This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Batko, A. (1975). Hydromycology-an overview PNW, Warszawa, pp. 5-553 ( In Polish).BatkoA.1975PNWWarszawa5553In PolishSearch in Google Scholar
Chróst, R.J., & Siuda, W. (2006). Microbial production, utilization, and enzymatic degradation of organic matter in the upper trophogenic water layer in the pelagial zone of lakes along the eutrophication gradient. Limnol. Oceanogr. 51: 749-762.ChróstR.J.,SiudaW.2006Microbial production, utilization, and enzymatic degradation of organic matter in the upper trophogenic water layer in the pelagial zone of lakes along the eutrophication gradient5174976210.4319/lo.2006.51.1_part_2.0749Search in Google Scholar
Czeczuga, B. (2000). Zoosporic fungi growing on freshwater molluscs. Pol. J. Environ. Stud. 9: 151-156.CzeczugaB.2000Zoosporic fungi growing on freshwater molluscs9151156Search in Google Scholar
Czeczuga, B., Godlewska, A., Mazalska, B. & Muszyńska, E. (2010). Diversity of aquatic fungi and fungus-like organisms on fruits. Nova Hedwigia. 90: 123-151.CzeczugaB.,GodlewskaA.,MazalskaB.MuszyńskaE.2010Diversity of aquatic fungi and fungus-like organisms on fruits9012315110.1127/0029-5035/2010/0090-0123Search in Google Scholar
Czeczuga, B., Górniak, A., Kiziewicz, B., Godlewska, A., Muszyńska, E. et al. (2011). Zoosporic fungi and funguslike organisms in the Siemianówka dam reservoir. Nova Hedwigia. 91: 137-150.CzeczugaB.,GórniakA.,KiziewiczB.,GodlewskaA.,MuszyńskaE.2011Zoosporic fungi and funguslike organisms in the Siemianówka dam reservoir9113715010.1127/0029-5035/2010/0091-0137Search in Google Scholar
Czeczuga, B. & Kiziewicz, B. (1999). Zoosporic fungi growing on the eggs of Carassius carassius (L.) in oligo- and eutrophic water. Pol. J. Envir. Stud. 8: 63-66.CzeczugaB.KiziewiczB.1999Zoosporic fungi growing on the eggs of Carassius carassius (L.) in oligo- and eutrophic water86366Search in Google Scholar
Czeczuga, B., Mazalska, B., Godlewska, A. & Muszyńska, E. (2005). Aquatic fungi growing on dead fragments of submerged plants. Limnologica. 35: 283-297.CzeczugaB.,MazalskaB.,GodlewskaA.MuszyńskaE.2005Aquatic fungi growing on dead fragments of submerged plants3528329710.1016/j.limno.2005.07.002Search in Google Scholar
Czeczuga, B. & Muszyńska, E. (1997a). Aquatic fungi growing on the eggs of Polish cobitid fish species. Acta Hydrobiol. 39: 67-75.CzeczugaB.MuszyńskaE.1997aAquatic fungi growing on the eggs of Polish cobitid fish species396775Search in Google Scholar
Czeczuga, B. & Muszyńska, E. (1997b). Aquatic fungi growing on the eggs of some andromous fish species of the family Clupeidae. Acta Ichthyol. Piscat. 27(1): 83-93.CzeczugaB.MuszyńskaE.1997bAquatic fungi growing on the eggs of some andromous fish species of the family Clupeidae271839310.3750/AIP1997.27.1.08Search in Google Scholar
Czeczuga, B. & Muszyńska, E. (2000). Zoosporic fungi growing on the dead glass eel (montee) and elver’s (Angilla anguilla L.). Acta Ichthyol. Piscat. 30(2): 3-12.CzeczugaB.MuszyńskaE.2000Zoosporic fungi growing on the dead glass eel (montee) and elver’s (Angilla anguilla L.)30231210.3750/AIP2000.30.2.01Search in Google Scholar
Czeczuga, B. & Muszyńska, E. (2004). Aquatic zoosporic fungi from baited spores of Cryptograms. Fungal Diversity 16: 11-22.CzeczugaB.MuszyńskaE.2004Aquatic zoosporic fungi from baited spores of Cryptograms161122Search in Google Scholar
Czeczuga, B. & Próba, D. (1987). Studies of aquatic fungi. VII. Mycoflora of the upper part of the River Narew and its tributaries in a differentiated environment. Nova Hedwigia. 44: 151-161.CzeczugaB.PróbaD.1987Studies of aquatic fungi. VII. Mycoflora of the upper part of the River Narew and its tributaries in a differentiated environment44151161Search in Google Scholar
Czeczuga, B., Semeniuk-Grell, A. & Czeczuga-Semeniuk, E. (2014). Effect of trophically different water bodies on the straminipilous fungal infection of Stenodus. Genus (Coregoninae) eggs. Afr. J. Biotechnol. 8(6): 503-510.CzeczugaB.,Semeniuk-GrellA.Czeczuga-SemeniukE.2014Effect of trophically different water bodies on the straminipilous fungal infection of Stenodus. Genus (Coregoninae) eggs8650351010.5897/AJMR2013.5963Search in Google Scholar
Czeczuga, B., Semeniuk-Grell, A. & Czeczuga-Semeniuk, E. (2015). Growth of mycotal species on the eggs of Cyprinus carpio-in limnologically and trophically different water bodies. Afr. J. Biotechnol. 14(6): 482-488.CzeczugaB.,Semeniuk-GrellA.Czeczuga-SemeniukE.2015Growth of mycotal species on the eggs of Cyprinus carpio-in limnologically and trophically different water bodies14648248810.5897/AJB2014.14308Search in Google Scholar
Czeczuga, B., Woronowicz, L. & Brzozowska, K. (1990). Aquatic fungi of the lowland River Biebrza. Acta Mycol. 26: 77-83.CzeczugaB.,WoronowiczL.BrzozowskaK.1990Aquatic fungi of the lowland River Biebrza26778310.5586/am.1990.002Search in Google Scholar
Dick, M.W. (1990). Keys to Pythium. Reading: College Estate Managament Witheknights.DickM.W.1990Keys to PythiumSearch in Google Scholar
Dick, M. (2001). Straminipilous fungi, systematics of the Peronosporomycetes including accounts of the marine straminipilous protists, the plasmodiophorids and similar organisms. Kluver, Dordrecht, NL.DickM.2001KluverDordrecht, NL10.1007/978-94-015-9733-3_6Search in Google Scholar
Dynowska, M. & Biedunkiewicz, A. (1998). Comparison of enzymatic activity of selected yeast-like fungi isolated from lakes and astatic reservoirs. Acta Mycol. 33(1): 7-42.DynowskaM.BiedunkiewiczA.1998Comparison of enzymatic activity of selected yeast-like fungi isolated from lakes and astatic reservoirs33174210.5586/am.1998.003Search in Google Scholar
Eaton, A.D., Clesceri, L.S., Rice, E.W., Greenberg, A.E. & Franson, M.A.H. (2005). Standard methods for the examination of water and wastewater. In Revelling in Reference: 21ed American Public Health Association, (pp. 1390). Washington, D.C.EatonA.D.,ClesceriL.S.,RiceE.W.,GreenbergA.E.FransonM.A.H.2005Standard methods for the examination of water and wastewaterIn1390Washington, D.CSearch in Google Scholar
Ferreira, V. & Chauvet, E. (2011). Synergistic effects of water temperature and dissolved nutrients on litter decomposition and associated fungi. Global Change Biology 17: 551-564.FerreiraV.ChauvetE.2011Synergistic effects of water temperature and dissolved nutrients on litter decomposition and associated fungi1755156410.1111/j.1365-2486.2010.02185.xSearch in Google Scholar
Godlewska, A., Kiziewicz, B., Muszyńska, E. & Mazalska, B. (2009). Fungi and straminipilous organisms found in ponds in Białystok. Pol. J. Environ. Stud. 18(3): 369-376.GodlewskaA.,KiziewiczB.,MuszyńskaE.MazalskaB.2009Fungi and straminipilous organisms found in ponds in Białystok183369376Search in Google Scholar
Godlewska, A., Kiziewicz, B., Muszyńska, E. & Mazalska, B. (2012). Aquatic fungi and heterotrophic straminipiles from fishponds. Pol. J. Environ. Stud. 21(3): 615-625.GodlewskaA.,KiziewiczB.,MuszyńskaE.MazalskaB.2012Aquatic fungi and heterotrophic straminipiles from fishponds213615625Search in Google Scholar
Godlewska, A., Kiziewicz, B., Muszyńska, E. & Milewski, R. (2013). Aquatic fungi and Straminipiles organisms in lakes of the Augustowska Primeval Forest, Poland. Oceanol. Hydrobiol. St. 42(4): 451-459. DOI: 10.2478/s13545-013-0101-z.GodlewskaA.,KiziewiczB.,MuszyńskaE.MilewskiR.2013Aquatic fungi and Straminipiles organisms in lakes of the Augustowska Primeval Forest, Poland42445145910.2478/s13545-013-0101-zOpen DOISearch in Google Scholar
Gulis, V., Kuehn, K. & Suberkropp, K. (2006). The role of fungi in carbon and nitrogen cycles in freshwater ecosystems. In G.M. Gadd (Ed.), Fungi in biochemical cycles (pp. 404-435). Cambridge University Press, Cambridge.GulisV.,KuehnK.SuberkroppK.2006The role of fungi in carbon and nitrogen cycles in freshwater ecosystemsInGaddG.M.404435Cambridge University PressCambridge10.1017/CBO9780511550522.018Search in Google Scholar
James, T.Y., Letcher, P.M., Longcore, J.E., Mozley-Standrige, S.E., Porter, D. et al. (2006). A molecular phylogeny of the flagellated fungi (Chytridiomycota) and proposal for a new phylum (Blastocladiomycota). Mycologia 98: 860-871.JamesT.Y.,LetcherP.M.,LongcoreJ.E.,Mozley-StandrigeS.E.,PorterD.2006A molecular phylogeny of the flagellated fungi (Chytridiomycota) and proposal for a new phylum (Blastocladiomycota)9886087110.1080/15572536.2006.11832616Search in Google Scholar
Johnson, T.W.Jr., Seymour, R.L. & Padgeet, D.E. (2005). Systematics of the Saprolegniaceae: New combinations. Mycotaxon 92: 11.JohnsonT.W.Jr.,SeymourR.L.PadgeetD.E.2005Systematics of the Saprolegniaceae: New combinations9211Search in Google Scholar
Khulbe, R.D. (2001). A manual of aquatic fungi: Chytridiomycetes and Oomycetes. Delhi: Daya Publishing House.KhulbeR.D.2001DelhiDaya Publishing HouseSearch in Google Scholar
Kiziewicz, B. & Nalepa, T.F. (2008). Some fungi and water molds in waters of Lake Michigan with emphasis on those associated with the benthic amphipod Diporeia spp. J. Great Lakes Res. 34: 774-780. DOI: 10.3394/0380-1330-34.4.774.KiziewiczB.NalepaT.F.2008Some fungi and water molds in waters of Lake Michigan with emphasis on those associated with the benthic amphipod Diporeia spp3477478010.3394/0380-1330-34.4.774Open DOISearch in Google Scholar
Krauss, G.J, Solé, M., Krauss, G., Schlosser, D., Wesenberg, D. et al. (2011). Fungi in freshwaters – ecology, physiology and biochemical potential. FEMS Microbiol Rev. 35(4): 620-651. DOI: 10.1111/j.1574-6976.2011.00266.KraussG.J,SoléM.,KraussG.,SchlosserD.,WesenbergD.2011Fungi in freshwaters – ecology, physiology and biochemical potential35462065110.1111/j.1574-6976.2011.00266Open DOISearch in Google Scholar
Kshirsagar, A.D. (2013). Application of bioremediation process for wastewater treatment using aquatic fungi. Int. J. Curr. Res. 5: 1737-1739.KshirsagarA.D.2013Application of bioremediation process for wastewater treatment using aquatic fungi517371739Search in Google Scholar
Mazurkiewicz-Zapałowicz, K., Silicki, A., Gregorczyk, A., Biedunkiewicz, A. & Wolska, M. (2012). Effects of some abiotic factors on the occurence of aquatic mycobiota in lakes of the Drawa National Park. Oceanol. Hydrobiol. St. 41(4): 8-16.Mazurkiewicz-ZapałowiczK.,SilickiA.,GregorczykA.,BiedunkiewiczA.WolskaM.2012Effects of some abiotic factors on the occurence of aquatic mycobiota in lakes of the Drawa National Park41481610.2478/s13545-012-0034-ySearch in Google Scholar
Misra, J.K. (1982). Occurrence, distribution and seasonality of aquatic fungi as affected by chemical factors in six alkaline ponds of India. Hydrobiologia 97: 185-191.MisraJ.K.1982Occurrence, distribution and seasonality of aquatic fungi as affected by chemical factors in six alkaline ponds of India9718519110.1007/BF00011973Search in Google Scholar
Muszyńska, E., Kiziewicz, B. Godlewska, A., Mazalska, B. & Gajo, B. (2009). Fungi and fungus-like organisms found in chosen bathing sites of the Narew river within the Narew National Park. Med. Biol. Sci. 23: 39-46.MuszyńskaE.,KiziewiczB.GodlewskaA.,MazalskaB.GajoB.2009Fungi and fungus-like organisms found in chosen bathing sites of the Narew river within the Narew National Park233946Search in Google Scholar
Muszyńska, E., Kiziewicz, B., Godlewska, A. & Milewski, R. (2014). Fungi and straminipilous organisms growing in the Narew River and its chosen tributaries in NE Poland. Pol. J. Environ. Stud. 23: 401-408.MuszyńskaE.,KiziewiczB.,GodlewskaA.MilewskiR.2014Fungi and straminipilous organisms growing in the Narew River and its chosen tributaries in NE Poland23401408Search in Google Scholar
Pystina, K.A. (1998). Genus Pythium Pringsh. In W.A. Melnik (Ed.), Defínitorium Fungorum Rossiae. Cassis Oomycetes (pp. 5-125) Sankt Petersburg, Nauka (In Russian).PystinaK.A.1998Genus Pythium PringshInMelnikW.A.5125Sankt Petersburg, NaukaIn RussianSearch in Google Scholar
Riethmüller, A. (2000). Morphologie, ökologie und Phylogenie aquatischer Oomyceten. Berlin – Stuttgart: Bibl. Mycol. (In German).RiethmüllerA.2000Berlin – StuttgartBibl. MycolIn GermanSearch in Google Scholar
Seymour, R.L. & Fuller, M.S. (1987). Collection and isolation of water molds (Saprolegniaceae) from water and soil. In M.S. Fuller, A. Jaworski (Eds.) Zoosporic fungi in teaching and research. Southeastern Publishing, Athens: 125-127.SeymourR.L.FullerM.S.1987Collection and isolation of water molds (Saprolegniaceae) from water and soilInFullerM.S.JaworskiA.Southeastern PublishingAthens125127Search in Google Scholar
Shearer, C.A., Descals, B., Kohlmeyer, J., Kohlmeyer, L., Marvanova, L. et al. (2007). Fungal biodiversity in aquatic habitats. Biodivers. Conserv. 16: 49-67.ShearerC.A.,DescalsB.,KohlmeyerJ.,KohlmeyerL.,MarvanovaL.2007Fungal biodiversity in aquatic habitats16496710.1007/s10531-006-9120-zSearch in Google Scholar
Watanabe, H., Kageyama, K., Taguchi, Y., Horinouchi, H. & Hyakumachi, M. (2008). Bait method to detect Pythium species that grow at high temperatures in hydroponic solutions. J. Gen. Plant Pathol. 14: 417.WatanabeH.,KageyamaK.,TaguchiY.,HorinouchiH.HyakumachiM.2008Bait method to detect Pythium species that grow at high temperatures in hydroponic solutions1441710.1007/s10327-008-0116-2Search in Google Scholar