Adaptations of morphology, anatomy and phytochemical composition of leaves of Stratiotes aloides L. emergent forms

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Interdisciplinary research was carried out on the impact of climate on the diversity and morphology of Stratiotes aloides L. emergent forms’ phenotype in various latitudes. The objectives of the research were: 1. to determine whether the climate influences the diversity of emergent forms, 2. to determine the diversity of morphological and anatomical traits and chemical composition of S. aloides specimens in Poland and Russia, 3. to examine the content of, and determine the correlation between phenols, phenolic acids, flavonoids, anthocyanins, and tannins in S. aloides. The research demonstrated the substantial diversity of 13 morpho-anatomical traits, and 5 phytochemical traits, both between regions, and individual habitats. Principal Component Analysis (PCA) demonstrated different correlation patterns for the analysed substances between regions characterised by different temperature ranges. S.aloides shows substantial abilities to adapt in terms of structure and physiology to the aquatic environment in various climate zones.

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  • Aerts R. van Logtestijn R.S.P. Karlsson PS. 2006 Nitrogen supply differentially affects litter decomposition rates and nitrogen dynamics of sub-arctic bog species Oecologia 146(4): 652–658.

  • Akerström A. Jaakola L. Bång U. Jäderlund A. 2010 Effects of latitude-related factors and geographical origin on anthocyanidin concentrations in fruits of Vaccinium myrtillus L. (bilberries) J. Agric. Food Chem. 58(22): 11939–11945.

  • Azmi A.B. 2007 Plankton distribution and composition of oxbow lakes in Sabah [Master’s thesis] University Malaysia Sabah Kota Kinabalu 125 pp.

  • Bennett R.N. Wallsgrove R.M. 1994 Secondary metabolites in plant defence mechanisms New Phytol. 127(4): 617–633.

  • Bravo L. 1998 Polyphenols: chemistry dietary sources metabolism and nutritional significance Nutr. Rev. 56(11): 317–333.

  • Connor A.M. Luby J.J. Tong C.B.S. Finn C.E. Hancock J.F. 2002 Genotypic and environmental variation in antioxidant activity total phenolic content and anthocyanin content among blueberry cultivars J. Amer. Soc. Hort. Sci. 127(1): 89–97.

  • Conrad J. Förster-Fromme B. Constantin M.A. Ondrus V. Mika S. Mert-Balci F. Klaiber I. Pfannstiel J. Möller W. Rösner H. Förster-Fromme K. Beifuss U. 2009 Flavonoid glucuronides and a chromone from the aquatic macrophyte Stratiotes aloides J. Nat. Prod. 72(5): 835–840.

  • Cook C.D.K. Urmi-König K. 1983 A revision of the genus Stratiotes (Hydrocharitaceae) Aquat. Bot. 16(3): 213–249.

  • Croteau R. Kutchan T.M. Lewis N.G. 2000 Natural products (secondary metabolites) [in:] Buchanan B.B. Gruissem W. Jones R.L. (eds) Biochemistry and Molecular Biology of Plants American Society of Plant Physiologists Rockwill: 1250–1318.

  • Dorrepaal E. 2005 Plant growth-form and climate controls on production and decomposition in northern peatlands [Dissertation] Vrije Universiteit Amsterdam 174 pp.

  • Dudt J.F. Shure D. J. 1994 The influence of light and nutrients on foliar phenolics and insect herbivory Ecology 75(1): 86–89.

  • Dvořáková Březinová T. Vymazal J. 2018 Phenolic Compounds in Wetland Macrophytes Sci. Agric. Bohem. 49(1): 1–8.

  • Efremov A.N. 2016 Anatomy and morphology of vegetative organs and inflorescence of Stratiotes aloides L. (Hydrocharitaceae) Inland Water Biol. 9(1): 27–38.

  • Efremov A.N. Sviridenko B.F. 2008 The ecobiomorph of water soldier Stratiotes aloides L. (Hydrocharitaceae) in the west Siberian part of its range Inland Water Biol. 1(3): 225–230.

  • Ferrat L. Pergent-Martini C. Roméo M. 2003 Assessment of the use of biomarkers in aquatic plants for the evaluation of environmental quality: application to seagrasses Aquat. Toxicol. 65: 187–204.

  • [FSRH] Federal Service of Russia for Hydrometeorology and Monitoring Environment 2018 Climate of Russia. Retrieved from [accessed 7 February 2018].

  • Gawlik-Dziki U. 2004 Wpływ gotowania na skład i aktywność antyoksydacyjną kwasów fenolowych wyizolowanych z brokułu (The effect of cooking on composition and antioxidant activity of phenolic acids isolated from broccoli) Ann. UMCS E 59(4): 159–164 (in Polish English summary).

  • Giada M.L.R. 2013 Food phenolic compounds: main classes sources and their antioxidant power [in:] Morales-Gonzalez J.A. (ed.) Oxidative stress and chronic degenerative diseases – A role for antioxidants InTech Rijeka: 87–112.

  • Gliwicz Z.M. 2004 Zooplankton [in:] O’Sullivan P.E. Reynolds C.S. (eds) The Lakes Handbook. Vol 1 Blackwell Publishing Oxford: 461–516.

  • Glück H. 1936 Pteridophyten und Phanerogamen unter gleichzeitiger Berücksichtigung der wichtigsten Wasser- und sumpfgewächse des ganzen Kontinents von Europa [in:] Pascher A. (ed.) Die Süßwasser Flora Mitteleuropas G. Fisher Verlag Jena: 316–317 (in German).

  • González-Lamothe R. Mitchell G. Gattuso M. Diarra M.S. Malouin F. Bouarab K. 2009 Plant antimicrobial agents and their effects on plant and human pathogens Int. J. Mol. Sci. 10(8): 3400–3419.

  • Hoorens B. Aerts R. Stroetenga M. 2003 Does initial litter chemistry explain litter mixture effects on decomposition? Oecologia 137(4): 578–586.

  • Howard L.R. Clark J.R. Brownmiller C. 2003 Antioxidant capacity and phenolic content in blueberries as affected by genotype and growing season J. Sci. Food Agric. 83(12): 1238–1247.

  • Hutzler P. Fischbach R. Heller W. Jungblut T.P. Reuber S. Schmitz R. Veit M. Weissenbock G. Schnitzler J.P. 1998 Tissue localization of phenolic compounds in plants by confocal laser scanning microscopy J. Exp. Bot. 49: 953–965.

  • [IMGW] Instytut Meteorologii i Gospodarki Wodnej (Institute of Meteorology and Water Management) 2018 Klimat Polski 1971–2017 (Climate of Poland 1971–2017). Retrieved from [accessed 7 February 2018].

  • Josuttis M. Carlen C. Crespo P. Nestby R. Toldam-Andersen T.B. Dietrich H. Krüger E. 2012 A comparison of bioactive compounds of strawberry fruit from Europe affected by genotype and latitude J. Berry Res. 2: 73–95.

  • Kaur C. Kapoor C.H. 2002 Antioxidant activity and total phenolic content of some Asian vegetables Int. J. Food Sci. Technol. 37: 153–161.

  • Kornatowski J. 1976 Dynamics of Stratiotes aloides development Pol. Arch. Hydrobiol. 23(3): 365–376.

  • Kornatowski J. 1979 Turions and offsets of Stratiotes aloides L. Acta Hydrobiol. 21(2): 185–204.

  • Kornatowski J. 1983/1984 Morphological forms of the water soldier (Stratiotes aloides L.) Acta Hydrobiol. 25/26: 145–156.

  • Kornatowski J. 1985 Phenological and morphometrical differentiation of the water-soldier (Stratiotes aloides L.) Acta Hydrobiol. 27: 33–47.

  • Lattanzio V. Lattanzio V.M.T. Cardinali A. 2006 Role of phenolics in the resistance mechanisms of plants against fungal pathogens and insects [In:] Imperato F. (ed.) Phytochemistry: Advances in research Research Signpost Trivandrum: 23–67.

  • Lee J. Durst R.W. Wrolstad R.E. 2005 Determination of total monomeric anthocyanin pigment content of fruit juices beverages natural colorants and wines by the pH differential method: collaborative study J. AOAC Int. 88(5):1269–1278.

  • Lodge D.M. 1991 Herbivory on freshwater macrophytes Aquat. Bot. 41: 195–224.

  • Martz F. Peltola R. Fontanay S. Duval R.E. Julkunen-Tiitto R. Stark S. 2009 Effect of latitude and altitude on the terpenoid and soluble phenolic composition of juniper (Juniperus communis) needles and evaluation of their antibacterial activity in the boreal zone J. Agric. Food Chem. 57(20): 9575–9584

  • Mierziak J. Kostyn K. Kulma A. 2014 Flavonoids as important molecules of plant interactions with the environment Molecules 19(10): 16240–16265.

  • [NBN] National Biodiversity Network 2017 NBN Atlas website: Stratiotes aloides L. Retrieved from [accessed 7 February 2018].

  • Olenichenko N.A. Zagoskina N.V. 2005 Response of winter wheat to cold: production of phenolic compounds and l-phenylalanine ammonia lyase activity Appl. Biochem. Microbiol. 41(6): 600–603.

  • Renman G. 1989 Life history of two clons populations of Stratiotes aloides L. Hydrobiol. 185(3): 211–222.

  • Richardson C.J. Ferrell G.M. Vaithiyanathan P. 1999 Nutrient effects on stand structure resorption efficiency and secondary compounds in Everglades sawgrass Ecology 80(7): 2182–2192.

  • Samatha T. Shyamsundarachary R. Srinivas P. Rama Swamy N. 2012 Quantification of total phenolic and total flavonoid contents in extracts of Oroxylum indicum L. kurz. Asian J. Pharm. Clin. Res. 5(Suppl 4): 177–179.

  • Smolders A.J.P. den Hartog C. Roelofs J.G.M. 1995a Observations on fruiting and seed-set of Stratiotes aloides L. in the Netherlands Aquat. Bot. 51(3): 259–268.

  • Smolders A.J.P. den Hartog C. Roelofs J.G.M. 1995b Germination and seedling development in Stratiotes aloides L. Aquat. Bot. 51(3): 269–279.

  • Smolders A.J.P. Vergeer L.H.T. van der Velde G. Roelofs J.G.M. 2000 Phenolic contents of submerged emergent and floating leaves of aquatic and semi-aquatic macrophyte species: why do they differ? Oikos 91(2): 307–310.

  • Snyder E. Ardath F. Darbyshire S.J. 2016 Biology of invasive alien plants in Canada. 13. Stratiotes aloides L. Can. J. Plant Sci. 96(2): 225–242.

  • Solecka D. Boudet A.M. Kacperska A. 1999 Phenylpropanoid and anthocyanin changes in low-temperature treated winter oilseed rape leaves Plant Physiol. Biochem. 37(6): 491–496.

  • Stevens P.F. 2001 Angiosperm Phylogeny Website. Version 14 July 2017 [and more or less continuously updated since]. Retrieved from [accessed 7 February 2018].

  • Tattini M. Galardi C. Pinelli P. Massai R. Remorini D. Agati G. 2004 Differential accumulation of flavonoids and hydroxycinnamates in leaves of Ligustrum vulgare under excess light and drought stress New Phytol. 163(3): 547–561.

  • Toma C. 2006 Distribution and comparison of two morphological forms of water soldier (Stratiotes aloides L.): a case study on Lake Słosineckie Wielkie (NorthWest Poland) Biodiv. Res. Conserv. 3–4: 251–257.

  • Treutter D. 2006 Significance of flavonoids in plant resistance: a review Environ. Chem. Lett. 4: 147–157.

  • Tsao R. 2010 Chemistry and biochemistry of dietary polyphenols Nutrients 2(12): 1231–1246.

  • Vergeer L.H.T. van der Velde G. 1997 Phenolic content of daylight-exposed and shaded floating leaves of water lilies (Nymphaeaceae) in relation to infection byfungi Oecologia 112(4): 481–484.

  • Vermerris W. Nicholson R. 2006 The role of phenols in plant defense [in:] Vermerris W. Nicholson R (eds) Phenolic compound biochemistry Springer Dordrecht: 211–234.

  • Xu B.J. Chang S.K.C. 2007 Comparative study on phenolic profiles and antioxidant activites of legumes as affected by extraction solvents J. Food Sci. 72(2): 159–166.

  • Zidron C. 2010 Altitudinal variation of secondary metabolites in flowering heads of the Asteraceae: trends and causes Phytochem. Rev. 9(2): 197–203.

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