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The effect of cyanobacterial blooms on the phytoplankton structure in the lowland Narew River (north-eastern Poland) was examined. The studies were carried out at stations situated at different distances from the eutrophic Siemianówka Dam Reservoir. In 2008, the investigated lowland reservoir and the outflowing river were characterized by the dominance of toxic cyanobacteria (from July to October). At a station situated 130 km below the dam, species composition in the river was very similar to that in the shallow reservoir. Planktothrix agardhii was the main and permanent dominant, both in limnoplankton and potamoplankton. The current study indicates that the eutrophic Siemianówka Dam Reservoir is the main and rich source of phytoplankton for the outflowing Narew River. Cyanobacteria were dominant in the river phytoplankton at all sampling stations, but their share in phytoplankton biomass gradually decreased with the distance from the dam. Chemical analysis revealed the presence of microcystins (MCs) in water samples collected from June to October. The toxins, mainly demethylated MC analogues, were detected at a long distance down the river, even 100 km from the dam. Maximum concentration of MCs (14.3 μg l-1) was measured on 13 October, 9.1 km below the dam.
Czasopismo
Rocznik
Tom
Strony
19--26
Opis fizyczny
Bibliogr. 31 poz., tab., wykr.
Twórcy
autor
autor
- Department of Hydrobiology, University of Białystok ul. Świerkowa 20B, 15-950 Białystok, Poland, magra@uwb.edu.pl
Bibliografia
- 1.Bahnwart M., Hübener T., Schubert H., 1999, Downstream changes in phytoplankton composition and biomass in a lowland river-lake system (Warnow River, Germany), Hydrobiol. 391: 99-111.
- 2.Everbecq E., Gosselanin V., Viroux L., Descy J-P., 2001, Potamon: a dynamic model for predicting phytoplankton composition and biomass in lowland river, Wat. Res. 35(4): 901-912.
- 3.Fastner J., Erhard M., Carmichael W.W., Sun F., Rinehart K.L., Chorus I., 1999, Characterization and diversity of microcystin in natural blooms and strains of the genera of Microcystis and Planktothrix from German freshwaters, Arch. Hydrobiol. 145, 147-163.
- 4.Friedl G., Wüest A., 2002, Disrupting biogeochemical cycles - Consequences of damming, Aquat. Sci. 64:55-65.
- 5.Grabowska M., 2005, Cyanoprokaryota blooms in polyhumic Siemianówka dam reservoir in 1992-2003, Ocean. Hydrob. Stud. 34(1): 73-85.
- 6.Grabowska M., 2006b, Phytoplankton of Siemianówka reservoir tributaries [in:] Ecosystem of Siemianówka reservoir in 1990-2004 and its restoration, Ed. Górniak, A., Department of Hydrobiology University of Białystok, pp. 55-56 (in Polish)
- 7.Grabowska M., 2006a. Phytoplankton [in:] Ecosystem of Siemianówka reservoir in 1990-2004 and its restoration, Ed. Górniak, A., Department of Hydrobiology University of Białystok, pp. 154-162 (in Polish)
- 8.Grabowska M., Pawlik- Skowrońska B., 2008, Replacement of Chroococcales and Nostocales by Oscillatoriales caused a significant increase in microcystin concentrations in a dam reservoir, Ocean. Hydrob. Stud. 37(4): 23-33
- 9.Jekatierynczuk-Rudczyk E., Górniak A., 2006, Influence of Siemianówka reservoir on Narew River below dam [in:] Ecosystem of Siemianówka reservoir in 1990-2004 and its restoration, Ed. Górniak, A., Department of Hydrobiology University of Białystok, pp. 193-199 (in Polish)
- 10.Kabziński A., Grabowska M., Juszczak R., Karkoszka I., 2008, Determination of influence of environmental factors for value of cyanobacterial blooms and hepatotoxin biosynthesis in Siemianówka dam reservoir in season 2007 [in:] Ecotoxicology in environmental protection. Eds. Kołwzan B., Garbas K., Wrocław University of Technology, pp. 153-157 (in Polish)
- 11.Karrasch B., Mehrens M., Rosenlöcher Y., Petres K., 2001, The dynamics of phytoplankton, bacteria, and heterotrophic Flagellates at two banks near Magdeburg in the River Elbe (Germany), Limnologica 31: 93-107
- 12.Köhler J., Hong S., 2000, Phytoplankton selection in a river-lake system during two decades of changing nutrient supply, Hydrobiologia 424: 3-24
- 13.Kuiper-Goodman T., Falconer J., 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
- 14.Kurmayer R., Christiansen G., Fastner J., Börner T., 2004. Abundance of active and inactivee microcystin genotypes in populations of the toxic cyanobcterium Planktothrix spp., Environ. Microbiol. 6, 831-841
- 15.Kurmayer R., Christiansen G.., 2009, The genetic basis of toxin production in cyanobacteria, Freshw. Rev. 2, 31-50
- 16.Malatre K., Gosse Ph., 1995, Is it possible to influence water temperature and quality in the river Siene upstream of Paris in summer by managing the upstream reservoirs? Wat. Sci Tech. 31 (9): 67-77
- 17.Mazur-Marzec H., Spoof L., Kobos J., Pliński M., Meriluoto J., 2008, Cyanobacterial hepatotoxins, microcystins and nodularins, in fresh and brackish waters of Pomeranian Province, northern Poland, Ocean. Hydrob. Stud. 37 (4): 3-21.
- 18.Mbedi S., Welker M., Faster J., Wiedner C., 2005, Variability of the microcystin synthetase gene cluster in the genus Planktothrix (Oscillatoriales, Cyanobacteria), FEMS Microbiol. Lett., 245:299-306
- 19.Mitrovic S.M., Oliver R.L., Rees C., Bowling L.C., Buckney R. T., 2003, Critical flow velocity for the growth and dominance of Anabaena circinalis in some turbid freshwater rivers, Freshwater Biology, 48, 164-174
- 20.Pawlik-Skowrońska B., Skowroński T., Pirszel J., Adamczyk A., 2004, Relationship between cyanobacterial bloom composition and anatoxin-a and microcystin occurrence in the eutrophic dam reservoir (SE Poland), Pol. J. Ecol., 52: 479-90
- 21.Pawlik-Skowrońska B., Pirszel J., Kornijów R., 2008, Spatial and temporal variation in microcystin concentrations during perennial bloom of Planktothrix agardhii in a hypertrophic lake, Ann. Limnol. - Int.J.lim.44(2): 63-68
- 22.Reynolds C.S., 1994, The long, the short and the stalled: on the attributes of phytoplankton selected by physical mixing in lakes and rivers. Hydrobiologia 289: 9-21
- 23.Reynolds C.S., 2003, Planktic community assembly inflowing water and the ecosystem health of rivers, Ecological Modelling 160:191-203
- 24.Sabater S., Artigas J., Durán C., Pardos M., Romani A.M., Tornés E., Ylla I., 2008, Longitudinal development of chlorophyll and phytoplankton assemblages in a regulated large river (the Ebro River), Science of the Total Environment 404: 196-206
- 25.Salmaso N., Braioni M. G., 2008, Factors controlling the seasonal development and distribution of the phytoplankton community in the lowland course of large river in Northern Italy (River Adige), Aquat. Ecol. 42:533-545
- 26.Sivonen K., Jones G.., 1999, Cyanobacterial toxins. [In:] Toxic cyanobacteria in water: a guide to their public health consequences, monitoring and management, I. Chorus & Bartram (ed.). WHO Publ., E. & F.N. Spon, London-New York, 41-111
- 27.Skidmore R.E., Maberly S.C., Witton B.A., 1998, Patterns of spatial and temporal variation in phytoplankton chlorophyll a in the River Trent and its tributaries, The Science of the Total Environment 210/211: 357-365
- 28.Szeląg-Wasilewska E., Zagajewski P., Stachnik W., 2009, Cyanobacterial community of the lowland Warta River (Poland), Suppl. Ocean. Hydrob. Stud. 38: 1-7
- 29.Welker M., Christiansen G., Van Dohren H., 2004. Diversity of coexisting Planktothrix (Cyanobacteria) chemotypes deduced by mass spectral analysis of microcystins and other oligopeptydes, Arch. Microbial., 182:288-298
- 30.Yepremian C., Gugger M., Briand E., Catherine A., Berger C. et al., 2007, Microcystin ecotypes in a perennial Planktothrix agardhii bloom, Water Research, 41(19): 4446-4456
- 31.Zieliński P., Górniak A., Suchowolec T., 2003, Changes in water chemistry along the course of two rivers with different hydrological regimes, Pol. J. Envir. 12, 111-117
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0009-0045