This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Bernatowicz, S. & Wolny, P. (1969). Fisherman’s botany. Panstwowe Wydawnictwo Rolnicze i Lesne, Warszawa, Poland. (In Polish).BernatowiczS.&WolnyP.1969Fisherman’s botanyPanstwowe Wydawnictwo Rolnicze i LesneWarszawa, PolandIn PolishSearch in Google Scholar
Bis, B. & Mikulec, A. (2013). Guide to assess the ecological status of rivers based on benthic macroinvertebrates. Warszawa: Biblioteka Monitoringu Srodowiska. (In Polish).BisB.&MikulecA.2013Guide to assess the ecological status of rivers based on benthic macroinvertebratesWarszawaBiblioteka Monitoringu SrodowiskaIn PolishSearch in Google Scholar
Błachuta, J. & Picinska-Fałtynowicz, J. (2010). Methodological guidelines for assessing the ecological status of water bodies of rivers and lakes as well as the ecological potential of artificial and heavily modified homogeneous parts of flowing waters of Poland based on phytobenthos research. Wrocław: GIOS. (In Polish).BłachutaJ.&Picinska-FałtynowiczJ.2010Methodological guidelines for assessing the ecological status of water bodies of rivers and lakes as well as the ecological potential of artificial and heavily modified homogeneous parts of flowing waters of Poland based on phytobenthos researchWrocławGIOSIn PolishSearch in Google Scholar
Błachuta, J. & Picinska-Fałtynowicz, J. (2012). Methodological guidelines for conducting phytoplankton tests and assessing the ecological status of rivers on its basis. Warszawa: GIOS. (In Polish).BłachutaJ.&Picinska-FałtynowiczJ.2012Methodological guidelines for conducting phytoplankton tests and assessing the ecological status of rivers on its basisWarszawaGIOSIn PolishSearch in Google Scholar
Bremer, M. & Cohnitz, D. (2004). Information and information flow– an introduction Frankfurt: Ontos Verlag.BremerM.&CohnitzD.2004Information and information flow– an introductionFrankfurtOntos Verlag10.1515/9783110323603Search in Google Scholar
Budka, A. (2018). Determining the change point for the error in the Macrophyte Index for Rivers. Biom. Lett. 55(2): 215–232. DOI: 10.2478/bile-2018-0015.BudkaA.2018Determining the change point for the error in the Macrophyte Index for RiversBiom. Lett552215–23210.2478/bile-2018-0015Open DOISearch in Google Scholar
Carvalno, L.B., Rojano-Delgado, A.M, Costa Aguiar Alves, P.L. & Prado, R. (2013). Differential content of glyphosate and its metabolites in Digitaria insularis biotypes. Com. Plant. Sci. 3(3–4): 17–20. DOI: 10.26814/cps201317.CarvalnoL.B.Rojano-DelgadoA.M, Costa Aguiar Alves, P.L.&PradoR.2013Differential content of glyphosate and its metabolites in Digitaria insularis biotypesCom. Plant. Sci33–417–2010.26814/cps201317Open DOISearch in Google Scholar
Ceschin, S., Salerno, G., Bisceglie, S. & Kumbaric, A. (2010). Temporal floristic variations as indicator of environmental changes in the Tiber River in Rome. Aquat. Ecol. 44: 93–100. DOI: 10.1007/s10452-009-9292-1.CeschinS.SalernoG.BisceglieS.&KumbaricA.2010Temporal floristic variations as indicator of environmental changes in the Tiber River in RomeAquat. Ecol4493–10010.1007/s10452-009-9292-1Open DOISearch in Google Scholar
Chojnicki, Z. & Czyz, T. (1991). Spatial diversity of the level and living conditions of the population. Warszawa: Biuletyn KPZK PAN. p. 153. (In Polish).ChojnickiZ.&CzyzT.1991Spatial diversity of the level and living conditions of the populationWarszawaBiuletyn KPZK PAN. p. 153In PolishSearch in Google Scholar
Cover, T.M. & Thomas, J.A. (1991). Elements of Information Theory Wiley Series in Telecommunications.CoverT.M.&ThomasJ.A.1991Elements of Information TheoryWiley Series in Telecommunications10.1002/0471200611Search in Google Scholar
Dawson, F.H. (1988). Water flow and the vegetation of running waters. In J.J. Symoens (Ed.), Vegetation of inland waters (pp. 283–309). Dordrecht: Kluwer Academic Publishers.DawsonF.H.1988Water flow and the vegetation of running watersSymoensJ.J.Vegetation of inland waters283–309DordrechtKluwer Academic Publishers10.1007/978-94-009-3087-2_9Search in Google Scholar
Directive, 2000/60/EC. Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy.Directive, 2000/60/ECDirective 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policySearch in Google Scholar
Eryomin, A.L. (1998). Information ecology – a viewpoint. Int. J. Environ. Stud. Sections A&B 3/4: 241–253. DOI: 10.1080/00207239808711157.EryominA.L.1998Information ecology – a viewpointInt. J. Environ. StudSections A&B3/4241–25310.1080/00207239808711157Open DOISearch in Google Scholar
Dudley, S.A., Murphy, G.P. & File, A.L. (2013). Kin recognition and competition in plants. Func. Ecol. 27: 898–906. DOI: 10.3732/ajb.0900006.DudleyS.A.MurphyG.P.&FileA.L.2013Kin recognition and competition in plantsFunc. Ecol27898–90610.3732/ajb.090000621622319Open DOISearch in Google Scholar
Groen, C.L.G., Stevers, R.A.M., Van Gool, C.R. & Broekmeyer, M.E.A. (1993 Elaboration of the ecotope system Phase III, CML report, p. 49.GroenC.L.G.SteversR.A.M.Van GoolC.R.&BroekmeyerM.E.A.(1993 Elaboration of the ecotope systemPhase III, CML report49Search in Google Scholar
Haslam, S.M. (1982). A proposed method for monitoring river pollution using macrophytes. Environ. Technol. Lett. 3: 19–34. DOI: 10.1080/09593338209384094.HaslamS.M.1982A proposed method for monitoring river pollution using macrophytesEnviron. Technol. Lett319–3410.1080/09593338209384094Open DOISearch in Google Scholar
Haury, J., Peltre, M.C., Trémolières, M., Barbe, J., Thiébaut, G. et al. (2006). A new method to assess water trophy and organic pollution – the Macrophyte Biological Index for Rivers (IBMR): its application to different types of river and pollution. Hydrobiologia 570: 153–158. DOI: 10.1007/9781-4020-5390-0_22.HauryJ.PeltreM.C.TrémolièresM.BarbeJ.ThiébautG.et al2006A new method to assess water trophy and organic pollution – the Macrophyte Biological Index for Rivers (IBMR): its application to different types of river and pollutionHydrobiologia570153–15810.1007/9781-4020-5390-0_22Open DOISearch in Google Scholar
Henderson, D.W. (1963). Venn diagrams for more than four classes. Amer. Math. Monthly 70: 424–426. DOI: 10.2307/2689288.HendersonD.W.1963Venn diagrams for more than four classesAmer. Math. Monthly70424–42610.2307/2689288Open DOISearch in Google Scholar
Holmes, N.T.H., Newman, J.R., Chadd, S., Rouen, K.J., Saint, L. et al. (1999). Mean trophic rank: a user’s manual R D. In Technical report no E38 Environmental Agency of England Wales Bristol: UK.HolmesN.T.H.NewmanJ.R.ChaddS.RouenK.J.SaintL.et al1999Mean trophic rank: a user’s manual R DTechnical report no E38 Environmental Agency of England WalesBristolUKSearch in Google Scholar
Hutcheson, K. (1970). A test for comparing diversities based on the Shannon formula. J. Theor. Biol. 29: 151–154. DOI: 10.1016/0022-5193(70)90124-4.HutchesonK.1970A test for comparing diversities based on the Shannon formulaJ. Theor. Biol29151–15410.1016/0022-5193(70)90124-4Open DOISearch in Google Scholar
Jones, G.A. & Jones, M.J. (2000). Information and Coding Theory Springer.JonesG.A.&JonesM.J.2000Information and Coding TheorySpringer10.1007/978-1-4471-0361-5Search in Google Scholar
Jusik, S (2012). Identification key to mosses and water liverwords required to the ecological status assessment of surface waters in Poland. Biblioteka Monitoringu Srodowiska, Warszawa, Poland. (In Polish).JusikS2012Identification key to mosses and water liverwords required to the ecological status assessment of surface waters in PolandBiblioteka Monitoringu SrodowiskaWarszawa, PolandIn PolishSearch in Google Scholar
Klijn, F. (1994). Spatially nested ecosystems: guidelines for classification from a hierarchical perspective. In F. Klijn (Ed.), Ecosystem Classification for Environmental Management (pp. 85–116). Ecology & Environment 2, Dordrecht: Springer, Kluwer.KlijnF.1994Spatially nested ecosystems: guidelines for classification from a hierarchical perspectiveKlijnF.Ecosystem Classification for Environmental Management85–116Ecology & Environment 2DordrechtSpringer, Kluwer10.1007/978-94-017-1384-9_5Search in Google Scholar
Klijn, F. (1989). Landscape ecological mapping of the Netherlands: groundwater relations CML report, p. 51.KlijnF.1989Landscape ecological mapping of the Netherlands: groundwater relationsCML report, p51Search in Google Scholar
Kolada, A., Hellsten, S., Søndergaard, M., Mjelde, M., Dudley, B. et al. (2011). Report on the most suitable lake macrophyte based assessment methods for impacts of eutrophication and water level fluctuations.KoladaA.HellstenS.SøndergaardM.MjeldeM.DudleyB.et al2011Report on the most suitable lake macrophyte based assessment methods for impacts of eutrophication and water level fluctuationsSearch in Google Scholar
Kondracki, J. (1995). Physico-geographical regionalization. In Encyclopedia of world geography. Eastern Europe, North and Central Asia, Transcaucasia (pp. 31–34). Wiedza Powszechna, Warszawa.KondrackiJ.1995Physico-geographical regionalizationEncyclopedia of world geography. Eastern Europe, North and Central Asia, Transcaucasia31–34Wiedza Powszechna, WarszawaSearch in Google Scholar
Kullback, S. (1959). Information theory and statistics John Wiley and Sons, Inc., New York; Chapman and Hall, Ltd., London.KullbackS.1959Information theory and statisticsJohn Wiley and Sons, IncNew York; Chapman and Hall, Ltd., LondonSearch in Google Scholar
Lewin, I., Czerniawska-Kusza, I., Szoszkiewicz, K., Ławniczak, A.E. & Jusik, S. (2013). Biological indices applied to benthic macroinvertebrates at reference conditions of mountain streams in two ecoregions (Poland, the Slovak Republic). Hydrobiologia 709: 183–200. DOI: 10.1007/s10750-013-1448-2.LewinI.Czerniawska-KuszaI.SzoszkiewiczK.ŁawniczakA.E.&JusikS.2013Biological indices applied to benthic macroinvertebrates at reference conditions of mountain streams in two ecoregions (Poland, the Slovak Republic)Hydrobiologia709183–20010.1007/s10750-013-1448-2Open DOISearch in Google Scholar
Li, M. & Vitanyi, P. (1997). An Introduction to Kolmogorov Complexity and Its Applications. Springer.LiM.&VitanyiP.1997An Introduction to Kolmogorov Complexity and Its ApplicationsSpringer10.1007/978-1-4757-2606-0Search in Google Scholar
Loga, M. & Wierzchołowska-Dziedzic, A. (2017). Probability of misclassifying biological elements in surface waters Environ. Monit. Assess. 189: 647. DOI: 10.1007/s10661-017-6368-6.LogaM.&Wierzchołowska-DziedzicA.2017Probability of misclassifying biological elements in surface watersEnviron. Monit. Assess18964710.1007/s10661-017-6368-6570195429177976Open DOISearch in Google Scholar
Loga, M. (2012). Hierarchical approach to water body status misclassification. Water Pollution XI Book Series: WIT Transactions on Ecology and the Environment. WIT Press 164: 97–109. DOI: 10.2495/WP120091.LogaM.2012Hierarchical approach to water body status misclassificationWater Pollution XI Book Series: WIT Transactions on Ecology and the Environment. WIT Press16497–10910.2495/WP120091Open DOISearch in Google Scholar
MacKay, D.J.C. (2003). Information Theory, Inference, and Learning Algorithms Cambridge University Press, 2003.MacKayD.J.C.2003Information Theory, Inference, and Learning AlgorithmsCambridge University Press2003Search in Google Scholar
Mazur, M. (1970). Qualitative information theory. WNT, Warszawa, p. 223. (In Polish).MazurM.1970Qualitative information theoryWNT, Warszawa223In PolishSearch in Google Scholar
Mischke, U., Venohr, M. & Behrendt, H. (2011). Using phytoplankton to assess the trophic status of German rivers. Int. Rev. Hydrobiol. 95: 578–598. DOI: 10.1002/iroh.201111304.MischkeU.VenohrM.&BehrendtH.2011Using phytoplankton to assess the trophic status of German riversInt. Rev. Hydrobiol95578–59810.1002/iroh.201111304Open DOISearch in Google Scholar
Parysek, J.J. & Wojtasiewicz, L. (1979). Methods of regional analysis and regional planning methods Stud. KPZK PAN, p. 69. (In Polish).ParysekJ.J.&WojtasiewiczL.1979Methods of regional analysis and regional planning methodsStud. KPZK PAN69In PolishSearch in Google Scholar
Rimet, F. & Bouchez, A. (2012). Biomonitoring river diatoms: implications of taxonomic resolution. Ecol. Indic. 15(1): 92–99. DOI: 10.1016/j.ecolind.2011.09.014.RimetF.&BouchezA.2012Biomonitoring river diatoms: implications of taxonomic resolutionEcol. Indic15192–9910.1016/j.ecolind.2011.09.014Open DOISearch in Google Scholar
Ruskey, F., Savage, C. & Wagon, S. (2006). The search for simple symmetric Venn diagrams. Not. Am. Math. Soc. 53: 1304–1312. DOI: 10.1.1.74.8980.RuskeyF.SavageC.&WagonS.2006The search for simple symmetric Venn diagramsNot. Am. Math. Soc531304–131210.1.1.74.8980Open DOISearch in Google Scholar
Rutkowski, L. (2008) Identification key to vascular plants of Polish Lowland. Wydawnictwo Naukowe PWN, Warszawa, Polska. (In Polish).RutkowskiL.2008Identification key to vascular plants of Polish LowlandWydawnictwo Naukowe PWNWarszawa, PolskaIn PolishSearch in Google Scholar
Shannon, C.E. & Weaver, W. (1949). The mathematical theory of communication Univ. Illinois Press, London and New York.ShannonC.E.&WeaverW.1949The mathematical theory of communicationUniv. Illinois PressLondon and New YorkSearch in Google Scholar
Sherwin, W.B., Chao, A., Jost, L. & Smouse, P.E. (2017). Information theory broadens the spectrum of molecular ecology and evolution. Trends in Ecology and Evolution 32: 948–963. DOI: 10.1016/j.tree.2017.09.012.SherwinW.B.ChaoA.JostL.&SmouseP.E.2017Information theory broadens the spectrum of molecular ecology and evolutionTrends in Ecology and Evolution32948–96310.1016/j.tree.2017.09.01229126564Open DOISearch in Google Scholar
Smith, D. (1972). Geography and social indicators. S. Afr. Geogr. J 54: 43–57. DOI: 10.1080/03736245.1972.10559497.SmithD.1972Geography and social indicatorsS. Afr. Geogr. J5443–5710.1080/03736245.1972.10559497Open DOISearch in Google Scholar
Sobala-Gwosdz, A. (2004). The change in the rural standard of living during the transformation period in the Podkarpackie Province, Poland, IGiGP Warsaw 114: 93–106.Sobala-GwosdzA.2004The change in the rural standard of living during the transformation period in the Podkarpackie Province, PolandIGiGP Warsaw11493–106Search in Google Scholar
Staniszewski, R. & Szoszkiewicz, J. (2006). Impact of water level fluctuations on the water quality of a shallow lake – spring and summer studies. Verhandlungen des Internationalen Verein Limnologie 29: 2087–2088. DOI: 10.1080/03680770.2006.11903059.StaniszewskiR.&SzoszkiewiczJ.2006Impact of water level fluctuations on the water quality of a shallow lake – spring and summer studiesVerhandlungen des Internationalen Verein Limnologie292087–208810.1080/03680770.2006.11903059Open DOISearch in Google Scholar
Staniszewski, R., Szoszkiewicz, K., Zbierska, J., Lesny, J., Jusik, S. et al. (2006). Assessment of sources of uncertainty in macrophyte surveys and the consequences for river classification. Hydrobiologia 566: 235–246. DOI: 10.1007/s10750-006-0093-4.StaniszewskiR.SzoszkiewiczK.ZbierskaJ.LesnyJ.JusikS.et al2006Assessment of sources of uncertainty in macrophyte surveys and the consequences for river classificationHydrobiologia566235–24610.1007/s10750-006-0093-4Open DOISearch in Google Scholar
Szoszkiewicz, K. (2013). Macrophyte River Assessment Method. In H. Ciecierska & M. Dynowska. Biological methods for assessing the state of the environment. Water ecosystems Tom II. (pp. 81–96). Olsztyn: Wydawnictwo Mantis. (In Polish).SzoszkiewiczK.2013Macrophyte River Assessment MethodCiecierskaH.&DynowskaM.Biological methods for assessing the state of the environment. Water ecosystems Tom II81–96OlsztynWydawnictwo MantisIn PolishSearch in Google Scholar
Szoszkiewicz, K., Budka, A., Pietruczuk, K., Kayzer, D. & Gebler, D. (2017) Is the macrophyte diversification along the trophic gradient distinct enough for river monitoring? Environmental Monitoring and Assessment 189: 4. DOI: 10.1007/s10661-016-5710-8.SzoszkiewiczK.BudkaA.PietruczukK.KayzerD.&GeblerD.2017Is the macrophyte diversification along the trophic gradient distinct enough for river monitoring?Environmental Monitoring and Assessment189410.1007/s10661-016-5710-8513637827915391Open DOISearch in Google Scholar
Szoszkiewicz, K., Jusik, S., Zgola, T., Czechowska, M. & Hryc, B. (2007). Uncertainty of macrophyte-based monitoring in different river types. Belg. J. Bot. 140: 7–16. DOI: 10.2307/20794619.SzoszkiewiczK.JusikS.ZgolaT.CzechowskaM.&HrycB.2007Uncertainty of macrophyte-based monitoring in different river typesBelg. J. Bot1407–1610.2307/20794619Open DOISearch in Google Scholar
Szoszkiewicz, K., Zbierska, J., Jusik, S. & Zgoła, T. (2010). A macrophyte river assessment method. Manual for the assessment and classification of rivers based on aquatic plants. Bogucki Wydawnictwo Naukowe, Poznan. (In Polish).SzoszkiewiczK.ZbierskaJ.JusikS.&ZgołaT.2010A macrophyte river assessment method. Manual for the assessment and classification of rivers based on aquatic plantsBogucki Wydawnictwo NaukowePoznanIn PolishSearch in Google Scholar
Westlake, D.F. (1975). Macrophytes. In B.A. Whitton (Ed.) River ecology (pp. 106–128). University of California Press, Berkeley.WestlakeD.F.1975MacrophytesWhittonB.A.River ecology106–128University of California PressBerkeleySearch in Google Scholar
WFD Intercalibration. (2011). Phase 2: Milestone report – October 2011. European Commission Directorate General, JRC Joint Research Centre, Institute of Environment and Sustainability. JRC documents, pp. 105.WFD Intercalibration2011Phase 2: Milestone report – October 2011. European Commission Directorate General, JRC Joint Research Centre, Institute of Environment and SustainabilityJRC documents105Search in Google Scholar
Wiegleb, G. (1979). Der Zusammenhang zwischen Gewässergüte und Makrophyten Vegetation in niedersächsischen Fließgewässern. Landschaft + Stadt 11: 32–35.WieglebG.1979Der Zusammenhang zwischen Gewässergüte und Makrophyten Vegetation in niedersächsischen FließgewässernLandschaft + Stadt1132–35Search in Google Scholar