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The influence of a flood event on phytoplankton succession

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Abstract

The effect of the August 1987 River Reuss flood event on the phytoplankton biocoenosis in Lake Uri (Urnersee, part of Lake Lucerne, Switzerland) was investigated firstly by comparing biological, chemical and physical data sampled before the event with equivalent data sampled after the event; and secondly by comparing the phytoplankton succession in 1987 with that occurring in the “floodfree” year 1989. As a consequence of the flood, the physical and chemical environment of the phytoplankton was found to have undergone a change which resulted in an alteration in the composition of the phytoplankton community. The phytoplankton community existing previous to the flood event, which had been dominated byTabellaria fenestrata sensu Husted 1930 (K-strategist), was replaced by a biocoenosis characterized mainly by various species of flagellates, which represent a typical spring successional stage (r-strategists). After the externally-imposed perturbation, the return to stable physical and chemical conditions was followed by the re-establishment of the successional stage which had existed before the flood (termed “reversion” by Reynolds, 1980).

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References

  • Ambühl, H., 1986. Ist der Vierwaldstättersee bereits “über dem Berg”? Vaterland 4:3.

    Google Scholar 

  • Aschwanden, H., B. Schädler, 1988. Hochwasserereignisse im Jahre 1987 in der Schweiz. Mitt. Schweiz. Landeshydrologie und -geologie 10:1–140.

    Google Scholar 

  • Bloesch, J., 1974. Sedimentation und Phosphorhaushalt im Vierwaldstättersee (Horwer Bucht) und im Rotsee. Schweiz. Z. Hydrol. 36:71–186.

    Google Scholar 

  • Bossard, P., H. Ambühl, 1984. Chemismus und Lebewesen im See. In: Stadelmann, P. (ed). Keller & Co. AG, Luzern: Der Vierwaldstättersee und die Seen der Zentralschweiz, pp. 79–100.

    Google Scholar 

  • Bürgi, H. R., 1979. Die langjährige Entwicklung des Phytoplanktons im Bodensee (1965–1975), Teil 2 Obersee. Ber. Int. Gewässerschutzkomm. Bodensee 23:1–86.

    Google Scholar 

  • Desortovà, B., 1981. Relationship between chlorophyll-a concentration and phytoplankton biomass in several reservoirs in Czechoslovakia. Int. Rev. Gesamten Hydrobiol. 66:153–169.

    Google Scholar 

  • Dorioz, J. M., A. Fehri, E. Pilleboue, A. Orand, P. Blanc, 1988. Phosphorus (mass balance) in a rural watershed of Lake Leman. Impact of sediments on point-pollution transfers in a river system. In: Balvay, G. (ed.) INRA, Thonon les Bains: Eutrophication and lake restoration. Water quality and biological impacts, pp. 35–56.

    Google Scholar 

  • Druart, J. C., F. Straub, 1988. Description de deux nouvelles Cyclotelles (Bacillariophyceae) de millieux alcalins et eutrophes:Cyclotella costei nov. sp. etCyclotella wuethrichiana nov. sp. Schweiz. Z. Hydrol. 50:182–187.

    Google Scholar 

  • Eidg. Dep. des Innern, 1982. Richtlinien für die Untersuchung von Abwasser und Oberflächenwasser. 2. Teil: Oberflächenwasser. EDMZ, Bern.

    Google Scholar 

  • Elber, F., F. Schanz, 1989. The causes of change in the diversity and stability of phytoplankton communities in small lakes. Freshwater Biol. 21:237–251.

    Google Scholar 

  • Elber, F., K. Marti, K. Niederberger, 1990. Pflanzenökologische und limnologische Untersuchung des Reussdeltagebietes (Kanton Uri). Veröff. Geobot. Inst. ETH, Stiftung Rübel, Zürich, in press.

    Google Scholar 

  • Furrer, O. J., R. Gächter, 1972. Der Beitrag der Landwirtschaft zur Eutrophierung der Gewässer in der Schweiz. 2. Einfluss von Düngung und Nutzung des Bodens auf die Stickstoff- und Phosphormengen im Wasser. Schweiz. Z. Hydrol. 34:71–93.

    Google Scholar 

  • Gächter, R., 1972. Phosphorhaushalt und planktische Primärproduktion im Vierwaldstättersee (Horwer Bucht). Schweiz. Z. Hydrol. 34:41–70.

    Google Scholar 

  • Gächter, R., A. Mares, E. Grieder, A. Zwyssig, P. Höhener, 1990. Auswirkungen der Belüftung und Sauerstoffbegasung auf den P-Haushalt des Sempachersees. Wasser, Energie, Luft — eau, énergie, air 81:335–341.

    Google Scholar 

  • Gigon, A., 1983. Typology and principles of ecological stability and instability. Mountain Research and Development 3:95–102.

    Google Scholar 

  • Hamm, A., V. Kucklentz, 1981. Effects of hydraulic load changes on the eutrophication of an alpine lake. Verh. Internat. Verein. Limnol. 21:466–472.

    Google Scholar 

  • Husted, F. 1930. Bacillariophyta (Diatomeae). In: Pascher A. (ed.), Verlag Gustav Fischer, Jena: Die Süsswasser-Flora Mitteleuropas. Heft 10, 466 pp.

    Google Scholar 

  • Hutchinson, E. G., 1957. A treatise on limnology. 1. Geography, physics and chemistry. J. Wiley & sons Inc., New York, 1015 pp.

    Google Scholar 

  • Kiefer, B., 1987. Untersuchungen zum Einfluss des Wasserregimes eines voralpinen Pumpspeicher-Sees (Wägitaler See) auf die Nährstoffversorgung der Phytoplanktonpopulation. Diss. Universität Zürich, 216 pp

  • Lambert, A., 1987. Sanduhren der Erdgeschichte, Gebirgsabtrag und Seeverlandung in Schweizer Seen. Geowissenschaften in unserer Zeit 1:10–18.

    Google Scholar 

  • Liechti, P., P. Bossard, 1985. Der aktuelle Zustand des Vierwaldstättersees. BUS-Bull. 1:7–13.

    Google Scholar 

  • Lund, J. W. G., 1969. Phytoplankton. In: National Academy of Sciences (ed.) Printing and publishing office, National Academy of Sciences, Washington: Eutrophication: causes, sonsequences, correctives, pp. 306–330.

    Google Scholar 

  • Margalef, R., 1958. Temporal succession and spatial heterogenity in phytoplankton. In: Buzzati-Treverso (ed.) Univ. Calif. Press: Perspectives of marine biology, pp. 323–349.

  • Margalef, R., 1978. Life-forms of phytoplankton as survival alternatives in an unstable environment. Oceanol. Acta 1:493–509.

    Google Scholar 

  • Neuenschwander, G., 1984. Geographische Beschreibung der Seenlandschaft. In: Stadelmann, P. (ed.), Keller & Co. AG, Luzern: Der Vierwaldstättersee und die Seen der Zentralschweiz, pp. 9–24.

    Google Scholar 

  • Ohle, W., 1980. Mineral impact of lakes as background for their biogenic dynamics. Hydrobiologia 72:51–59.

    Google Scholar 

  • Osmann-Sigg, G., W. Stumm, 1982. Partikelverteilung und natürliche Koagulation im Zürichsee. Schweiz. Z. Hydrol. 44:405–422.

    Google Scholar 

  • Petrascheck, A., 1989. Die Hochwasser 1868 und 1987, ein Vergleich. Wasser, Energie, Luft — eau, énergie, air 81:1–8.

    Google Scholar 

  • Reynolds, C. S., 1980. Phytoplankton assemblages and their periodicity in stratifying lake systems. Hol. Ecol. 3:141–159.

    Google Scholar 

  • Reynolds, C. S., 1984. The ecology of freshwater phytoplankton. University Press, Cambridge, 384 pp.

    Google Scholar 

  • Sachs, L., 1984. Angewandte Statistik, 6. Aufl. Springer-Verlag, Berlin, 552 pp.

    Google Scholar 

  • Sampl, H., 1986. Einfluß von Nährstoffabschwemmung und Bodenerosion auf die Gewässereutrophierung. Bundesministerium für Land- und Fortwirtschaft, Wien, 213 pp.

    Google Scholar 

  • Schanz, F., 1982. A fluorimetric method of determining chlorophylla and phaeophytina concentrations. Arch. Hydrobiol. Beih. Ergebn. Limnol. 16:91–100.

    Google Scholar 

  • Schellenberger, G., R. Stellmacher, S. Hoeg, E. Rhode, 1985. Zusammenhang zwischen Biomassen von einzelnen Algengruppen, Chlorophyllkonzentrationen und Fluoreszenzwerten im Müggelsee. Acta Hydrophys., Berlin 19:211–220.

    Google Scholar 

  • Sommer, U., 1981. The role ofr- andK-selection in the succession of phytoplankton in Lake Constance. Oecol. Gener. 2:327–342.

    Google Scholar 

  • Sommer, U., 1985. Phytoplankton natural community competition experiments: A reinterpretation. Limnol. Oceanogr. 30:436–440.

    Google Scholar 

  • Sommer, U., Z. M. Gliwcz, W. Lampert, A. Duncan, 1986. The PEG-model of seasonal succession of planktonic events in fresh waters. Arch. Hydrobiol. 106:433–471.

    Google Scholar 

  • Stander, J. M., 1970. Diversity and similarity of benthic fauna of Oregon. M. S. thesis, Oregon State University Corvallis. 72 pp.

  • Thomas, E. A., 1953. Empirische und experimentelle Untersuchungen zur Kenntnis der Minimumstoffe in 46 Seen der Schweiz und angrenzender Gebiete. Monatsbull. Schweiz. Ver. Gas-Wasserfachm. 2/3:1–15.

    Google Scholar 

  • Thomas, E. A., 1968. Die Phosphoreutrophierung des Zürichsees und anderer Schweizer Seen. Mitt. Internat. Verein. Limnol. 14:231–242.

    Google Scholar 

  • Thomas, E. A., 1973. Phosphorus and eutrophication. In: Griffith, E. J., A. Beeton, J. M. Spencer, D. T. Mitchell (eds.), John Wiley & sons, New York: Environmental phosphorus handbook, pp. 585–611.

    Google Scholar 

  • Tilzer, M. M., C. R. Goldman, R. C. Richards, R. C. Wrigley, 1976. Influence of sediment inflow on phytoplankton primary productivity in lake Tahoe (California-Nevada). Int. Rev. Gesamten Hydrobiol. 61 (2):169–181.

    Google Scholar 

  • Utermöhl, H., 1958. Zur Vervollkommnung der quantitativen Phytoplankton-Methodik. Mitt. Internat. Verein. Limnol. 9:1–37.

    Google Scholar 

  • Viner, A. B., 1988. Phosphorus on suspensoids from the Tongariro river (North Island, New Zealand) and its potential availability for algal growth. Arch. Hydrobiol. 111:481–489.

    Google Scholar 

  • Weilenmann, U., 1986. The role of coagulation for the removal of particles by sedimentation in lakes. Diss. ETH Nr 8018, 163 pp.

    Google Scholar 

  • Wetzel, R. G., 1983. Limnology. W. B. Saunders Comp., Philadelphia, 767 pp.

    Google Scholar 

  • Wiechmann, H., 1973. Beeinflussung der Gewässereutrophierung durch erodiertes Bodenmaterial. Landwirtsch. Forsch. 26(1):37–46.

    Google Scholar 

  • Wüest, A., 1987. Ursprung und Grösse von Mischungsprozessen im Hypolimnion natürlicher Seen. Dissertation Nr. 8350, ETH Zürich.

  • Wüest, A., D. M. Imboden, M. Schurter, 1988. Origin and size of hypolimnic mixing in Urnersee, the southern basin of Vierwaldstättersee (Lake Lucerne). Schweiz. Z. Hydrol. 50:40–70.

    Google Scholar 

  • Young, T. C., J. V. DePinto, 1982. Algal-availability of particulate phosphorus from diffuse and point sources in the lower Great lake basin. Hydrobiologia 91:111–119.

    Google Scholar 

  • Zeller, J., G. Röthlisberger, 1988. Unwetterschäden in der Schweiz im Jahre 1987. Wasser, Energie, Luft — eau, énergie, air 80:29–42.

    Google Scholar 

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Authors and Affiliations

  1. Limnologische Station, Universität Zürich, Seestrasse 187, CH-8802, Kilchberg, Switzerland

    Fredy Elber & Ferdinand Schanz

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  1. Fredy Elber
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  2. Ferdinand Schanz
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Elber, F., Schanz, F. The influence of a flood event on phytoplankton succession. Aquatic Science 52, 330–344 (1990). https://doi.org/10.1007/BF00879761

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