This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Antonielli, M., Pasqualini, S., Batini, P., Ederli, L., Massacci, A. et al. (2002). Physiological and anatomical characterisation of Phragmites australis leaves. Aquatic Botany 1(72): 55–66.AntonielliM.PasqualiniS.BatiniP.EderliL.MassacciA.2002Physiological and anatomical characterisation of Phragmites australis leaves172556610.1016/S0304-3770(01)00220-0Search in Google Scholar
Arnon, D.I. (1949). Copper Enzymes in Isolated Chloroplasts. Polyphenoloxidase in Beta vulgaris. Plant Physiology 24(1): 1–15.ArnonD.I.1949Copper Enzymes in Isolated Chloroplasts. Polyphenoloxidase in Beta vulgaris24111510.1104/pp.24.1.1Search in Google Scholar
Björk, S. (1967). Ecologic investigation of Phragmites communis Studies in theoretic and applied limnology. Folia Limnol. Scand. 14: 1–248.BjörkS.1967Ecologic investigation of Phragmites communis Studies in theoretic and applied limnology141248Search in Google Scholar
Brix, H. (1999). Genetic diversity, ecophysiology and growth dynamics of reed Phragmites australisAquatic Botany 1999(64): 179–184.BrixH.1999Genetic diversity, ecophysiology and growth dynamics of reed Phragmites australis19996417918410.1016/S0304-3770(99)00050-9Search in Google Scholar
Brownlee, C. (2002). Role of the extracellular matrix in cell-cell signalling: Paracrine paradigms. Current Opinion in Plant Biology 5(5): 396–401. 10.1016/S1369-5266(02)00286-8BrownleeC.2002Role of the extracellular matrix in cell-cell signalling: Paracrine paradigms5539640110.1016/S1369-5266(02)00286-8Open DOISearch in Google Scholar
Chen, K.-M., Wang, F., Wang, Y.-H., Chen, T., Hu, Y.-X. et al. (2006). Anatomical and chemical characteristics of foliar vascular bundles in four reed ecotypes adapted to different habitats. Flora - Morphology, Distribution, Functional Ecology of Plants 201(7): 555–569. 10.1016/j.flora.2005.12.003ChenK.-M.WangF.WangY.-H.ChenT.HuY.-X.2006Anatomical and chemical characteristics of foliar vascular bundles in four reed ecotypes adapted to different habitats201755556910.1016/j.flora.2005.12.003Open DOISearch in Google Scholar
Child, R.D., Summers, J.E., Babij, J., Farrent, J.W. Bruce, D.M. (2003). Increased resistance to pod shatter is associated with changes in the vascular structure in pods of a resynthesized Brassica napus line. Journal of Experimental Botany 54(389): 1919–1930. 10.1093/jxb/erg209ChildR.D.SummersJ.E.BabijJ.FarrentJ.W.BruceD.M.2003Increased resistance to pod shatter is associated with changes in the vascular structure in pods of a resynthesized Brassica napus line543891919193010.1093/jxb/erg209Open DOISearch in Google Scholar
Clevering, O.A., Brix, H. Lukavská, J. (2001). Geographic variation in growth responses in Phragmites australisAquatic Botany 69(2): 89–108.CleveringO.A.BrixH.LukavskáJ.2001Geographic variation in growth responses in Phragmites australis6928910810.1016/S0304-3770(01)00132-2Search in Google Scholar
Clevering, O.A. Lissner, J. (1999). Taxonomy, chromosome numbers, clonal diversity and population dynamics of Phragmites australisAquatic Botany 64(3–4): 185–208. 10.1016/S0304-3770(99)00059-5CleveringO.A.LissnerJ.1999Taxonomy, chromosome numbers, clonal diversity and population dynamics of Phragmites australis643–418520810.1016/S0304-3770(99)00059-5Open DOISearch in Google Scholar
Coops, H. Van der Velde, G. (1996). Effects of waves on helophyte stands: mechanical characteristics of stems of Phragmites australis and Scirpus lacustrisAquat. Bot. 53: 175–185.CoopsH.Van der VeldeG.1996Effects of waves on helophyte stands: mechanical characteristics of stems of Phragmites australis and Scirpus lacustris5317518510.1016/0304-3770(96)01026-1Search in Google Scholar
Curn, V., Kubátová, B., Vávrová, P., Krivácková-Suchá, O. Cížková, H. (2007). Phenotypic and genotypic variation of Phragmites australis Comparison of populations in two human-made lakes of different age and history. Aquatic Botany 86(4): 321–330. 10.1016/j.aquabot.2006.11.010CurnV.KubátováB.VávrováP.Krivácková-SucháO.CížkováH.2007Phenotypic and genotypic variation of Phragmites australis Comparison of populations in two human-made lakes of different age and history86432133010.1016/j.aquabot.2006.11.010Open DOISearch in Google Scholar
Dinka, M. (1986). The effect of mineral nutrient enrichment of Lake Balaton on the common reed Phragmites australisFolia Geobot. Phytotax. 21: 65–84.DinkaM.1986The effect of mineral nutrient enrichment of Lake Balaton on the common reed Phragmites australis21658410.1007/BF02853399Search in Google Scholar
Doyle, J., Doyle, J. (1987). A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochemical Bulletin 19: 11–15.DoyleJ.DoyleJ.1987A rapid DNA isolation procedure for small quantities of fresh leaf tissue191115Search in Google Scholar
Dykyjová, D., Hejny, S. Kvet, J. (1973). Proposal for international comparative investigations of production by stands of reed Phragmites communisFolia Geobot. Phytotax. 8: 435–442.DykyjováD.HejnyS.KvetJ.1973Proposal for international comparative investigations of production by stands of reed Phragmites communis843544210.1007/BF02852069Search in Google Scholar
Dykyjová, D. Hradecká, D. (1976). Production ecology of Phragmites communis I. Relations of two ecotypes to microclimate and nutrient conditions of habitat. Folia Geobot. Phytotax. 11: 23–61.DykyjováD.HradeckáD.1976Production ecology of Phragmites communis I. Relations of two ecotypes to microclimate and nutrient conditions of habitat11236110.1007/BF02853314Search in Google Scholar
Engloner, A.I. (2004). Annual growth dynamics and morphological differences of reed Phragmites australis [Cav.] Trin. ex Steudel) in relation to water supply. Flora – Morphology, Distribution, Functional Ecology of Plants 199(3): 256–262. 10.1078/0367-2530-00153EnglonerA.I.2004Annual growth dynamics and morphological differences of reed Phragmites australis [Cav.] Trin. ex Steudel) in relation to water supply199325626210.1078/0367-2530-00153Open DOISearch in Google Scholar
Engloner, A.I. (2009). Structure, growth dynamics and biomass of reed Phragmites australis – A review. Flora: Morphology, Distribution, Functional Ecology of Plants 204(5): 331–346. 10.1016/j.flora.2008.05.001EnglonerA.I.2009Structure, growth dynamics and biomass of reed Phragmites australis – A review204533134610.1016/j.flora.2008.05.001Open DOISearch in Google Scholar
Enstone, D.E., Peterson, C.A. Ma, F. (2003). Root endodermis and exodermis: Structure, function, and responses to the environment. Journal of Plant Growth Regulation 21: 335–351.EnstoneD.E.PetersonC.A.MaF.2003Root endodermis and exodermis: Structure, function, and responses to the environment2133535110.1007/s00344-003-0002-2Search in Google Scholar
Equiza, M.A. Tognetti, J.A. (2002). Morphological plasticity of spring and winter wheats in response to changing temperatures. Functional Plant Biology 29(12): 1427–1436. 10.1071/FP02066EquizaM.A.TognettiJ.A.2002Morphological plasticity of spring and winter wheats in response to changing temperatures29121427143610.1071/FP02066Open DOISearch in Google Scholar
Gorai, M., Vadel, A.M., Neffati, M. Khemira, H. (2007). The Effect of Sodium Chloride Salinity on the Growth, Water Status and Ion Content of Phragmites communis Trin. Pakistan Journal of Biological Sciences 10(13): 2225–2230. 10.3923/pjbs.2007.2225.2230GoraiM.VadelA.M.NeffatiM.KhemiraH.2007The Effect of Sodium Chloride Salinity on the Growth, Water Status and Ion Content of Phragmites communis10132225223010.3923/pjbs.2007.2225.2230Open DOISearch in Google Scholar
Güsewell, S. Klötzli, F. (2000). Assessment of aquatic and terrestrial reed Phragmites australis stands. Wetlands Ecology and Management 8(6): 367–373. 10.1023/A:1026524916500GüsewellS.KlötzliF.2000Assessment of aquatic and terrestrial reed Phragmites australis stands8636737310.1023/A:1026524916500Open DOISearch in Google Scholar
Hardej, M. Ozimek, T. (2002). The effect of sewage sludge flooding on growth and morphometric parameters of Phragmites australis (Cav.) Trin. ex Steudel. Ecol. Eng. 18: 343–350.HardejM.OzimekT.2002The effect of sewage sludge flooding on growth and morphometric parameters of Phragmites australis (Cav.) Trin. ex Steudel1834335010.1016/S0925-8574(01)00095-7Search in Google Scholar
Hartmann, K., Peiter, E., Koch, K., Schubert, S. Schreiber, L. (2002). Chemical composition and ultrastructure of broad bean Vicia faba L.) nodule endodermis in comparison to the root endodermis. Planta 215(1): 14–25. 10.1007/s00425-001-0715-zHartmannK.PeiterE.KochK.SchubertS.SchreiberL.2002Chemical composition and ultrastructure of broad bean Vicia faba L.) nodule endodermis in comparison to the root endodermis2151142510.1007/s00425-001-0715-zOpen DOISearch in Google Scholar
Hose, E., Clarkson, D.T., Steudle, E., Schreiber, L. Hartung, W. (2001). The exodermis: A variable apoplastic barrier. Journal of Experimental Botany 52(365): 2245–2264.HoseE.ClarksonD.T.SteudleE.SchreiberL.HartungW.2001The exodermis: A variable apoplastic barrier523652245226410.1093/jexbot/52.365.2245Search in Google Scholar
Kaczkowski, J. (2003). Structure, function and metabolism of plant cell wall. Acta Physiologiae Plantarum 25(3): 287–305.KaczkowskiJ.2003Structure, function and metabolism of plant cell wall25328730510.1007/s11738-003-0010-7Search in Google Scholar
Kawashima, C.G., Berkowitz, O., Hell, R., Noji, M. Saito, K. (2005). Characterization and expression analysis of a serine acetyltransferase gene family involved in a key step of the sulfur assimilation pathway in arabidopsis. Plant Physiology 137(1): 220–230. 10.1104/pp.104.045377KawashimaC.G.BerkowitzO.HellR.NojiM.SaitoK.2005Characterization and expression analysis of a serine acetyltransferase gene family involved in a key step of the sulfur assimilation pathway in arabidopsis137122023010.1104/pp.104.045377Open DOISearch in Google Scholar
Komosa, A. Roszyk, J. (2006). The causes and prevention of Rogalin Oaks’ death. Acta Agrophysica 7(4): 937–946. (In Polish).KomosaA.RoszykJ.2006The causes and prevention of Rogalin Oaks’ death74937946(In Polish)Search in Google Scholar
Koppitz, H. (1999). Analysis of genetic diversity among selected populations of Phragmites australis world-wide. Aquatic Botany 64(3–4): 209–221. 10.1016/S0304-3770(99)00051-0KoppitzH.1999Analysis of genetic diversity among selected populations of Phragmites australis world-wide643–420922110.1016/S0304-3770(99)00051-0Open DOISearch in Google Scholar
Ksenofontova, T. (1988). Morphology, production and mineral contents in Phragmites australis in different waterbodies of the Estonian SSR. Folia Geobot. Phytotax. 23: 17–43.KsenofontovaT.1988Morphology, production and mineral contents in Phragmites australis in different waterbodies of the Estonian SSR23174310.1007/BF02853293Search in Google Scholar
Lis, J. Pasieczna, A. (2005). Geochemical maps of Poznan and surroundings: Soils, water sediments and reservoirs. 1:100000. Warszawa: Panstwowy Instytut Geologiczny. (In Polish).LisJ.PasiecznaA.20051:100000WarszawaPanstwowy Instytut Geologiczny(In Polish)Search in Google Scholar
Lissner, J., Schierup, H.-H., Comı⊠n, F.A. Astorga, V. (1999). Effect of climate on the salt tolerance of two Phragmites australis populations. Aquatic Botany 64(3–4): 317–333. 10.1016/S0304-3770(99)00060-1LissnerJ.SchierupH.-H.Comı⊠nF.A.AstorgaV.1999Effect of climate on the salt tolerance of two Phragmites australis populations643–431733310.1016/S0304-3770(99)00060-1Open DOISearch in Google Scholar
Liu, Y., Li, X., Liu, M., Cao, B., Tan, H. et al. (2012). Responses of three different ecotypes of reed Phragmites communis Trin.) to their natural habitats: Leaf surface micro-morphology, anatomy, chloroplast ultrastructure and physio-chemical characteristics. Plant Physiology and Biochemistry 51: 159–167. 10.1016/j.plaphy.2011.11.002LiuY.LiX.LiuM.CaoB.TanH.2012Responses of three different ecotypes of reed Phragmites communis Trin.) to their natural habitats: Leaf surface micro-morphology, anatomy, chloroplast ultrastructure and physio-chemical characteristics5115916710.1016/j.plaphy.2011.11.00222153253Open DOISearch in Google Scholar
Lollar, B.S. (2005). Environmental geochemistry. In H.D. Holland K.K. Turekian (Eds.), Treatise on Geochemistry Volume 9 (648 pp.). Elsevier Science.LollarB.S.2005Environmental geochemistryHollandH.D.TurekianK.K.Volume 9648Elsevier ScienceSearch in Google Scholar
Mann, E.E., Rice, K.C., Boles, B.R., Endres, J.L., Ranjit, D. et al. (2014). Modulation of eDNA release and degradation affects Staphylococcus aureus biofilm maturation. PLoS ONE 4(6): e5822. 10.1371/journal.pone.0005822MannE.E.RiceK.C.BolesB.R.EndresJ.L.RanjitD.2014Modulation of eDNA release and degradation affects Staphylococcus aureus biofilm maturation46e582210.1371/journal.pone.0005822268875919513119Open DOISearch in Google Scholar
McKee, J. Richards, A.J. (1996). Variation in seed production and germinability in common reed Phragmites australis in Britain and France with respect to climate. New Phytologist 133(2): 233–243. 10.1111/j.1469-8137.1996.tb01890.xMcKeeJ.RichardsA.J.1996Variation in seed production and germinability in common reed Phragmites australis in Britain and France with respect to climate133223324310.1111/j.1469-8137.1996.tb01890.x29681068Open DOISearch in Google Scholar
Nei, M. Li, W.H. (1979). Mathematical model for studying genetic variation in terms of restriction endonucleases. Proceedings of the National Academy of Sciences 76(10): 5269–5273.NeiM.LiW.H.1979Mathematical model for studying genetic variation in terms of restriction endonucleases76105269527310.1073/pnas.76.10.5269Search in Google Scholar
Neuhaus, D., Kühl, H., Kohl, J.-G., Dörfel, P. Börner, T. (1993). Investigation on the genetic diversity of Phragmites stands using genomic fingerprinting. Aquatic Botany 45(4): 357–364. 10.1016/0304-3770(93)90034-TNeuhausD.KühlH.KohlJ.-G.DörfelP.BörnerT.1993Investigation on the genetic diversity of Phragmites stands using genomic fingerprinting45435736410.1016/0304-3770(93)90034-TOpen DOISearch in Google Scholar
Ostendorp, W. (1991). Damage by episodic flooding to Phragmites reeds in a prealpine lake: proposal of a model. Oecologia 86: 119–124.OstendorpW.1991Damage by episodic flooding to Phragmites reeds in a prealpine lake: proposal of a model8611912410.1007/BF00317398Search in Google Scholar
Paucã-Comãnescu, M., Clevering, O.A., Hanganu, J. Gridin, M. (1999). Phenotypic differences among ploidy levels of Phragmites australis growing in Romania. Aquatic Botany 64(3): 223–234. 10.1016/S0304-3770(99)00052-2Paucã-ComãnescuM.CleveringO.A.HanganuJ.GridinM.1999Phenotypic differences among ploidy levels of Phragmites australis growing in Romania64322323410.1016/S0304-3770(99)00052-2Open DOISearch in Google Scholar
Rocha, A.C.S., Almeida, C.M.R., Basto, M.C.P. Vasconcelos, M.T.S.D. (2014). Antioxidant response of Phragmites australis to Cu and Cd contamination. Ecotoxicology and Environmental Safety 109: 152–160. 10.1016/j.ecoenv.2014.06.027RochaA.C.S.AlmeidaC.M.R.BastoM.C.P.VasconcelosM.T.S.D.2014Antioxidant response of Phragmites australis to Cu and Cd contamination10915216010.1016/j.ecoenv.2014.06.027Open DOISearch in Google Scholar
Romero, J.A., Brix, H. Comı⊠n, F.A. (1999). Interactive effects of N and P on growth, nutrient allocation and NH4 uptake kinetics by Phragmites australisAquatic Botany 64(3): 369–380.RomeroJ.A.BrixH.Comı⊠nF.A.1999Interactive effects of N and P on growth, nutrient allocation and NH4 uptake kinetics by Phragmites australis64336938010.1016/S0304-3770(99)00064-9Search in Google Scholar
Sabba, R.P. Lulai, E.C. (2002). Histological analysis of the maturation of native and wound periderm in potato Solanum tuberosum L.) tuber. Annals of Botany 90(1): 1–10. 10.1093/aob/mcf147SabbaR.P.LulaiE.C.2002Histological analysis of the maturation of native and wound periderm in potato Solanum tuberosum L.) tuber90111010.1093/aob/mcf147423385112125762Open DOISearch in Google Scholar
Šmilauer, P. Lepš, J. (2003). Multivariate Analysis of Ecological Data using CANOCO. Cambridge University Press.ŠmilauerP.LepšJ.2003Cambridge University Press10.1017/CBO9780511615146Search in Google Scholar
Šorša, A., Peh, Z. Halamic, J. (2018). Geochemical mapping the urban and industrial legacy of Sisak, Croatia, using discriminant function analysis of topsoil chemical data. Journal of Geochemical Exploration 187(2018): 155–167. 10.1016/j.gexplo.2017.07.014ŠoršaA.PehZ.HalamicJ.2018Geochemical mapping the urban and industrial legacy of Sisak, Croatia, using discriminant function analysis of topsoil chemical data187201815516710.1016/j.gexplo.2017.07.014Open DOISearch in Google Scholar
Squires, L. Van der Valk, A.G. (1992). Water-depth tolerances of the dominant emergent macrophytes of the Delta Marsh, Manitoba. Can. J. Bot. 70: 1860–1867.SquiresL.Van der ValkA.G.1992Water-depth tolerances of the dominant emergent macrophytes of the Delta Marsh, Manitoba701860186710.1139/b92-230Search in Google Scholar
Van der Putten, W.H., Peters, B.A.M. Van der Berg, M.S. (1997). Effects of litter on substrate conditions and growth of emergent macrophytes. New Phytol. 135: 527–537.Van der PuttenW.H.PetersB.A.M.Van der BergM.S.1997Effects of litter on substrate conditions and growth of emergent macrophytes13552753710.1046/j.1469-8137.1997.00678.xSearch in Google Scholar
Wang, H.L., Hao, L.M., Wen, J.Q., Zhang, C.L. Liang, H.G. (1998). Differential expression of photosynthesis-related genes of reed ecotypes in response to drought and saline habitats. Photosynthetica 35(1): 61–69.10.1023/A:1006817714739WangH.L.HaoL.M.WenJ.Q.ZhangC.L.LiangH.G.1998Differential expression of photosynthesis-related genes of reed ecotypes in response to drought and saline habitats351616910.1023/A:1006817714739Open DOISearch in Google Scholar
Wang, L.-W., Showalter, A.M., Ungar, I.A. (1997). Effect of salinity on growth, ion content, and cell wall chemistry in Atriplex prostrata (Chenopodiaceae). American Journal of Botany 84(9): 1247–1255.WangL.-W.ShowalterA.M.UngarI.A.1997Effect of salinity on growth, ion content, and cell wall chemistry in Atriplex prostrata (Chenopodiaceae)8491247125510.2307/2446049Search in Google Scholar
White, S.D. Ganf, G.G. (2002). A comparison of the morphology, gas space anatomy and potential for internal aeration in Phragmites australis under variable and static water regimes. Aquat. Bot. 73: 115–127.WhiteS.D.GanfG.G.2002A comparison of the morphology, gas space anatomy and potential for internal aeration in Phragmites australis under variable and static water regimes7311512710.1016/S0304-3770(02)00010-4Search in Google Scholar
Willson, K.G., Perantoni, A.N., Berry, Z.C., Eicholtz, M.I., Tamukong, Y.B. et al. (2017). Influences of reduced iron and magnesium on growth andphotosynthetic performance of Phragmites australis subsp. americanus (North American common reed). Aquatic Botany 137(2017): 30–38. 10.1016/j.aquabot.2016.11.005WillsonK.G.PerantoniA.N.BerryZ.C.EicholtzM.I.TamukongY.B.2017Influences of reduced iron and magnesium on growth andphotosynthetic performance of Phragmites australis subsp(North American common reed). Aquatic Botany1372017303810.1016/j.aquabot.2016.11.005Open DOISearch in Google Scholar
Zeidler, A., Schneider, S., Jung, C., Melchinger, A.E. Dittrich, P. (1994). The Use of DNA Fingerprinting in Ecological Studies of Phragmites australis (Cav.) Trin. ex Steudel. Botanica Acta 107(4): 237–242. 10.1111/j.1438-8677.1994.tb00791.xZeidlerA.SchneiderS.JungC.MelchingerA.E.DittrichP.1994The Use of DNA Fingerprinting in Ecological Studies of Phragmites australis (Cav.) Trin. ex Steudel107423724210.1111/j.1438-8677.1994.tb00791.xOpen DOISearch in Google Scholar
Zhu, X., Jing, Y., Chen, G., Wang, S. Zhang, C. (2003). Solute levels and osmoregulatory enzyme activities in reed plants adapted to drought and saline habitats. Plant Growth Regulation 41(2): 165–172. 10.1023/A:1027381006811ZhuX.JingY.ChenG.WangS.ZhangC.2003Solute levels and osmoregulatory enzyme activities in reed plants adapted to drought and saline habitats41216517210.1023/A:1027381006811Open DOISearch in Google Scholar
Zwieniecki, M.A., Orians, C.M., Melcher, P.J. Holbrook, N.M. (2003). Ionic control of the lateral exchange of water between vascular bundles in tomato. Journal of Experimental Botany 54(386): 1399–1405. 10.1093/jxb/erg144ZwienieckiM.A.OriansC.M.MelcherP.J.HolbrookN.M.2003Ionic control of the lateral exchange of water between vascular bundles in tomato543861399140510.1093/jxb/erg14412709486Open DOISearch in Google Scholar