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Succession of Periphyton and Phytoplankton Assemblages in Years with Varying Amounts of Precipitation in a Shallow Urban Lake (Lake Jeziorak Mały, Poland) Cover

Succession of Periphyton and Phytoplankton Assemblages in Years with Varying Amounts of Precipitation in a Shallow Urban Lake (Lake Jeziorak Mały, Poland)

Ekológia (Bratislava)
Volume 33 (2014): Issue 3 (September 2014)
By: Elžbieta Zębek  
Open Access
|Aug 2014

References

  1. Asaduzzaman, M., Rahman, M.M., Azim, M.E, Islam, M.A., Wahab, M.A., Verdegem, M.C.J. & Verreth J.A.J. (2010). Effects of C/N ratio and substrate addition on natural food communities in freshwater prawn monoculture ponds. Aquaculture, 306, 127-136. DOI: 10.1016/j.aquaculture.2010.05.035.10.1016/j.aquaculture.2010.05.035
    Search in Google Scholar
  2. Azim, M.A., Verdegem, M.C.J., van Dam, A.A. & Beveridge C.M. (2005). Periphyton: ecology, exploitation and management. Oxfordshire: CABI Publishing.
    Search in Google Scholar
  3. Battarbee, R.W. (1979). Diatoms in lake sediments. In B.E. Berglund (Ed.), International Geological Correlation Programme Project 158, Paleohydrological Changes in the Temperate Zone in the Last 15,000 Years (pp. 177-225). Subproject B, Lake and Mire Environments. Lund: Department of Quaternary Geology.
    Search in Google Scholar
  4. Bohr, R. & Miotk G. (1979). The primary production of periphytic algae in the south part of the Jeziorak Lake. Acta Uni-versitatis Nicolai Copernici, 47(11), 13-17.
    Search in Google Scholar
  5. Burchard, L. (1993). Bioindication in the assessment of lake ecosystem. In L. Burchard (Ed.), Interdisciplinary investigations of freshwater ecosystems. Idee Ekologiczne, 3(2), 39-44.
    Search in Google Scholar
  6. Danilov, R.A. & Ekuland N.G.A. (2001). Comparison of usefulness of three types of artificial substrata (glass, wood and plastic) when studying settlement pattern of periphyton in lakes of different trophic status. /. Microbiol. Methods, 45, 167-170. DOI: 10.1016/S0167-7012(01)00247-0.10.1016/S0167-7012(01)00247-0
    Search in Google Scholar
  7. France, R. (1995). Differentiation between littoral and pelagic food webs in lake using stable carbon isotopes. Limnol. Oceanogr, 40(7), 1310-1313.10.4319/lo.1995.40.7.1310
    Search in Google Scholar
  8. Giziňski, A. (1978). Significance of benthal fauna as indicator of eutrophication degree in lakes. Verhandlungen des Internationalen Verein Limnologie, 20, 997-999.10.1080/03680770.1977.11896635
    Search in Google Scholar
  9. Grzesiak, M. & Domaňska W (1998-2004, 2006). Protection of environment. Statistical information and study. Warsaw: Statistical Publishing Establishment.
    Search in Google Scholar
  10. Hansson, L.A. (1990). Quantifying the impact of periphytic algae on nutrient availability for phytoplankton. Freshw. Biol., 24, 265-273. DOI: 10.1111/j.1365-2427.1990.tb00707.x.10.1111/j.1365-2427.1990.tb00707.x
    Search in Google Scholar
  11. Irigoien, X., Harris, R.P., Head, R.N. & Harbour D. (2000). North Atlantic Oscillation and spring bloom phytoplankton composition in the English Channel. /. Plankton Res., 22, 2367-2371. DOI: 10.1093/plankt/22.12.2367.10.1093/plankt/22.12.2367
    Search in Google Scholar
  12. Jankowski, A. (1966). Studies on thermal-oxygen conditions in the Lake Jeziorak. Acta Universitatis Nicolai Copernici, 16(2), 17-31.
    Search in Google Scholar
  13. Jöbgen, A.M., Palm, A. & Melkonian M. (2004). Phosphorus removal from eutrophic lakes using periphyton on submerged artificial substrata. Hydrobiologia, 528, 123-142. DOI: 10.1007/s10750-004-2337-5.10.1007/s10750-004-2337-5
    Search in Google Scholar
  14. Kangro, K., Laugaste, R., Noges, P. & Ott I. (2005). Long-term changes and seasonal development of phytoplankton in a strongly stratified, hypertrophic lake. Hydrobiologia, 547, 91-103. DOI: 10.1007/s10750-005-4151-0.10.1007/s10750-005-4151-0
    Search in Google Scholar
  15. Kuczyňska-Kippen, N., Messyasz, B. & Nagengast B. (2004). The structure of the periphytic communities of the Wielkow-iejskie Lake. Roczniki Akademii Rolniczej w Poznaniu, 358(7), 175-191.
    Search in Google Scholar
  16. Lampert, W. & Sommer U. (1996). Ecology of inland waters. Warsaw: PWN Press.
    Search in Google Scholar
  17. Meffert, M.E. (1989). Planktic unsheathed filaments (Cyanophyceae) with polar and central gas vacuoles. II. Biology, population dynamics and biotopes of Limnothrix redekei (Van Goor) Meffert. Arch. Hydrobiol., 116(3), 257-282.
    Search in Google Scholar
  18. Mischke, U. & Nixdorf B. (2003). Equilibrium phase conditions in shallow German lakes: How Cyanoprokaryota species establish a steady state phase in late summer. Hydrobiológia, 502, 123-132. DOI: 10.1023/B:HYDR.0000004275.81490.92.10.1023/B:HYDR.0000004275.81490.92
    Search in Google Scholar
  19. Müller, U. (2000). Periphytic primary production during spring. A sink of source of oxygen in the littoral zone? Limnologica, 30, 169-174. DOI: 10.1016/S0075-9511(00)80012-2.10.1016/S0075-9511(00)80012-2
    Search in Google Scholar
  20. Nixdorf, B. (1994). Polymixis of a shallow lake (Grober Müggelsee, Berlin) and its influence on seasonal phytoplankton dynamics. Hydrobiologia, 275-276, 173-186. DOI: 10.1007/BF00026709.10.1007/BF00026709
    Search in Google Scholar
  21. Nixdorf, B., Mischke, U. & Rücker J. (2003). Phytoplankton assemblages and steady state in deep and shallow eutroph-ic lake - an approach to differentiate the habitat properties of Oscillatoriales. Hydrobiologia, 502, 111-121. DOI: 10.1023/B:HYDR.0000004274.65831.e5.10.1023/B:HYDR.0000004274.65831.e5
    Search in Google Scholar
  22. Nōges, P. & Laugaste R. (1998). Seasonal and long-term changes in phytoplankton of Lake Vörtsjärv. Limnologica, 28(1), 21-28.
    Search in Google Scholar
  23. Nōges, P., Mischke, U., Laugaste, R. & Solimini A.G. (2010). Analysis of changes over 44 years in the phytoplankton of Lake Vörtsjärv (Estonia): the effect of nutrients, climate and the investigator on phytoplankton-based water quality indices. Hydrobiologia, 646, 33-48. DOI: 10.1007/s10750-010-0178-y.10.1007/s10750-010-0178-y
    Search in Google Scholar
  24. Nōges, T., Nōges, P. & Laugaste R. (2003). Water level as the mediator between climate change and phytoplankton composition in a large shallow temperate lake. Hydrobiologia, 506-509: 257-263. DOI: 10.1023/B:HYDR.0000008540.06592.48.10.1023/B:HYDR.0000008540.06592.48
    Search in Google Scholar
  25. Odum, E.P. (1969). The strategy of ecosystem development. Science, 164, 262-270. DOI: 10.1126/science.164.3877.262.10.1126/science.164.3877.2625776636
    Search in Google Scholar
  26. Reynolds, C.S. (1988). The concept of ecological succession applied to seasonal periodicity of freshwater phytoplankton. Verhandlungen des Internationalen Verein Limnologie, 23, 683-691.10.1080/03680770.1987.11899692
    Search in Google Scholar
  27. Reynolds, C.S. (1990). Temporal scales of variability in pelagic environmental and the response of phytoplankton. Freshw. Biol, 23, 25-53. DOI: 10.1111/j.1365-2427.1990.tb00252.x.10.1111/j.1365-2427.1990.tb00252.x
    Search in Google Scholar
  28. Reynolds, C.S. (1993). Scales of disturbance and their role in plankton ecology. Hydrobiologia, 249, 157-171. DOI: 10.1007/BF00008851.10.1007/BF00008851
    Search in Google Scholar
  29. Rodusky, A.J., Steinman, A.D., East, T.L., Sharfstein, B. & Meeker R.H. (2001). Phytoplankton nutrient limitation and other potential growth - controlling factors in Lake Okeechobee, U.S.A. Hydrobiologia, 448, 27-39. DOI: 10.1023/A:1017529432448.10.1023/A:1017529432448
    Search in Google Scholar
  30. Romo, S. & Miracle R. (1994). Long-term phytoplankton changes in a shallow hypertrophic lake, Albufera of Valencia (Spain). Hydrobiologia, 275-276, 153-164. DOI: 10.1007/BF00026707.10.1007/BF00026707
    Search in Google Scholar
  31. Rott, E. (1981). Some results from phytoplankton counting intercalibrations. Schweizerische Zeitschrift für Hydrologie, 43, 34-62. DOI: 10.1007/BF02502471.10.1007/BF02502471
    Search in Google Scholar
  32. Shannon, C.E. & Weaver W. (1949). The mathematical theory of communication. Urbana. Sommer, U., Gliwicz, Z.M., Lampert, W. & Duncan A. (1986). The PEG -model of seasonal succession of planktonic events in fresh waters. Arch. Hydrobiol., 106(4), 433-471.
    Search in Google Scholar
  33. Sommer, U., Padisak, J., Reynolds, C.S. & Juhasz-Nagy P. (1993). Hutchinson’s heritage: the diversity - disturbance relationship in phytoplankton. Hydrobiologia, 249, 1-7. DOI: 10.1007/BF00008837.10.1007/BF00008837
    Search in Google Scholar
  34. Szlauer, L. (1996). Determination method of the volume of periphyton components. Pol. Arch. Hydrobiol., 43(1), 3-8.
    Search in Google Scholar
  35. Thebault, E. & Loreau M. (2006). The relationship between biodiversity and ecosystem functioning in food webs. Ecol. Res., 21, 17-25. DOI: 10.1007/s11284-005-0127-9.10.1007/s11284-005-0127-9
    Search in Google Scholar
  36. Vogel, A., Beier, T., Braun, J. & Raeder U. (2005). Does the process of drying submerged macrophytes affect community structure and composition of epiphytic diatoms? Hydrobiologia, 541, 237-240. DOI: 10.1007/s10750-004-4669-6.10.1007/s10750-004-4669-6
    Search in Google Scholar
  37. Wantzen, K.M., Rothaupt, K-O., Mörtl, M., Cantonati, M., G.-Toth, L. & Fischer P. (2008). Ecological effects ofwater-level fluctuations in lakes: an urgent issue. Hydrobiologia, 613, 1-4. DOI: 10.1007/s10750-008-9466-1.10.1007/s10750-008-9466-1
    Search in Google Scholar
  38. Zębek, E. (2002). Influence the restorative works on phytoplankton in the urban Lake Jeziorak Maly. Doctor dissertation.
    Search in Google Scholar
  39. Zębek, E. (2009). Seasonal changes in net phytoplankton in two lakes with differing morphometry and trophic status (northeast Poland). Archives of Polish Fisheries, 17, 267-278. DOI: 10.2478/v10086-009-0019-7.10.2478/v10086-009-0019-7
    Search in Google Scholar
  40. Zębek, E., Bonar, A. & Szymaňska U. (2012). Periphytic diatom communities in the littoral zone of the urban lake Jeziorak Maly (Masurian Lake District, Poland). Ekológia (Bratislava), 31(1), 105-123. DOI: 10.4149/ekol_2012_01_105.10.4149/ekol_2012_01_105
    Search in Google Scholar
  41. Zębek, E. (2013). Differentiation of periphyton and phytoplankton assemblages in anthropogenically transformed conditions of littoral zone in a shallow urban lake (Lake Jeziorak Maly, Poland). Applied Ecology and Environmental Research, 11(3), 323-342.10.15666/aeer/1103_323342
    Search in Google Scholar
  42. Zębek, E. (2014). Response of cyanobacteria (phytoplankton) and periphyton to stormwater in shallow urban lake (in print).
    Search in Google Scholar
DOI: https://doi.org/10.2478/eko-2014-0025 | Journal eISSN: 1337-947X | Journal ISSN: 1335-342X
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Language: English
Page range: 259 - 273
Published on: Aug 21, 2014
Published by: Institute of Landscape Ecology
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
Keywords:
lake,
littoral zone,
periphyton,
phytoplankton,
succession,
precipitations,
environmental conditions
Related subjects:
Life sciences,
Ecology,
Life sciences, other,
Chemistry,
Environmental chemistry,
Geosciences,
Geography

© 2014 Elžbieta Zębek, published by Institute of Landscape Ecology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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