Abstract
The formerly rich characean community in Botshol with six species of which the rareNitellopsis obtusa andChara hispida dominated at many sites, decreased to only two species,Chara globularis andC. connivens, in the period 1980–1988. The macrophyteNajas marina also remained at some sites, and the aquatic mossFontinalis antipyretica and the filamentous algaVaucheria dichotoma predominated at many sites. These phenomena may have been due to eutrophication by the inlet of polluted water. This process of eutrophication was stopped by restoration measures in 1989, resulting in a lower phosphorus concentration (ca. 0.024 mg l−1) and a higher water transparency. Immediately after these measures the Characeae community increased strongly in abundance and number of species. During the summer of 1990, and especially of 1991, a spectacular growth occurred ofChara connivens. Chara connivens was often accompanied byChara hispida. Other species with scattered occurrence wereChara aculeolata, C. aspera, C. contraria andC. Globularis. The reasons for the shift in dominance fromNitellopsis obtusa toChara connivens are discussed. One of the reasons may be the recent higher chloride content which is one of the consequences of the restoration measures.
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References
BLINDOW, L., 1988. Phosphorus toxicity in Chara (short communication). Aquat. Bot., 32: 393–395.
FORSBERG, C., 1964. Phosphorus, a maximum factor in the growth of Characeae. Nature, 201: 517–518.
HUTCHINSON, G.E., 1975. A Treatise on Limnology. Vol. III. Limnological Botany. New York.
MAIER, E.X., 1972. De kranswieren (Charophyta) van Nederland. Hoogwoud, Wetensch. Meded. KNNV 93 (in Dutch).
MELZER, A., 1976. Makrophytische Wasserpflanzen als Indikatoren des Gewässerzustandes oberbayerischer Seen. Diss. Bot. 34, Cramer Vadux.
MOORE, J.A., 1986. Charophytes of Great Britain and Ireland. Botanical Society of the British Islaes, c/o British Museum (Natural History), Cromwell Road, London SW7 5BD.
PROCTOR, V.W., 1967. Storage and germination of Chara oospores. J. Phycol. 3: 40–92.
RIP, W.J., K. EVERARDS, and A. HOUWERS, 1992. Restoration of Botshol (The Netherlands) by reduction of external nutrient load: the effects on physico-chemical conditions, diatoms and plankton. Hydrobiol. Bull., 25: 275–286.
SATAKE, K., 1987. A small dredge for sampling aquatic macrophytes. Hydrobiologia 150: 141–142.
SIMONS, J., 1991. Decline of the Characeae community in the shallow peat lake Botshol. In: J. Rozema and J.A.C. Verkleij, Eds., Ecological Responses to Environmental Stresses, p. 161–169, Kluwer, Dordrecht.
SIMONS, J., R. DAALDER, M. OHM, and W.J. RIP, 1991. Floristische veranderingen en beheersmaatregelen in de veenplas Botshol. De Levende Natuur 92: 29–34 (in Dutch).
VAN IERSEL, P.B.W. and W.J. RIP, 1992. Restoration of Botshol (The Netherlands) by reduction of external nutrient load: problem analysis and restoration methods. Hydrobiol. Bull., 25: 265–273.
VAN RAAM, J.C. and E.X. MAIER, 1989. Nederlandse kranswieren 1. Sterkranswier (Nitellopsis obtusa (Desv.). J. Groves). Gorteria 15: 108–118 (in Dutch).
VAN VIERSSEN, W., 1982. Some notes on the germination of seeds of Najas marina. Aquat. Bot. 12: 201–204.
VROMAN, M., 1976. De verspreiding van waterplanten in de Botshol. In: De Noordelijke Vechtplassen. Vlaardingen, p. 317–331 (in Dutch).
WESTHOFF, V., 1949. Landschap, Flora en Vegetatie van de Botshol, Baambrugge (in Dutch).
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Simons, J., Ohm, M. & Daalder, R. Restoration of Botshol (The Netherlands) by reduction of external nutrient load: Recovery of the Characean community. Hydrobiological Bulletin 25, 287–294 (1992). https://doi.org/10.1007/BF02270814
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DOI: https://doi.org/10.1007/BF02270814