Abstract
Shallow lakes of temperate areas experience seasonal and inter-annual variability in weather conditions, impacting on their biological communities. Here, we studied the temporal fluctuation of the zooplankton community in a highly eutrophic shallow lake, Laguna Chascomús. Rotifers and the cyclopoid copepod Acanthocyclops robustus dominated the community. The most important rotifers were Brachionus caudatus, B. havanaensis, and Keratella tropica. The abundance of the two Brachionus species reached maximum values in late summer/early autumn. In contrast, K. tropica and A. robustus did not display seasonal patterns. A prolonged period of low water temperature resulted in a massive fish winterkill event (in 2007), which seemingly allowed the development of unusually dense populations of cladocerans. We used vector autoregressive models to analyze the rotifer time series. The model accounted for 76% of the variance in rotifer abundance and provided evidence of their dependence on temperature and chlorophyll a. In addition, the impact of the fish winterkill on rotifer abundance could be assessed through intervention analysis. The evidence collected here suggests that the zooplankton community structure is controlled by fish planktivory, while rotifers population dynamics are mostly driven by temperature and available food. Both processes seem highly responsive to forcing weather variables.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Andrew, T. E. & J. A. M. Andrew, 2005. Seasonality of rotifers and temperature in Lough Neagh, N. Ireland. Hydrobiologia 546: 451–455.
APHA, 1992. Standard Methods for the Examination of Water and Wastewater. American Publication Health Association, Washington, DC.
Beaver, J. R. & K. E. Havens, 1996. Seasonal and spatial variation in zooplankton community structure and their relation to possible controlling variables in Lake Okeechobee. Freshwater Biology 36: 45–56.
Berasain, G. E., D. C. Colautti, M. Remes Lenicov & C. A. Velasco, 2005. Variaciones estacionales e históricas de las especies ícticas de la laguna Chascomús. Biología Acuática 22: 47–58.
Berzins, B. & B. Pejler, 1989. Rotifer occurrence in relation to temperature. Hydrobiologia 175: 223–231.
Brooks, J. L. & S. L. Dodson, 1965. Predation, body size, and composition of plankton. Science 150: 28–35.
Carpenter, S. R., T. M. Frost, D. Heisey & T. K. Kratz, 1989. Randomized intervention analysis and the interpretation of whole-ecosystem experiments. Ecology 70: 1142–1152.
Castro, B. B., S. C. Antunes, R. Pereira, A. M. V. M. Soares & F. Gonçalves, 2005. Rotifer community structure in three shallow lakes: seasonal fluctuations and explanatory factors. Hydrobiologia 543: 221–232.
Conde-Porcuna, J. M., 2000. Relative importance of competition with Daphnia (Cladocera) and nutrient limitation on Anuraeopsis (Rotifera) population dynamics in a laboratory study. Freshwater Biology 44: 423–430.
Conde-Porcuna, J., E. Ramos-Rodríguez & C. Pérez-Martínez, 2002. Correlations between nutrient concentrations and zooplankton populations in a mesotrophic reservoir. Freshwater Biology 47: 1463–1473.
Conzonno, V. H. & E. F. Claverie, 1990. Chemical characteristics of the water of Chascomús pond (Provincia de Buenos Aires, Argentina). Limnological implications. Revista Brasileira de Biología 50: 15–21.
Coops, H., M. Beklioglu & T. L. Crisman, 2003. The role of water-level fluctuations in shallow lake ecosystems – workshop conclusions. Hydrobiologia 506–509: 23–27.
Cussac, V., D. Fernández, S. Gómez & H. López, 2009. Fishes of southern South America: a story driven by temperature. Fish Physiology and Biochemistry 35: 29–42.
Diovisalvi, N., G. Berasain, F. Unrein, D. C. Colautti, P. Fermani, M. E. Llames, A. Torremorell, L. Lagomarsino, G. Pérez, R. Escaray, J. Bustingorry, M. Ferraro & H. Zagarese, 2010. Chascomús: estructura y funcionamiento de una laguna pampeana turbia. Ecología Austral 20: 115–127.
Dumont, H. J., 1977. Biotic factors in the population dynamics of rotifers. Archiv für Hydrobiologie 8: 98–122.
Dupuis, A. P. & B. J. Hann, 2009. Climate change, diapause termination and zooplankton population dynamics: an experimental and modelling approach. Freshwater Biology 54: 221–235.
Edmondson, W. T., 1965. Reproductive rate of planktonic rotifers as related to food and temperature. Ecological Monographs 35: 61–111.
Fermani, P., N. Diovisalvi, A. Torremorell, L. Lagomarsino, H. E. Zagarese & F. Unrein, 2013. The microbial food web structure of a hypertrophic warm-temperate shallow lake, as affected by contrasting zooplankton assemblages. Hydrobiologia 714: 115–130.
Fisher, R. A., 1929. Tests of significance in harmonic analysis. Proceedings of the Royal Society of London Series A 125: 54–59.
Fradkin, S. C., 1995. Effects of interference and exploitative competition from large-bodied cladocerans on rotifer community structure. Hydrobiologia 313(314): 387–393.
Fussmann, G., 1996. The importance of crustacean zooplankton in structuring rotifer and phytoplankton communities: an enclosure study. Journal of Plankton Research 18: 1897–1915.
Gannon, M. J., 1971. Two counting cells for the enumeration of zooplankton micro-Crustacea. Transactions of the American Microscopical Society 90: 486–490.
Gerten, D. & R. Adrian, 2001. Differences in the persistency of the North Atlantic Oscillation signal among lakes. Limnology and Oceanography 46: 448–455.
Gilbert, J. J., 1985. Competition between rotifers and Daphnia. Ecology 66: 1943–1950.
Gómez, S. E., 1996. Resistenza alla temperatura e salinitá in pesci della Provincia di Buenos Aires (Argentina), con implicazioni zoogeografiche. Atti Congressuali IV Convegno Nazionale Associazione Italiana Ittiologi Acque Dolci 1991, pp. 171–192. AIIAD, Trento, Italia.
Gómez, S. E., R. C. Menni, J. G. Naya & L. Ramirez, 2007. The physical–chemical habitat of the Buenos Aires pejerrey, Odontesthes bonariensis (Teleostei, Atherinopsidae), with a proposal of a water quality index. Environmental Biology of Fishes 78: 161–171.
González, M. J. & T. M. Frost, 1992. Food limitation and seasonal population declines of rotifers. Oecologia 89: 560–566.
Gulati, R. D., 1990. Zooplankton structure in the Loosdrecht lakes in relation to trophic status and recent restoration measures. Hydrobiologia 191: 173–188.
Gulati, R. D., A. L. Ooms-Wilms, O. F. R. Tongeren, G. Postema & K. Siewertsen, 1992. The dynamics and role of limnetic zooplankton in Loosdrecht lakes (The Netherlands). Hydrobiologia 233: 69–86.
Hampton, S. E., 2005. Increased niche differentiation between two Conochilus species over 33 years of climate change and food web alteration. Limnology and Oceanography 50: 421–426.
Hampton, S. E., E. E. Holmes, L. P. Scheef, M. D. Scheuerell, S. L. Katz, D. E. Pendleton & E. J. Ward, 2013. Quantifying effects of abiotic and biotic drivers on community dynamics with multivariate autoregressive (MAR) models. Ecology 94: 2663–2669.
Herzig, A., 1987. The analysis of planktonic rotifer populations: a plea for long-term investigations. Hydrobiologia 147: 163–180.
Hrbácek, J. & M. Hrbácková-Esslová, 1960. Fish stock as a protective agent in the occurrence of slow-developing dwarf species and strains of the genus Daphnia. Internationale Revue der gesamten Hydrobiologie 45: 355–358.
Iglesias, C., N. Mazzeo, M. Meerhoff, G. Lacerot, J. M. Clemente, F. Scasso, C. Kruk, G. Goyenola, J. Garcia-Alonso, S. L. Amsinck, J. C. Paggi, S. José de Paggi & E. Jeppesen, 2011. High predation is of key importance for dominance of small-bodied zooplankton in warm shallow lakes: evidence from lakes, fish exclosures and surface sediments. Hydrobiologia 667: 133–147.
Jassby, A. D. & T. M. Powell, 1990. Detecting changes in ecological time series. Ecology 71: 2044–2052.
José de Paggi, S., 1994. Zooplancton del río Paraná: microcrustáceos y material inorgánico en suspensión. Master Thesis, Universidad Nacional del Litoral, Santa Fé, Argentina: 66 pp.
Koste, W., 1978. Rotatoria. Die Rädertiere Mitteleuropas. Ein Bestimmungswerk begründet von Max Voigt. 2 Aufl, 2 Vols. Bornträger, Berlin: 673 pp.
Kratina, P., H. S. Greig, P. L. Thompson, T. S. A. Carvalho-Pereira & J. B. Shurin, 2012. Warming modifies trophic cascades and eutrophication in experimental freshwater communities. Ecology 93: 1421–1430.
Lagomarsino, L., G. L. Pérez, R. Escaray, J. Bustingorry & H. E. Zagarese, 2011. Weather variables as drivers of seasonal phosphorus dynamics in a shallow hypertrophic lake (Laguna Chascomús, Argentina). Fundamental and Applied Limnology 178: 191–201.
Lewis, W. M. J., 1983. A revised classification of lakes based on mixing. Canadian Journal of Fisheries and Aquatic Sciences 40: 1779–1787.
Liotta, J., B. Giacossa & M. Wagner, 2007. Muerte masiva de peces en una amplia región del país en el invierno del 2007. http://www.fundacionoga.org.ar/pdfs/Nota_corta_mortandad_2007.pdf: 1–4.
Llames, M. E., L. Lagomarsino, N. Diovisalvi, P. Fermani, A. M. Torremorell, G. L. Pérez, F. Unrein, J. Bustingorry, R. Escaray, M. Ferraro & H. E. Zagarese, 2009. The effects of different degrees of light availability in shallow, turbid waters: a mesocosm study. Journal of Plankton Research 31: 1517–1529.
López, C., L. M. Soto, L. Dávalos-Lind & O. Lind, 2007. Summer dynamics of egg-ratio of the rotifer Keratella cochlearis (Gosse, 1851) in a eutrophic reservoir: a field study on affecting factors. Hydrobiologia 589: 175–185.
Lopretto, E. & G. Tell (eds), 1995. Ecosistemas de Aguas Continentales. Metodologías para su Estudio, Vol I. Ediciones Sur, La Plata.
Lynch, M., 1979. Predation, competition, and zooplankton community structure: an experimental study. Limnology and Oceanography 24: 253–272.
MacIsaac, H. J. & J. J. Gilbert, 1991. Discrimination between exploitative and interference competition between Cladocera and Keratella cochlearis. Ecology 72: 924–937.
Mantua, N., 2004. Methods for detecting regime shifts in large marine ecosystems: a review with approaches applied to North Pacific data. Progress in Oceanography 60: 165–182.
Ooms-Wilms, A. L., G. Postema & R. D. Gulati, 1999. Population dynamics of planktonic rotifers in Lake Loosdrecht, the Netherlands, in relation to their potential food and predators. Freshwater Biology 42: 77–97.
Pavón-Meza, E. L., S. S. S. Sarma & S. Nandini, 2005. Combined effects of algal (Chlorella vulgaris) food level and temperature on the demography of Brachionus havanaensis (Rotifera): a life table study. Hydrobiologia 546: 353–360.
Pennak, R.W., 1989. Fresh-Water Invertebrates of the United States: Protozoa to Mollusca. Wiley/Wiley-Interscience, New York: 628 pp.
Pérez, G. L., M. E. Llames, L. Lagomarsino & H. E. Zagarese, 2011. Seasonal variability of optical properties in a highly turbid lake (Laguna Chascomús, Argentina). Photochemistry and Photobiology 87: 659–670.
Pollard, A. I., M. J. Gonzalez, M. J. Vanni & J. L. Headworth, 1998. Effects of turbidity and biotic factors on the rotifer community in an Ohio reservoir. Hydrobiologia 387(388): 215–223.
Pontin, R. M., 1978. A Key to British Freshwater Planktonic Rotifera. Scientific Publication No. 38. Freshwater Biological Association, Ambleside, UK.
Reichstein, M., M. Bahn, P. Ciais, D. Frank, M. D. Mahecha, S. I. Seneviratne, J. Zscheischler, C. Beer, N. Buchmann, D. C. Frank, D. Papale, A. Rammig, P. Smith, K. Thonicke, M. van der Velde, S. Vicca, A. Walz & M. Wattenbach, 2013. Climate extremes and the carbon cycle. Nature 500: 95–287.
Reid, J. W., 1985. Chave de identificação e lista de referências bibliográficas para as espécies continentais sulamericanas de vida livre da ordem Cyclopoida (Crustacea, Copepoda). Universidad de Sao Paulo. Boletim de Zoologia da Universidade de São Paulo 9: 17–143.
Rennella, A. M. & R. Quirós, 2006. The effects of hydrology on plankton biomass in shallow lakes of the Pampa Plain. Hydrobiologia 556: 181–191.
Ringuelet, R. A., 1975. Zoogeografía y ecología de los peces de aguas continentales de la Argentina y consideraciones sobre las áreas ictiológicas de América del Sur. Ecosur 2: 1–122.
Ruttner-Kolisko, A., 1974. Plankton Rotifers: Biology and Taxonomy. English Translation of Die Binnengewässer, Vol. 26, part 1.146 p. Schweizerbart, Verlagsbuchhandlung, Stuttgart.
Shurin, J. B., J. L. Clasen, H. S. Greig, P. Kratina & P. L. Thompson, 2012. Warming shifts top-down and bottom-up control of pond food web structure and function. Philosophical Transactions of the Royal Society of London B: Biological Sciences 367: 3008–3017.
Snell, T. W. & C. E. King, 1977. Lifespan and fecundity patterns in rotifers: the cost of reproduction. Evolution 31: 882–890.
Solow, A. R. & A. R. Beet, 2005. A test for a regime shift. Fisheries Oceanography 14: 236–240.
Stemberger, R. S. & M. S. Evans, 1984. Rotifer seasonal succession and copepod predation in Lake Michigan. Great Lakes Research 10: 417–428.
Torremorell, A., J. Bustigorry, R. Escaray & H. E. Zagarese, 2007. Seasonal dynamics of a large, shallow lake, laguna Chascomús: the role of light limitation and other physical variables. Limnologica 37: 100–108.
Torremorell, A., M. E. Llames, A. P. Pérez, R. Escaray, J. Bustingorry & H. Zagarese, 2009. Annual patterns of phytoplankton density and primary production in a large, shallow lake: the central role of light. Freshwater Biology 54: 437–449.
Walther, G. R., 2010. Community and ecosystem responses to recent climate change. Philosophical Transactions of the Royal Society of London B: Biological Sciences 365: 2019–2024.
Walz, N., 1995. Rotifer populations in plankton communities: energetics and life history strategies. Experientia 51: 437–453.
Whitman, R. L., M. B. Nevers, M. L. Goodrich, P. C. Murphy & B. M. Davis, 2004. Characterization of Lake Michigan coastal lakes using zooplankton assemblages. Ecological Indicators 4: 277–286.
Winder, M. & D. E. Schindler, 2004. Climatic effects on the phenology of lake processes. Global Change Biology 10: 1844–1856.
Winder, M., D. Schindler, T. Essington & A. Litt, 2009. Disrupted seasonal clockwork in the population dynamics of a freshwater copepod by climate warming. Limnology and Oceanography 54: 2493–2505.
Yoshida, T., S. Ban, T. Takenouchi, T. Aono, Y. Ishikawa, H. Mikami, K. Takano, K. Imada, R. Yasutomi & K. Takeuchi, 2000. Top-down control of population dynamics of the dominant rotifers in two mesotrophic lakes in Hokkaido, Japan. Archiv für Hydrobiologie 148: 481–498.
Acknowledgements
We thank José Bustingorry and Roberto Escaray for field assistance. This work was supported by Agencia Nacional de Promoción Científica y Tecnológica, PICT-2011-1029, CONICET PIP 00700, and the Argentinean network for the assessment and monitoring of Pampean shallow lakes (PAMPA2). The manuscript greatly benefitted from comments by John J. Gilbert and two anonymous reviewers.
Author information
Authors and Affiliations
Corresponding author
Additional information
Guest editors: I. Izaguirre, L. A. Miranda, G. M. E. Perillo, M. C. Piccolo & H. E. Zagarese / Shallow Lakes from the Central Plains of Argentina
Rights and permissions
About this article
Cite this article
Diovisalvi, N., Salcedo Echeverry, G.E., Lagomarsino, L. et al. Seasonal patterns and responses to an extreme climate event of rotifers community in a shallow eutrophic Pampean lake. Hydrobiologia 752, 125–137 (2015). https://doi.org/10.1007/s10750-014-1909-2
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10750-014-1909-2