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Interdisciplinary investigations of 39 lakes of the Lubuskie Lakeland (mid-Western Poland) were undertaken in the vegetation seasons 2002–2009. The aim of presented study was to characterize the significance of charophytes as indicators of habitat differentiation of lakes using the number of species, number of communities and the percentage share in the phytolittoral area. Each lake was characterized based on the results of macrophyte vegetation, vegetation depth extent, pelagic phytoplankton biomass, lakes area, max. depth, SD visibility, pH, conductivity, O2, total hardness, Ca, Mg, PO4, TP, NH4, NO3, NO2, N org., TN. The statistical analyses (PCA), revealed that the investigated lakes were differentiated according to the basic morphometrical and physicochemical parameters and that the differentiation was reflected in the percentage share of charophytes in phytolittoral (in general – the bigger, deeper and more clear water were the lakes, the greater part of phytolittoral was covered by charophytes). Using simple cluster analysis based on the number of different types of macrophyte communities (helophytes, elodeids, nymphaeids and charophytes) two distinct groups of lakes were distinguished. Charophyte communities were at most responsible for obtained differentiation (one group with 0 or 1 and second with 1–6 charophyte communities). The distinguished groups of lakes differed significantly as regards 12, out of all 18 considered parameters. The greatest differences were evidenced for area, max. depth, SD visibility, Ca, Mg, NH4, NO3, phytoplankton biomass and vegetation depth extent. Similar analyses were made for the number of charophyte species, for which the lakes were divided into four groups (0–1, 2–3, 4–5 and 6–7 charophyte species per lake). In this case 11 parameters significantly differed between distinguished groups of lakes, showing, that better habitat conditions were in the lakes where more charophyte species were stated. The obtained results revealed that all analyzed charophyte indicators (the number of species, number of communities as well as the percentage share in the phytolittoral area) very clearly reflect habitat variation and water quality of lakes and thus may be used as valuable bioindicators of lakes condition.
Czasopismo
Rocznik
Tom
Strony
105--118
Opis fizyczny
Bibliogr. 50 poz., il.
Twórcy
autor
- Collegium Polonicum, Adam Mickiewicz University – Europa-Universität Viadrina, Kościuszki 1, 69-100 Słubice, Poland
autor
- Department of Hydrobiology, Faculty of Biology, Adam Mickiewicz University, Umultowska 89, 61-614 Poznań, Poland
autor
- Collegium Polonicum, Adam Mickiewicz University – Europa-Universität Viadrina, Kościuszki 1, 69-100 Słubice, Poland
Bibliografia
- 1. Audderset Joye D., Castella E., Lachavanne J.-B. 2002 – Occurrences of Characeae in Switzerland over the last two centuries (1800–2000) – Aquat. Bot. 72: 369–385.
- 2. Blindow I. 1988 – Phopshorus toxicity in Chara. Short communication – Aquat. Bot. 32: 393–395.
- 3. Blindow I. 1992a – Decline of charophytes during eutrophication; a comparison to angiosperms – Freshwater Biol. 28: 9–14.
- 4. Blindow I. 1992b – Long and short term dynamics of submerged macrophytes in two shallow eutrophic lakes – Freshwater Biol. 28: 15–27.
- 5. Braun-Blanquet J. 1964 – Pflanzensoziologie. Grundzüge der Vegetationskunde. 3 – Aufl. Springer, Wien-New York. 865 pp.
- 6. Brzeg A., Wojterska M. 2001 – Zespoły roślinne Wielkopolski, ich stan poznania i zagrożenie [Plant communities of Wielkopoloska Region, it’s state of recognition and endangerment] (In: Szata roślinna Wielkopolski i Pojezierza Południowopomorskiego. [The vegetation cover of Wielkopolska Region and South-Pomeranian Lakeland, Ed. M. Wojterska] – Field session guide book of 52nd PTB Symposium 24–28 September 2001, pp. 39–110 (in Polish).
- 7. Chambers P.A., Klaff J. 1985 – Depth distribution and biomass of submersed aquatic macrophyte communities in relation to Secchi depth – Can. J. Fish. Aquat. Sci. 42: 701–709.
- 8. Ciecierska H. 2008 – Makrofity jako wskaźniki stanu ekologicznego jezior [Macrophytes as indicators of ecological status of lakes]. Rozprawy i monografie [Dissertations and Monographs] – Wydawnictwo Uniwersytetu Warmińsko-Mazurskiego, Olsztyn, issue 139; pp. 9–12 (in Polish, English summary).
- 9. Elbanowska H., Zerbe J., Siepak J. 1999 – Fizyczno-chemiczne badania wód [Physicochemical investigations of water] – Wydawnictwo Naukowe UAM, Poznań, 231 pp. (in Polish).
- 10. Forsberg C. 1964 – Phosphorus, a maximum factor in the growth of Characeae – Nature 201: 517–518.
- 11. Forsberg C. 1965a – Ecological and physiological studies of charophytes – Dissertation University of Uppsala & Acta Universitate Uppsalaliensis, 53: 1–10.
- 12. Forsberg C. 1965b – Nutritional studies of Chara in axenic cultures – Physiologia Plantarum. 18: 275–290.
- 13. Forsberg C. 1965c – Environmental conditions of Swedish charophytes – Symp. Bot. Upsal. 18: 3–67.
- 14. ForsbergC., Kleiven S., Willén T. 1990 - Absence of allelopathic effects of Chara on phytoplankton in situ – Aquat. Bot. 38: 289–294.
- 15. Gąbka M. 2009 – Charophytes of the Wielkopolska region (NW Poland): distribution, taxonomy and autecology – Bogucki Wydawnictwo Naukowe, Poznań, 110 pp.
- 16. Gąbka M. M. Pełechaty 2006 – Zagadnienia klasyfikacji taksonomicznej i syntaksonomii ramienic (Characeae) i ich zbiorowisk [Problems of taxonomical and sytaxonomical classification of charophytes (Characeae) and their communities] – Ekologia i Technika 14: 87–92 (in Polish, English summary).
- 17. Graham L.E., Wilcox L.W. 2000 – Algae – Prentice, Upper Seddle River, NJ 07458, pp. 452–493.
- 18. Hutchinson G.E. 1975 – A treatise of Limnology. 3: Limnological botany – John Willey and Sons, Inc., New York, Chapman and Hall, Ltd., London (UK) 695 pp.
- 19. Jeppesen E. 1998 – The ecology of shallow lakes - trophic interactions in the pelagial. Doctor’s Dissertation (DSc) – National Environmental Research Institute, Silkeborg (Denmark), NERI Technical Report No. 247; 420 pp.
- 20. Kłosowski S. 2006 – Metody identyfikacji zbiorowisk i analizy ich amplitudy ekologicznej [Methods of the identification of communities and the analysis of their ecological spectra] (In: Przewodnik do badań roślinności wodnej [A guide book for the aquatic vegetation research] Ed. J. Szmeja) – Wydawnictwo Uniwersytetu Gdańskiego, Gdańsk, pp. 367–391 (in Polish).
- 21. Krause W. 1981 – Characeen als Bioindicatoren für den Gewässerzustandt [Charophytes as the bioindicators of water quality] – Limnologica, Berlin, 13: 399–418 (in German, English summary)
- 22. Krause W. 1997 – Charales (Charophycae). Süsswasserflora von Mitteleuropa, Band 18 [Charophytes (Charophycae). Freshwater flora of Central Europe] – Gustav Fischer, Jena, 202 pp. (in German).
- 23. Kufel L., Kufel I. 2002 – Chara beds acting as nutrient sinks in shallow lakes – a review – Aquat. Bot. 72: 249–260.
- 24. Lampert W., Sommer U. 2001 – Ekologia wód śródlądowych [Ecology of inland waters] – Wydawnictwo Naukowe PWN, Warszawa, 415 pp.
- 25. McConnaughey T. 1997 – Acid secretion, calcification and photossynthetic carbon concentrating mechanisms – Can. J. Bot. 76: 1119–1126.
- 26. Menendez M., Sanchez A. 1998 – Seasonal variations in P-I responses of Chara hispida L. and Potamogeton pectinatus L. from stream Mediterranean ponds – Aquat. Bot. 61: 1–15.
- 27. Ozimek T., Kowalczewski A. 1984 – Longterm changes of the submerged macrophytes in eutrophic Lake Mikołajskie (North Poland) – Aquat. Bot. 19: 1–11.
- 28. Pełechaty M., Pukacz A., Pełechata A. 2004 – Co-occurrence of two stoneworts of reverse ecological spectra in the same lake ecosystem. Habitat requirements of Chara delicatula Agardh and Chara globularis Thuillier in the context of bioindication – Pol. J. of Environ. Stud. 13: 551–556.
- 29. Pełechaty M. 2006 – Wykorzystanie ramienic w fitopindykacji [The use of charophytes in phytoindication] – Ekologia i Technika, 14: 98–102 (in Polish, English summary).
- 30. Pełechaty M., Pukacz A. 2006 – Charophytes species and communities of different types of water ecosystems of the Ziemia Lubuska region (Western Poland) – Biodiversity: Research and Conservation, 1–2: 138–142
- 31. Pełechaty M., Pełechata A., Pukacz A. 2007 – Flora i roślinność ramieniowa na tle stanu troficznego jezior Pojezierza Lubuskiego (środkowo-zachodnia Polska) [Charophyte flora and vegetation against the background of trophy state of lakes of Lubuskie Lakeland (mid-Western Poland)] – Bogucki Wydawnictwo Naukowe, Poznań, 137 pp. (in Polish, English summary).
- 32. Pentecost A., Andrews J.E., Dennis P.F., Marca-Bell A., Dennis S. 2006 – Charophyte growth in small temperate water bodies: Extreme isotopic disequilibrium and implications for the palaeoecology of shallow marl lakes – Palaeogeograph. Palaeoclimatol. Palaeoecol. 240: 389–404.
- 33. Poikane S., Ceirans A., Elferts D. 2003 - Defining of reference of lakes of Latvia: a multiple approach (In: The lakes handbook. v. 1, Limnology and limnetic ecology, Eds: M. Ruoppa, P. Heinonen, A. Plike, S. Rekolainen, H. Toivonen, H. Vuoristo) – Blackwell Publishing, UK, pp. 309–336.
- 34. Pukacz A., Pełechaty M., Pełechata A., Siepak M. 2007 – The differential cover of submerged vegetation vs. habitat conditions in the lakes of the Lubuskie Region – Limnol. Rev. 7: 95–100.
- 35. Raven J.A., Smith F.A., Walker N.A. 1986 - Biomineralization in the Charophyceae sensu lato (In: Biomineralization in lower plants and animals, Eds: B.S.C. Leadbeater, R. Riding) – Clarendon, Oxford, pp. 550–557.
- 36. Scheffer M., Hosper S.H., Meijer M.L., Moss B., Jeppesen E. 1993 – Alternative equilibria in shallow lakes – Trends Ecol. Evol. 8: 275–279.
- 37. Scheffer M., Jeppesen E. 1998 – Alternative stable states (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppsen, M. Søndergaard, K. Christoffersen) – Ecological Studies 131, Springer Verlag, 421 pp.
- 38. Schwarz A.-M., Hawes I. 1997 – Effects of changing water clarity on characean biomass and species composition in a large oligotrophic lake – Aquat. Bot. 56: 169–181.
- 39. Schwarz A.-M., Hawes I., Howard-Williams C. 1999 - Mechanisms underlying the decline and recovery of a characean community in fluctuating light in a large oligotrophic lake – Aust. J. Bot. 47: 325–336.
- 40. Simons J., Nat E. 1996 – Past and Present distribution of stoneworts (Characeae) in the Netherlands – Hydrobiologia, 340: 127–135.
- 41. Simons., Ohm M., Daaler R., Boers P., Rip W. 1994 – Restoration of Batshol (The Netherlands) by reduction of external nutrient load: recovery of a chracean community, dominated by Chara connivens – Hydrobiologia, 275/276: 243–253.
- 42. Søndergaard M., Moss B. 1998 – Impact of submerged macrophytes on phytoplankton inshallow freshwater lakes (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppesen, M. Søndergaard, K. Christoffersen) – Springer, New York, pp. 115–133.
- 43. Van den Berg M.S., Scheffer M., Coops H., Simons J. 1998a – The role of characean algae in the management of eutrophic shallow lakes – J. Phycol. 34: 750–756.
- 44. Van Der Berg M.S., Coops H., Meijer M.-L., Scheffer M., Simons J. 1998b – Clear water associated with a dense Chara vegetation in the shallow and turbid Lake Veluwemeer, The Netherlands (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppesen, M. Søndergaard, K. Christoffersen) – Springer, New York, pp. 339–352.
- 45. Van den Berg M.S., Scheffer M., Van Nes E., Coops H. 1999 – Dynamics and stability of Chara sp. and Potamogeton pectinatus – Hydrobiologia, 408/409: 335–342.
- 46. Van den Berg M.S., Coops H., Simons J., Pilon J. 2002 – A comparative study of the use of inorganic carbon resources by Chara aspera and Potamogeton pectinatus – Aquat. Bot. 72: 219–233.
- 47. van Donk E., van de Bund W.J. 2002 – Impact of submerged macrophytes including charophytes on phyto- and zooplankton communities: allelopathy versus other mechanisms – Aquat. Bot. 72: 261–274.
- 48. Van de Weyer K. 2004 – Die Bewertung von Fließ- und Stillgewässern mit Makrophyten gemäß EU-WRRL und FFH-Richtlinie in Nordrhein-Westfalen. Deutsche Gesellschaft für Limnologie (DGL) – Tagungsbericht 2003 [The evaluation of running and still waters with the use of macrophytes according to EU-WRRL and FFH directives in NordrheinWestfalen region] – Weissensee-Verlag (Köln), pp. 92–95 (in German).
- 49. Wetzel R.G. 2001 – Limnology, Lake and River Ecosystems, 3rd edition – Academic Press, San Diego, 1006 pp.
- 50. Wetzel R.G., Likens G.E. 2001 – Limnological Analyses. Second edition – Springer-Verlag, New York, 391 pp.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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