, Pašková V, Navrátil, S., and Bláha, L. (2007) Microcystin kinetics (bioaccumulation, elimination) and biochemical responses in common carp and silver carp exposed to toxic cyanobacterial blooms. Environ Toxicol & Chem 26: 2687-2693.10.1897/07-213.118020691]Search in Google Scholar
[Babica P, Bláha L, and Maršálek B. (2006) Exploring the natural role of microcystins - a review of effects on photoautotrophic organisms. J Phycol 42: 9-20.10.1111/j.1529-8817.2006.00176.x]Search in Google Scholar
[Babica P, Hilscherová K, Bártová K, Bláha L, and Maršálek B. (2007) Effects of dissolved microcystins on growth of planktonic photoautotrophs. Phycologia 46: 137-142.10.2216/06-24.1]Search in Google Scholar
[Bartram J, Carmichael WW, Chorus I, Jones G, and Skulberg OM. (1999) Introduction. In: Toxic cyanobacteria in water: A guide to their public health consequences, monitoring and management. (Chorus I and Bartram J, eds.), pp. 1-14. WHO & E&FN Spon, London10.1201/9781482295061]Search in Google Scholar
[Beardall J, and Raven JA. (2004) The potential effects of global climate change on microalgal photosynthesis, growth and ecology. Phycologia 43: 26-40.10.2216/i0031-8884-43-1-26.1]Search in Google Scholar
[Bláhová L, Babica P, Adamovský O, Kohoutek J, Maršálek B, and Bláha L. (2008) Analyses of cyanobacterial toxins (microcystins, cylindrospermopsin) in the reservoirs of the Czech Republic and evaluation of health risks. Environ Chem Lett 6: 223-227.10.1007/s10311-007-0126-x]Search in Google Scholar
[Bláhová L, Babica P, Maršálková E, Smutná M, Maršálek B, and Bláha L. (2007) Concentrations and seasonal trends of extracellular microcystins in freshwaters of the Czech Republic - results of the national monitoring program. CLEAN - Soil, Air, Water 35: 348-354.10.1002/clen.200700010]Search in Google Scholar
[Bláhová L, Oravec M, Maršálek B, Šejnohová L, Šimek Z, and Bláha L. (2009) The first occurrence of the cyanobacterial alkaloid toxin cylindrospermin in the Czech Republic as determined by immunochemical and LC/MS methods. Toxicon 53: 519-524.10.1016/j.toxicon.2009.01.01419673098]Search in Google Scholar
[Bouaicha N, Maatouk I, Plessis MJ, and Perin F. (2005) Genotoxic potential of microcystin-LR and nodularin in vitro in primary cultured rat hepatocytes and in vivo in rat liver. Environ Toxicol 20: 341-34710.1002/tox.2011015892058]Search in Google Scholar
[Briand J-F, Jacquet S, Bernard C, and Humbert J-F. (2003) Health hazards for terrestrial vertebrates from toxic cyanobacteria in surface water ecosystems. Vet Res 34: 361-377.]Search in Google Scholar
[Chorus I. (2001) Introduction: Cyanotoxins - research for environmental safety and human health. In: Cyanotoxins - Occurence, Causes, Consequences (Chorus I, ed.), pp. 1-4. Springer-Verlag, Berlin.10.1007/978-3-642-59514-1_1]Search in Google Scholar
[Chorus I. (2005) Editorial and summary. In: Current approaches to cyanotoxin risk assessment, risk management and regulations in different countries (Chorus I, ed.), pp. 1-8. Federal Environmental Agency (Umweltbundesamt), Berlin.]Search in Google Scholar
[Chorus I, and Bartram J. eds. (1999) Toxic Cyanobacteria in Water: A guide to their public health consequences, monitoring and management. E&FN Spon, London.10.1201/9781482295061]Search in Google Scholar
[Codd GA, Lindsay J, Young FM, Morrison LF, and Metcalf JS. (2005a) Cyanobacterial Toxins. In: Harmful Cyanobacteria (Huisman J, Matthijs HCP and Visser PM, eds.), pp. 1-23. Springer-Verlag.10.1007/1-4020-3022-3_1]Search in Google Scholar
[Codd GA, Morrison LF & Metcalf JS. (2005b) Cyanobacterial toxins: risk management for health protection. Toxicology and Applied Pharmacology 203: 264-272.10.1016/j.taap.2004.02.016]Search in Google Scholar
[Dawson RM. (1998) The toxicology of microcystins. Toxicon 36: 953-962.]Search in Google Scholar
[Dietrich D, and Hoeger S. (2005) Guidance values for microcystins in water and cyanobacterial supplement products (blue-green algal supplements): a reasonable or misguided approach? Toxicology and Applied Pharmacology 203: 273-289.10.1016/j.taap.2004.09.005]Search in Google Scholar
[Ding W-X, and Ong CN. (2003) Role of oxidative stress and mitochondrial changes in cyanobacteria-induced apoptosis and hepatotoxicity - MiniReview. FEMS Microbiology Letters 220: 1-7.]Search in Google Scholar
[Duy TN, Lam PKS, Shaw GR, and Connell DW. (2000) Toxicology and risk assessment of freshwater cyanobacterial (blue-green algal) toxins in water. Rev Environ Contam Toxicol 163: 113-186.10.1007/978-1-4757-6429-1_3]Search in Google Scholar
[Edwards C, Beattie KA, Scrimgeour CM, and Codd GA. (1992) Identification of Anatoxin-a in Benthic Cyanobacteria (Blue-Green-Algae) and in Associated Dog Poisonings at Loch Insh, Scotland. Toxicon 30: 1165-1175.10.1016/0041-0101(92)90432-5]Search in Google Scholar
[Falconer I. (2006) Cyanobacterial Toxins of Drinking Water Supplies: cylindrospermopsins and microcystins. CRC Press, Boca Raton, Florida, USA.10.1002/tox.20194]Search in Google Scholar
[Fawell JK, Mitchell RE, Everett DJ, and Hill RE. (1999) The toxicity of cyanobacterial toxins in the mouse: I Microcystin-LR. Human & Experimental Toxicology 18: 162-167.10.1177/096032719901800305]Search in Google Scholar
[Fu W-Y, Chen JP, Wang X-M, and Xu LH. (2005) Altered expression of p53, Bcl-2 and Bax induced by microcystin-LR in vivo and in vitro. Toxicon 46: 171-177.]Search in Google Scholar
[Gehringer MM. (2004) Microcystin-LR and okadaic acid-induced cellular effects: a dualistic response. FEBS Letters 557: 1-8.]Search in Google Scholar
[Guzman RE, Solter PF, and Runnegar MT. (2003) Inhibition of nuclear protein phosphatase activity in mouse hepatocytes by the cyanobacterial toxin microcystin-LR. Toxicon 41: 773-781.10.1016/S0041-0101(03)00030-8]Search in Google Scholar
[Humpage AR, and Falconer IR. (1999) Microcystin-LR and liver tumor promotion: Effects on cytokinesis, ploidy, and apoptosis in cultured hepatocytes. Environmental Toxicology 14: 61-75.]Search in Google Scholar
[Humpage AR, Fenech M, Thomas P, and Falconer IR. (2000) Micronucleus induction and chromosome loss in transformed human white cells indicate clastogenic and aneugenic action of the cyanobacterial toxin, cylindrospermopsin. Mutation Research/Genetic Toxicology and Environmental Mutagenesis 472: 155-161.10.1016/S1383-5718(00)00144-3]Search in Google Scholar
[Ikawa M, Sasner JJ, and Haney JF. (1997) Inhibition of Chlorella growth by degradation and related products of linoleic and linolenic acids and the possible significance of polyunsaturated fatty acids in phytoplankton ecology. Hydrobiologia 356: 143-148.10.1023/A:1003103726520]Search in Google Scholar
[Mez K, Beattie KA, Codd GA, Hanselmann K, Hauser B, Naegeli H, and Preisig HR. (1997) Identification of a microcystin in benthic cyanobacteria linked to cattle deaths on alpine pastures in Switzerland. European Journal of Phycology 32: 111-117.10.1080/09670269710001737029]Search in Google Scholar
[Oberemm A, Heinze R, Papendorf O, and Fastner J. (2001) Significance of unidentified toxic compounds and approaches to their identification. In: Cyanotoxins - Occurence, Causes, Consequences (Chorus I, ed.), pp. 286-295. Springer-Verlag, Berlin.]Search in Google Scholar
[Rapala J, Robertson A, Negri AP, Berg KA, Tuomi P, Lyra C, Erkomaa K, Lahti K, Hoppu K, and Lepisto L. (2005) First report of saxitoxin in Finnish lakes and possible associated effects on human health. Environmental Toxicology 20: 331-340.10.1002/tox.2010915892061]Search in Google Scholar
[Reinikainen M, Meriluoto JAO, Spoof L, and Harada K. (2001) The toxicities of a polyunsaturated fatty acid and a microcystin to Daphnia magna. Environmental Toxicology 16: 444-448.10.1002/tox.1000311594032]Search in Google Scholar
[Sivonen K, and Jones G. (1999) Cyanobacterial toxins. In: Toxic Cyanobacteria in Water: A Guide to Public Health Significance, Monitoring and Management (Chorus I and Bartram J, eds.), pp. 41-111. E&FN Spon, London.]Search in Google Scholar
[Watson SB. (2003) Cyanobacterial and eukaryotic algal odour compounds: signals or by-products? A review of their biological activity. Phycologia 42: 332-350.]Search in Google Scholar
[Welker M, and von Dohren H. (2006). Cyanobacterial peptides - Nature's own combinatorial biosynthesis. FEMS Microbiol Rev 30: 530-563.]Search in Google Scholar
[WHO (1998a) Guidelines for drinking water quality. World Health Organisation, Geneva.]Search in Google Scholar
[WHO (1998b) Chapter 7: Freshwater algae and cyanobacteria. In: Guidelines for Safe Recreational-water Environments, Volume 1: Coastal and Freshwaters, pp. 125-209. World Health Organization.]Search in Google Scholar
[Wiegand C, and Pflugmacher S. (2005) Ecotoxicological effects of selected cyanobacterial secondary metabolites a short review. Toxicology and Applied Pharmacology 203: 201-218.10.1016/j.taap.2004.11.00215737675]Search in Google Scholar
[Xie LQ, Xie P, Guo LG, Li L, Miyabara Y, and Park HD. (2005) Organ distribution and bioaccumulation of microcystins in freshwater fish at different trophic levels from the eutrophic Lake Chaohu, China. Environmental Toxicology 20: 293-300.10.1002/tox.2012015892067]Search in Google Scholar
[Yoshida T, Makita Y, Nagata S, Tsutsumi T, Yoshida F, Sekijima M, Tamura SI, and Ueno Y. (1997) Acute oral toxicity of microcystin-LR, a cyanobacterial hepatotoxin, in mice. Natural Toxins 5: 91-95.10.1002/nt.19407554]Search in Google Scholar
[Yu SZ. (1995) Primary Prevention of Hepatocellular-Carcinoma. Journal of Gastroenterology and Hepatology 10: 674-682.]Search in Google Scholar
[Zhou L, Yu H, and Chen K. (2002) Relationship between microcystin in drinking water and colorectal cancer. Biomedical and Environmental Sciences 15: 166-171.]Search in Google Scholar
[Zurawell RW, Chen HR, Burke JM, and Prepas EE. (2005) Hepatotoxic cyanobacteria: A review of the biological importance of microcystins in freshwater environments. Journal of Toxicology and Environmental Health-Part B-Critical Reviews 8: 1-37.10.1080/1093740059088941215762553]Search in Google Scholar