Structure of submerged littoral vegetation
Polska Akademia Nauk. Instytut Ekologii
Oficyna Wydawnicza Instytutu Ekologii PAN
Pages 299-310 : illustrations ; 24 cm ; Bibliographical references (pages 309-310) ; Abstract in Polish
An attempt was undertaken to compare pelagic indices commonly used to describe trophic status of lakes (SD, chlorophyll, total phosphorus and total nitrogen) with parameters characterising submerged littoral zone of lakes (maximum depth of plant occurrence, number of species, mean plant biomass and percentage biomass of the dominating species). The data were collected from 20 lakes of various morphometry and trophic state selected from the Great Masurian Lakes system (north-eastern Poland) from 1985 till 1995. The greatest impact on submerged littoral structure (species abundance and diversity) was exerted by water transparency, nutrient concentrations had negligible effect on littoral parameters. From among four littoral characteristics, submerged plant biomass seems to be of the poorest indicative value since its correlation with pelagic indices was usually weakest and statistically insignificant.
1. Anderson M. R., Kalff J. 1986 - Nutrient limitation of Myriophyllum spicatum growth in situ - Freshwater Biology, 16: 735-743.
2. Barko J. W., Smart R. M. 1986 - Sediment related mechanisms and growth limitations in submersed macrophytes - Ecology, 67: 1328-1340.
3. Blindow I. 1988 - Phosphorus toxicity in Chara - Aquat. Bot., 32: 393-395.
4. Blindow I. 1992 - Long- and short-term dynamics of submerged macrophytes in two shallow eutrophic lakes - Freshwater Biology, 28: 15-27.
5. Blindow I., Andersson G., Hargeby A., Johansson S. 1993 - Long-term pattern of alternative stable states in two shallow eutrophic lakes - Freshwater Biology, 30: 159-167.
6. Carlson R. E. 1977 - A trophic state index for lakes - Limnol. Oceanogr., 22: 361-369.
7. Chambers P. A., Prepas E. E. 1990 - Competition and coexistence in submerged aquatic plant communities: the effects of species interactions versus abiotic factors - Freshwater Biology, 23: 541-550.
8. Duarte C. M., Kalff J. 1986 - Littoral slope as a predictor of the maximum biomass of submerged macrophyte communities - Limnol. Oceanogr. 31: 1072-1080.
9. Duarte C. M., Kalff J. 1990 - Patterns in the submerged macrophyte biomass of lakes and the importance of the scale of analysis in the interpretation - Can. J. Fish. Aquat. Sci. 47: 357-363.
10. Dykyjova D., Kosanova A., Husak S., Sladeckova A. 1985 - Macrophytes and water pollution of the Zlata Stoka (Golden Canal), Trebon Biosphere Reserve, Czechoslovakia - Arch. Hydrobiol. 105: 31-58.
11. Forsberg C. 1964 - Phosphorus, a maximum factor in the growth of Characeae - Nature, 201: 517-518.
12. Golterman H. L. 1969 - Methods for chemical analysis of fresh waters - Blackwell Scientific Publications, Oxford and Edinburg, 172 pp.
13. Hough R. A., Putt D. A. 1988 - Factors influencing photosynthetic productivity of Chara vulgaris L. in a moderately productive, hardwater lake - J. Freshwater Ecol., 4: 411-418.
14. Kufel L., Ozimek T. 1994 - Can Chara control phosphorus cycling in Lake Luknajno (Poland). - Hydrobiologia, 275/276: 277-283.
15. Lewis M. A. 1995 - Use of freshwater plants for phytotoxicity testing: A review - Environ. Pollut. 87: 319-336.
16. Lorenzen M. W. 1980 - Use of chlorophyll-Secchi disk relationships - Limnol. Oceanogr. 25: 371-372.
17. Megard R. O., Settles J. C., Boyer H. A., Combs Jr. W. S. 1980 - Light, Secchi disks, and trophic states - Limnol. Oceanogr. 25: 373-377.
18. Ozimek T. 1978 - Effect of municipal sewage on the submerged macrophytes of a lakelittoral - Ekol. pol. 26: 3-39.
19. Pieczyńska E., Ozimek T., Rybak J. I. 1988 - Long-term changes in littoral habitats and communities in Lake Mikołajskie (Poland) - Int. Revue ges. Hydrobiol., 73: 361-378.
20. Pip E. 1987 - The ecology of Potamogeton species in central North America - Hydrobiologia, 153: 203-216.
21. Scheffer M., Hosper S. H., Meijer M.-L., Moss B., Jeppesen E. 1993 - Alternative equilibria in shallow lakes - Trends in Ecology and Evolution, 8: 275-279.
22. Seddon B. 1972 - Aquatic macrophytes as limnological indicators - Freshwater Biology, 2: 107-130.
23. Simons J., Ohm M., Daalder R., Boers P., Rip W. 1994 - Restoration of Botshol (The Netherlands) by reduction of external nutrient load: recovery of a characean community, dominated by Chara connivens - Hydrobiologia, 275/278: 243-253.
24. Solórzano L. 1969 - Determination of ammonia in natural waters by the phenylhypochlorite method - Limnol. Oceanogr., 14: 799-800.
25. Standard Methods for the Examination of Water and Wastewater, 1960 - Am. Publ. Health Assoc. Inc., New York, 626 pp.
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Museum and Institute of Zoology of the Polish Academy of Sciences
Library of the Museum and Institute of Zoology of the Polish Academy of Sciences
Feb 4, 2022
Dec 3, 2019
84
https://rcin.org.pl./publication/89667
Kufel, Irena Kufel, Lech
Kufel, Irena Kufel, Lech
Ozimek, Teresa
Kufel, Irena Kufel, Lech
Ozimek, Teresa
Królikowska, Joanna
Ejsmont-Karabin, Jolanta
Kufel, Lech