Abstract
Najas flexilis (Willd.) Rostk. & Schmidt is a submerged annual macrophyte, rare in Europe, which is protected under the EC Habitats Directive. N. flexilis appears to be decreasing in the British Isles, its main stronghold in Europe. We outline the environmental conditions required for N. flexilis growth, comparing between present and recently extinct sites for the plant. Plant traits (leaf area/shoot length; and reproductive number/shoot length) can be used to assess N. flexilis population success, and models are produced that can predict this. Both the comparison between present and extinct sites, and the models, suggest that eutrophication and acidification of lakes are the main threats to N. flexilis. Acidification appears to reduce the ability of N. flexilis to produce seeds (potentially fatal for an annual). On the other hand, eutrophication leads to conditions where N. flexilis, an obligate carbon dioxide utiliser, cannot photosynthesise due to the predominance of bicarbonate rather than dissolved carbon dioxide in lake water.
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References
Ali, M. M., K. J. Murphy & V. J. Abernethy, 1999. Macrophyte functional variables versus species assemblages as predictors of trophic status in flowing waters. Hydrobiologia 415: 131–138.
Capers, R. S., 2000. A comparison of two sampling techniques in the study of submersed macrophyte richness and abundance. Aquatic Botany 68: 87–92.
Carignan, R. & J. Kalff, 1980. Phosphorus sources for aquatic weeds: water or sediments? Science 207: 987–989.
Den Hartog, C. & S. Segal, 1964. A new classification of the water-plant communities. Acta Bot Neerlandica 13: 367–393.
Dudash, M. R., 1990. Relative fitness of selfed and outcrossed progeny in a self-compatible, protandrous species, Sabatia angularis L. (Gentianaceae): a comparison in three environments. Evolution 44: 1129–1139.
Fischer, M. & D. Matthies, 1998. Effects of population size on performance in the rare plant Gentianella germanica. Journal of Ecology 86: 195–204.
Hough, R. A. & M. D. Fornwall, 1988. Interactions of inorganic carbon and light availability as controlling factors in aquatic macrophyte distribution and productivity. Limnology and Oceanography 33(5): 1202–1208.
Hough, R. A. & R. G. Wetzel, 1978. Photorespiration and CO2 compensation point in Najas flexilis. Limnology and Oceanography 23(4): 719–724.
Hultén, E. & M. Fries, 1986. Atlas of North European Vascular Plants North of the Tropic of Cancer. Koeltz Scientific Books, Konigstein.
Hutchinson, G. E., 1975. A Treatise on Limnology. John Wiley and Sons, New York.
Kirk, J. T. O., 1994. Light and Photosynthesis in Aquatic Systems. Cambridge University Press, Cambridge.
Moeller, R. E., J. M. Burkholder & R. G. Wetzel, 1988. Significance of sedimentary phosphorus to a rooted submersed macrophyte (Najas flexilis (Willd.) Rostk. and Schmidt) and its algal epiphytes. Aquatic Botany 32: 261–281.
Ouborg, N. J. & R. Van Treuren, 1995. Variation in fitnessrelated characters among small and large populations of Salvia pratensis. Journal of Ecology 83: 369–380.
Pip, E. & K. Simmons, 1986. Aquatic angiosperms at unusual depths in Shoal lake, Manitoba Ontario. Canadian Field Naturalist 100: 354–358.
Preston, C. D. & M. O. Hill, 1997. The geographical relationships of British and Irish vascular plants. Botanical Journal of the Linnean Society 124: 1–120.
Spence, D. N. H., R. M. Campbell & J. Chrystal, 1973. Specific leaf areas and zonation of freshwater macrophytes. Journal of Ecology 61: 317–328.
Sultan, S. E., 2001. Phenotypic plasticity for fitness components in Polygonum species of contrasting ecological breadth. Ecology 82: 328–343.
Titus, J. E. & D. T. Hoover, 1993. Reproduction in two submersed macrophytes declines progressively at low pH. Freshwatater Biology 30: 63–72.
Wurts, W. A. & R. M. Durborow, 1992. Interactions of pH, carbon dioxide, alkalinity and hardness in fish ponds. SRAC publication number 464.
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Wingfield, R., Murphy, K.J., Gatwood, M. (2006). Assessing and predicting the success of Najas flexilis (Willd.) Rostk. & Schmidt, a rare European aquatic macrophyte, in relation to lake environmental conditions. In: Caffrey, J.M., Dutartre, A., Haury, J., Murphy, K.J., Wade, P.M. (eds) Macrophytes in Aquatic Ecosystems: From Biology to Management. Developments in Hydrobiology, vol 190. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-5390-0_12
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DOI: https://doi.org/10.1007/978-1-4020-5390-0_12
Publisher Name: Springer, Dordrecht
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Online ISBN: 978-1-4020-5390-0
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