Vertical distribution of phytoplankton in two mesotrophic lakes

Michał Solis, Władysława Wojciechowska, Tomasz Lenard

Abstract


In lakes Rogóźno and Zagłębocze located in the Łęczna-Włodawa Plain (E Poland), monthly and daily changes in the vertical distribution of phytoplankton biomass were investigated. In both lakes, phytoplankton biomass in metalimnion were two or three times higher than in epilimnion. In Rogóźno Lake, Planktothrix rubescens dominated in phytoplankton (> 80% of biomass), whereas in Zagłębocze Lake − Ceratium hirundinella prevailed (> 90% of biomass). The biomass maxima of Pl. rubescens (at 6 m depth – 43.5 mg dm-3 and at 7 m depth - 24.4 mg dm-3) were always below the lower limit of the euphotic zone, i.e. at the depth where the light was < 1%, and the water temperature was < 10 °C. Large biomass of C. hirundinella was observed always in metalimnion (up to 43.6 mg dm-3 in July) at the lower limit of the euphotic zone (transparency of Sd = 3.0 m). In August, when transparency of Sd = 2.5 m, biomass of C. hirundinella varied significantly during the day in the two thermal layers. In epilimnion, the largest increase of biomass was observed in daylight hours and the decrease at night. The reverse situation was observed in metalimnion − the decline in the daytime and the increase at night. The studies revealed that despite different mechanisms of motility (buoyancy or flagellar movement), vertical migrations of these species corresponded mainly to the changing light.

Keywords


deep lake; vertical distribution; Ceratium hirundinella; Planktothrix rubescens

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References


Alexander R., Imberger J. 2009. Spatial distribution of motile phytoplankton in a stratified reservoir: the physical controls on patch formation. J. Plan. Res. 31 (1): 101–118.

Barbosa L. G., Barbosa P. M. M., Barbosa F. A. R. 2011. Vertical distribution of phytoplankton functional groups in a tropical shallow lake: driving forces on a diel scale. Acta Limnol. Brasil. 23 (1): 63–73.

Beamud S. G., Diaz M. M., Baccala N. B., Pedrozo F. L. 2010. Analysis of patterns of vertical and temporal distribution of phytoplankton using multifactorial analysis: Acidic Lake Caviahue, Patagonia, Argentina. Limnologica 40: 140–147.

Becker V., de Souza Caedoso L., Huszar V. L. M. 2009. Diel variation of phytoplankton functional groups in a subtropical reservoir in southern Brazil during an autumnal stratification period. Aquat. Ecol. 43: 285–293.

Dubinsky Z., Stambler N. 2009. Photoacclimation processes in phytoplankton: mechanisms, consequences and applications. Aquat. Microb. Ecol. 56: 163–176.

Ernst B., Hoeger S. J., O’Brien E., Dietriech D. R. 2009. Abundance and toxicity of Planktothrix rubescens in the pre-alpine Lake Ammersee, Germany. Harmful Algae: 8: 329–342.

Gervais F., Siedel U., Heilmann B., Weithoff G., Heisig-Gunkel G., Nicklisch A. 2003. Small-scale vertical distribution of phytoplankton, nutrients and sulphide below the oxycline of a mesotrophic lake. Journ. of Plan. Res. 25 (3): 273–278.

Grabowska M., Górniak A., Krawczuk M. 2013. Summer phytoplankton in selected lakes of the East Suwałki Lakeland in relation to the chemical water parameters. Limnol. Rev. 13 (1): 21–29.

Hart R.C., Wragg P. D. 2009. Recent blooms of the dinoflagellate Ceratium in Albert Falls Dam (KZN): History, causes, spatial futures and impacts on a reservoir ecosystem and its zooplankton. Water SA (online) 35 (4): 455–468.

Hillebrand H., Dürschen C. D., Kirschtel D., Pollinger U., Zohary T. 1999. Biovolume calculation for pelagic and benthic microalgae. J. Phycol. 35: 403–424.

Jacquet S., Briand J. F., Leboulanger C., Avois-Jacquet C., Oberhaus L., Tassin B., Vincon-Leite B., Paolini G., Druart J. C., Anneville O., Humbert J.F. 2005. The proliferation of the toxic cyanobacterium Planktothrix rubescens following restoration of the largest natural French lake (Lac du Bourget). Harmful Algae 4: 651–672.

Johansson K. S. L., Trigal C., Vrede T., Johnson R. K. 2013. Community structure in boreal lakes with recurring blooms of the nuisance flagellate Gonyostomum semen. Aquat, Sci. 75: 447–455.

Konopka A. 1989. Metalimnetic cyanobacteria in hard-water lakes: Buoyancy regulation and physiological state. Limnol. Oceanogr. 34 (7): 1174–1184.

Krupa D., Czernaś K. 2003. Mass appearance of Cyanoprokaryota Planktothrix rubescens as degradation symptom of Lake Piaseczno, Eastern Poland. Wat. Qual. Res. J. Can. 8 (1): 141–152.

Lopez N. L., Rondon C. A. R., Zapata A., Jimenez J., Vilamil W., Arenas G., Rincon C., Sanchez T. 2012. Factors controlling phytoplankton in tropical high-mountain drinking-water reservoirs. Limnetica 31(2): 305–322.

Medrano E. A., Uittenbogaard R. E., Dionisio Pires L. M., van de Wiel B. J. H., Clercx H. J. H. 2013. Coupling hydrodynamics and buoyancy regulation in Microcystis aerugonosa for its vertical distribution in lakes. Ecol. Mod. 248: 41–56.

Mellard J. P., Yoshiyama K., Litchman E., Klausmeier Ch. A. 2011. The vertical distribution of phytoplankton in stratified water columns. J. Theor. Biol. 269: 16–30.

Messyasz B., Lücke A., Schleser G. H. 2003. Dominance of cyanobacteria Planktothrix rubescens in Lake Holzmar, Germany – an indication of the trophic status? Acta Bot. Warmiae and Masuriae 3: 21–31.

Messyasz B., Czerwik-Marcinkowska J., Lücke A. Uher B. 2012. Differences in the ultrastructure of two selected taxa of phytoplankton in thermally stratified Lake Holzmaar (Germany). Biodiv. Res. Conserv. 28: 55–62.

Messineo V., Mattei D., Melchiorre S., Salvatore G., Bogialli S., Salzano R., Mazza R., Capelli G., Bruno M. 2006. Microcystin diversity in a Planktothrix rubescens population from Lake Albano (Central Italy). Toxicon 48: 160–174.

Nush E.A. 1980. Comparison of different methods for chlorophyll and pheopigment determination. Arch. Hydrobiol. Beih. Ergebn. Limnol. 14: 14–36.

Oberhaus L., Briand J. F., Leboulanger C., Jacquet S., Humbert J. F. 2007. Comparative effects of the quality and quantity of light and temperature on the growth of Planktothrix agardhii and P. rubescens. J. Phycol. 43: 1191–1199.

Padisak J., Barbosa F., Koschel R., Krienitz L. 2003. Deep layer cyanoprokaryota maxima in temperate and tropical lakes. Arch. Hydrobiol. Spec. Issues Advanc. Limnol. 58: 175–199.

Padisak J., Crossetti L. O., Naselli-Flores L. 2009. Use and misuse in the application of the phytoplankton functional classification: a critical review with uptades. Hydrobiologia 621: 1–19.

Salmaso N. 2010. Long-term phytoplankton community changes in a deep subalpine lake: responses to nutrient availability and climatic fluctuations. Fresh. Biol. 55: 825–846.

Serizawa H., Amemiya T., Kiminori I. 2010. Effects of buoyancy, transparency and zooplankton feeding on surface maxima and deep maxima: Comprehensive mathematical model for vertical distribution in cyanobacterial biomass. Ecol. Model. 221: 2028–2037.

Solari C., Michod R. E., Goldstein R. 2008. Volvox barberi, the fastest swimmer of the Volvocales (Chlorophyceae). J. Phycol. 44: 1395–1398.

Trigal C., Hallstan S., Johansson K.S.L., Johnson R. K. 2013. Factors affecting occurrence and bloom formation of the nuisance flagellate Gonyostomum semen in boreal lakes. Harmful Algae 27: 60–67.

Tooming-Klunderuda A., Soggea H., Ballestad-Roungea T., Nederbragta A. J., Lagesena K., Glöcknerd G., Hayesf P. K., Rohrlackg T., Jakobsena K. S. 2013. From green to red: Horizontal gene transfer of the Phycoerythrin gene cluster between Planktothrix strains. Appl. Environ. Microbiol. 79 (21): 6803–6812.

Yaoyang Xu, Qinghua Cai, Lan Wang, Linghui Kong, Daofeng Li 2010. Diel vertical migration of Peridiniopsis niei, Liu et al., a new species of dinoflagellates in an eutrophic bay of Three-Gorge Reservoir, China. Aquat. Ecol. 44(2): 387–395.

Vollenweider R. A. 1969. A Manual on Methods for Measuring Primary Production in Aquatic Environments. Blackwell, Oxford–Edinburgh.

Walsby A. E., Dubinsky Z., Kromkamp J. C., Lehmann C., Schanz F. 2001. The effects of diel changes in photosynthetic coefficients and depth of Planktothrix rubescens on the daily integral of photosynthesis in Lake Zürich. Aquat. Sci. 63: 326–349.

Whitington J. B., Sherman B., Green D., Oliver R.L. 2000. Growth of Ceratium hirundinella in a subtropical Australian reservoir: The role of vertical migration. J. Pl. Res. 22: 1025–1045.




DOI: http://dx.doi.org/10.2478/v10067-012-0035-7
Date of publication: 2015-07-18 01:57:34
Date of submission: 2015-07-18 01:55:37


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Copyright (c) 2015 Michał Solis, Władysława Wojciechowska, Tomasz Lenard

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