Abstract
In Lake Łuknajno submerged macrophytes occupied 50% of lake area and their mean biomass was 350 g dry weight m–2 in the 1993 year. Maximum biomass values of charophytes reached high levels above 1000 g dry weight m–2 (in a few samples). During the last 20 years changes in submerged macrophytes were mainly quantitative. In that period the area occupied by plants decreased twice, presumable by eutrophication. In 1993 Lake Łuknajno was still a Chara-type. Seven species of Characeae were recorded, Chara aculeolataand C. tomentosabeing the most abundant. The contribution of charophytes to total dry weight of all submerged macrophytes was 90%. At stations covered with Chara,phosphorus, nitrogen and chlorophyll concentrations were markedly lower than at stations devoid of plants.
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References
Barko, J. W., D. Gunnison & S. R. Carpenter, 1991. Sediment interactions with submersed macrophyte growth and community dynamics. Aquat. Bot. 41: 41–65.
Bastardo, H., 1978. Laboratory studies on decomposition of littoral plants. Ph. D. Thesis, University of Warsaw, Warsaw, 45 pp.
Bernatowicz, S., 1960. Charakterystyka jezior na podstawie roslin naczyniowych. [The characteristics of lakes on the base of vascular plants] Roczn. Nauk Roln. 77-B-l: 79–101.
Blindow, I., 1988. Phosphorus toxicity in Chara. Aquat. Bot. 32: 393–395.
Blindow, I., 1991. Interactions between submerged macrophytes and microalgae in shallow lakes. Doctoral dissertation, Lund University, Lund, 112 pp.
Boyd, C. E., 1971. The limnological role of aquatic macrophytes and their relationships to reservoir management. Reserv. Fish. Limnol. 8: 153–166.
Engel, S., 1988. The role and interactions of submersed macrophytes in a shallow Wisconis Lake. J. Freshwat. Ecol. 4: 329–341.
Forsberg, C., 1964. Phosphorus, a maximum factor in the growth of Characeae. Nature 201: 517–518.
Hough, R. A. & D. A. Putt, 1988. Factors influencing photosynthetic productivity of Chara vulgarisL. in a moderately productive hard-water lake. J. Freshwat. Ecol. 4: 411–418.
Hutchinson, G. E., 1975. A treatise on limnology. Limnological Botany. Wiley & Sons, New York, 660 pp.
Jackson, M. L., 1958. Soil chemical analysis. Prentice-Hall Publishing Inc., Englewood Clifts, New Jersey, 498 pp.
Kocól, L., 1953. Rozmieszczenie roslinnosci w litoralu jeziora Tajty. [Distribution of vegetation in the littoral of Lake Tajty] Roczn. Nauk Roln., D, 67: 67–84.
Kufel, I. & L. Kufel, 1997. Eutrophication processes in a shallow, macrophyte-dominated lake— nutrient loading to and flow through Lake Łuknajno, Poland. Hydrobiologia 342/343: 387–394.
Kufel, L. & T. Ozimek, 1994. Can Characontrol phosphorus cycling in Lake Łuknajno (Poland)? Hydrobiologia 275/276: 277–283.
Ozimek, T, 1992. Makrofity zanurzone i ich relacje z glonami w jeziorach o wysokiej trofii. [Submerged macrophytes and their relationship with algae in eutrophic and hypertrophic lakes] Wiad. ekol. 38: 13–34.
Ozimek, T. & J. I. Rybak, 1993. Macrophytes of small water bodies of the Suwalki Landscape Park (North-Eastern Poland). Ekol. pol. 41: 157–171.
Pereyra-Ramos, E., 1981. The ecological role of Characeae in the lake littoral. Ekol. pol. 29: 167–209.
Philips, G. L., D. Eminson & B. Moss, 1970. A mechanism to account for macrophyte decline in progressively eutrophicated freshwater. Aquat. Bot. 4: 103–126.
Pieczyńska, E. & T. Ozimek, 1976. Ecological significance of lake macrophytes. Int. J. Ecol. envir. Sci. 2: 115–128.
Polakowski, B., J. Dziedzic & E. Polakowska, 1973. Roslinnosc rezerwatu ‘Jezioro Lukniany’ na Pojezierzu Mazurskim. [The vegetation of the ‘Lukniany Lake’ nature reserve in the Masurian Lake District] Ochr. Przyr. 38: 85–114.
Radziej, J., 1992. Roslinnosc naczyniowa w kilkunastu jeziorach Wigierskiego Parku Narodowego. Zdanowski, W. B. (ed.), Jeziora Wigierskiego Parku Narodowego. Ossolineum-Wroclaw, Zesz. Nauk. ‘Czlowiek i Srodowisko’ 3: 73–77.
Rattmay, M. R., C. Howard-Williams & J. M. A. Brown, 1991. Sediment and water as sources of nitrogen and phosphorus for submerged rooted aquatic macrophytes. Aquat. Bot. 40: 225–237.
Rejewski, M., 1981. Roslinnosc jezior rejonu Laski w Borach Tucholskich. [Lake vegetation of the Laska region in the Tuchola Forest (Bory Tucholskie)] Ph. D. thesis, Uniwersytet M. Kopernika, Toruń, 178 pp.
Riemer, D. N. & S. J. Toth, 1968. A survey of aquatic plants in New Jersey, N. J. Agr. Stat. Coll. Agric. envir. Sci. Rudger Univ. Bull. 820: 14 pp.
Samuelsson, G., 1925. Untersuchungen über die hohere Wasserpflanzen von Dalarne. Svenska Vaxtsoc. Sallskap. Handl. 9: 1–31.
Standard methods for the examination of water and waste water. 1960. Am. Publ. Health Assoc. Inc., New York, 626 pp.
Zarzycki, K., 1958. Die wichtingsten Grunlandgesellschaften des oberen Weichseltales und die Grundwasser-Ganglinien. Acta Soc. Bot. Pol. 27: 383–420.
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Królikowska, J. (1997). Eutrophication processes in a shallow, macrophyte-dominated lake — species differentiation, biomass and the distribution of submerged macrophytes in Lake Łuknajno (Poland). In: Kufel, L., Prejs, A., Rybak, J.I. (eds) Shallow Lakes ’95. Developments in Hydrobiology, vol 119. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-5648-6_44
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DOI: https://doi.org/10.1007/978-94-011-5648-6_44
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