References
- Arnon DI. 1949. Copper enzymes in isolated chloroplasts: polyphenoloxidases in Beta vulgaris. Plant Physiol. 24:1–15.
- Bai X, Chen X, Chen K. 2014. Impact of water depth on root morphology of Juncellus serotinus(Cyperaceae). Nordic J Bot. 32:245–250.
- Brestic M, Zivcak M, Kalaji HM, Carpentier R, Allakhverdiev SI. 2012. Photosystem II thermostability in situ: environmentally induced acclimation and genotype-specific reactions in Triticum aestivum L. Plant Physiol Biochem. 57:93–105.
- Casper, BB, Jackson, RB. 1997. Plant competition underground. Annu Rev Ecol Syst. 28:545–570.
- Champika E, Takashi A, Kiyoshi K. 2013. Water movement induced variations in growth regulation and metabolism of freshwater macrophyte Vallisneria spiralis L. in early growth stages. Hydrobiologia. 709:173–182.
- Chaves MM, Flexas J, Pinheiro C. 2008. Photosynthesis under drought and salt stress: regulation mechanisms from whole plant to cell. Ann Bot. 103:551–560.
- Chen G, Liu X, Brookes PC, Xu J. 2015. Opportunities for phytoremediation and bioindication of arsenic contaminated water using a submerged aquatic plant: Vallisneria natans (lour.) Hara. Int J Phytoremed. 17:249–255.
- Doyle RD. 2001. Effects of waves on the early growth of Vallisneria americana. Freshw Biol. 46:389–397.
- Duarte CM. 1991. Seagrass depth limits. Aqua Bot. 40:363–377.
- Ellawala C, Asaeda T, Kawamura K. 2013. Water movement induced variations in growth regulation and metabolism of freshwater macrophyte Vallisneria spiralis L. in early growth stages. Hydrobiologia. 709:173–182.
- Fox AD, Meng F, Shen X, Cao L. 2013. Effects of shading on Vallisneria natans (Lour.) H. Hara growth. Knowl Manag Aqua Ecosyst. 54:437–440.
- Garbey C, Thiébaut G, Muller S. 2006. An experimental study of the plastic responses of Ranunculus peltatus Schrank to four environmental parameters. Hydrobiologia. 570:41–46.
- Genty B, Briantais JM, Baker NR. 1989. The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochim Biophys Acta. 990:87–92.
- Gette-Bouvarot M, Mermillod-Blondin F, Lemoine D, Delolme C, Danjean M, Etienne L, Volatier L. 2015. The potential control of benthic biofilm growth by macrophytes—A mesocosm approach. Ecol Eng. 75:178–186.
- Hicks AL, Frost PC. 2011. Shifts in aquatic macrophyte abundance and community composition in cottage developed lakes of the Canadian shield. Aqua Bot. 94:9–16.
- Holzwarth AR, Lenk D, Jahns P.2013. On the analysis of non-photochemical chlorophyll fluorescence quenching curve. Biochim Biophys Acta. 1827:786–792.
- Jeppesen E, Kronvang B, Olesen JE, Audet J, Søndergaard M, Hoffmann CC, Andersen HE, Lauridsen TL, Liboriussen L, Larsen SE, et al. 2010. Climate change effects on nitrogen loading from cultivated catchments in Europe: implications for nitrogen retention, ecological state of lakes and adaptation. Hydrobiologia. 663:1–21.
- Karl E. Havens. 2003. Submerged aquatic vegetation correlations with depth and light attenuating materials in a shallow subtropical lake. Hydrobiologia. 493:173–186.
- Leverenz JW. 1987. Chlorophyll content and the light response curve of shade adapted conifer needles. Physiol Plant. 71:20–29.
- Li Q, Xie YC. 2013. Influence of low light on the growth and development of Vallisneria natans seedlings. Appl Mech Mater. 295–298:62–68.
- Maberly SC. 2014. The fitness of the environments of air and water for photosynthesis, growth, reproduction and dispersal of photoautotrophs: an evolutionary and biogeochemical perspective. Aqua Bot. 118:4–13.
- Madsen JD, Chambers PA, James WF, James WF, Koch EW, Westlake DF. 2001. The interaction between water movement, sediment dynamics and submersed macrophytes. Hydrobiologia. 444:71–84.
- Marbà N, Cebrián J, Enríquez S, Duarte CM. 1996. Growth patterns of Western Mediterranean seagrasses: species-specific responses to seasonal forcing. Mar Ecol Prog. 133:203–215.
- Marek WW, Truszczynski M. 1993. Nonmonotonic logic: context-dependent reasoning. Berlin:Springer.
- Masini RJ, Manning CR. 1997. The photosynthetic responses to irradiance and temperature of four meadow-forming seagrasses. Aquat Bot. 58:21–36.
- Maurer DA, Zedler JB. 2002. Differential invasion of a wetland grass explained by tests of nutrients and light availability on establishment and clonal growth. Oecologia. 131:279–288.
- Maxwell K, Johnson GN. 2000. Chlorophyll fluorescence – a practical guide. J Exp Bot. 51:659–668.
- Minotta G, Pinzauti S. 1996. Effects of light and soil fertility on growth, leaf chlorophyll content and nutrient use efficiency of beech (Fagus sylvatica L.) seedlings. Forest Ecol Manag. 86:61–71.
- Muller P, Li XP, Niyogi KK. 2001. Non-photochemical quenching. A response to excess light energy. Plant Physiol. 125:1558–1566.
- Olsen S, Chan F, Li W, Zhao S, Søndergaard M, Jeppesen E. 2015. Strong impact of nitrogen loading on submerged macrophytes and algae: a long term mesocosm experiment in a shallow Chinese lake. Freshw Biol. 60:1525–1536.
- Oxborough K, Baker NR. 1997. Resolving chlorophyll a fluorescence images of photosynthetic efficiency into photochemical and non-photochemical components – calculation of qP and Fv’/Fm’ without measuring Fo’. Photosynth Res. 54:135–142.
- Parkhill JP, Maillet G, Cullen JJ. 2001. Fluorescence-based maximal quantum yield for PSII as a diagnostic of nutrient stress. J Phycol. 37:517–529.
- Pieterse AH, Murphy KJ. 1993. Aquatic weeds: the ecology and management of nuisance aquatic vegetation. New York: Oxford University Press.
- Pokorny J, Kvet J, Ondok JP. 1990. Functioning of the plant component in densely stocked fish ponds. Bull d'Ecol. 21:44–48.
- Ralph P J, Gademann R. 2005. Rapid light curves: a powerful tool to assess photosynthetic activity. Aqua Bot. 82:222–237.
- Rosolem CA, Witacker JPT, Vanzolini S, Ramos VJ. 1999. The significance of root growth on cotton nutrition in an acidic low-P soil. Plant Soil. 212:183–188.
- Ruiz J M, Romero J. 2003. Effects of disturbances caused by coastal constructions on spatial structure, growth dynamics and photosynthesis of the seagrass Posidonia oceanica. Mar Pollut Bull. 46:1523–1533.
- Schreiber U. 2004. Pulse-amplitude-Modulation (PAM) fluorometry and saturation pulse method: an overview. In: Papageorgiou, G., Govindjee, editors. Chlorophyll a fluorescence. Dordrecht: Springer; p. 279–319.
- Soana E, Bartoli M. 2014. Seasonal regulation of nitrification in a rooted macrophyte (Vallisneria spiralis L.) meadow under eutrophic conditions. Aqua Ecol. 48:1–11.
- Strand J A, Weisner SEB. 2001. Morphological plastic responses to water depth and wave exposure in an aquatic plant (Myriophyllum spicatum). J Ecol. 89:166–175.
- Sultan S E. 2000. Phenotypic plasticity for plant development, function and life history. Trends Plant Sci. 5:537–542.
- Vassileva V, Demirevska K, Simova-Stoilova L, Petrova T, Tsenov N, Feller U. 2012. Long-term field drought affects leaf protein pattern and chloroplast ultrastructure of winter wheat in a cultivar-specific manner. J Agron Crop Sci. 198:104–117.
- Wigand C, Wehr J, Limburg K, Gorham B, Longergan S, Findlay S. 1999. Effect of Vallisneria americana L. on community structure and ecosystem function in lake mesocosms. Hydrobiologia. 418:137–146.
- Xiao K, Yu D, Wu Z. 2007. Differential effects of water depth and sediment type on clonal growth of the macrophyte Vallisneria natans. Hydrobiologia. 589:265–272.
- Yuan G, Fu H, Zhong J, Lou Q, Leyi N, Cao T. 2015. Growth and C/N metabolism of three submersed macrophytes in response to water depths. Environ Exp Bot. 122:94–99.
- Zivcak M, Brestic M, Balatova Z, Drevenakova P, Olsovska K, Kalaji HM, Yang X, Allakhverdiev SI. 2013. Photosynthetic electron transport and specific photoprotective responses in wheat leaves under drought stress. Photosynth Res. 117:529–546.