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Reaction of large and shallow lakes Peipsi and Võrtsjärv to the changes of nutrient loading

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Abstract

More than 20-year monitoring of Estonian rivers reveals that the loading of nitrogen to large shallow lakes Peipsi (3,555 km2, mean depth 7.1 m) and Võrtsjärv (270 km2, mean depth 2.8 m) decreased substantially in the 1990s. Phosphorus loading decreased to a much smaller extent than nitrogen loading. In L. Võrtsjärv both N and P concentrations followed the decreasing trends of loading, which show the high sensitivity of large shallow lakes to catchment processes. Our study showed a positive relationship between P content in sediments and the relative depth of the lake. Assumingly the resilience of a lake in responding to the reduction of nutrient loading decreases together with the decrease of its relative depth. In L. Peipsi the concentration of P has not decreased since the 1990s. Our data show indirectly that P loading from Russia to L. Peipsi may have increased. The N/P ratio has decreased in both lakes. Cyanobacterial blooms have been common in both lakes already at the beginning of the 20th century. The blooms disappeared during heavy nitrogen loading in the 1980s but started again in L. Peipsi in recent years together with the drop of the N/P ratio. In L. Võrtsjärv the N/P ratio is higher and the ecosystem is more stable although the share of N2-fixing cyanobacteria increased from the 1990s. Reappearing cyanobacterial blooms in L. Peipsi have caused fish-kills in recent years. In L. Peipsi summer/autumn fish-kills during water-blooms are a straightforward consequence of reduced nitrogen level at remaining high phosphorus level while in L. Võrtsjärv the climatic factors affecting water level are more critical––at low water level winter fish-kills may occur. In L. Võrtsjärv nutrient loading has decreased and water quality has improved, present ecological status seems to be mostly controlled by climatic factors through changes of water level. The most important measure to improve water quality in L. Peipsi would be the reduction of phosphorus loading from both Estonian and Russian subcatchments.

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References

  • Blinova, I., 2001. Water quality and pollution load of the rivers of L. Peipsi basin. Riverine load into the L. Peipsi. In Nõges, T. (ed.), Lake Peipsi. Meteorology, Hydrology, Hydrochemistry. Sulemees Publishers, Tallinn, 94–96.

  • Burley, K. L., E. E. Prepas & P. A. Chambers, 2001. Phosphorus release from sediments in hardwater eutrophic lakes: the effects of redox-sensitive and -insensitive chemical treatments. Freshwater Biology 46: 1061–1074.

    Article  CAS  Google Scholar 

  • Graneli, W., 1999. Internal phosphorus loading in Lake Ringsjön. Hydrobiologia 404: 19–26.

    Article  CAS  Google Scholar 

  • Grasshoff, K., M. Ehrhardt & K. Kremling (eds), 1982. Methods of Seawater Analysis. Verlag Chemie, 125–187.

  • Haberman, J., P. Nõges, E. Pihu, T. Nõges, K. Kangur & V. Kisand, 1998. Characterization of L. Võrtsjärv. Limnologica 28: 3–11.

    Google Scholar 

  • Heidenreich, M. & A. Kleeberg, 2003. Phosphorus-binding in ironrich sediments of a shallow revervoir: spatial characterization based on sonar data. Hydrobiologia 506(509): 147–153.

    Article  Google Scholar 

  • Heinsalu, A., T. Alliksaar, A. Leeben & T. Nõges, 2007. Sediment diatom assemblages and composition of pore-water dissolved organic matter as indicators of recent eutrophication history of Lake Peipsi (Estonia/Russia). Hydrobiologia 584: 133–143.

    CAS  Google Scholar 

  • Hieltjes, A. H. M. & L. Lijklema, 1980. Fractionation of inorganic phosphates in calcareous sediments. Journal of Environmental Quality 9: 405–407.

    Article  CAS  Google Scholar 

  • Huisman, J. & F. D. Hulot, 2005. Population dynamics of harmful cyanobacteria. Factors affecting species composition. In Huisman, J., H. C. P. Mattehijs & P. M Visser (eds), Harmful Cyanobacteria. Springer, 143–176.

  • Jaani, A., 2001. The location, size and general characterization of Lake Peipsi. In Nõges, T. (ed.), Lake Peipsi. Meteorology, Hydrology, Hydrochemistry. Sulemees Publishers, Tallinn, 10–17.

    Google Scholar 

  • Järvet, A., 2001. Long-term changes of nutrient runoff in a Lake Võrtsjärv catchment area. In Seepõld, M. (ed.), Environmental Impact and Water Management in a Catchment Area Perspective. Tallinn Technical University, Tallinn, 54–62.

    Google Scholar 

  • Järvet, A., R. Karukäpp & I. Arold, 2004. Location and physico-geographical conditions of the catchment area. In Haberman, J., E. Pihu & A. Raukas (eds), Lake Võrtsjärv. Estonian Encyclopedia Publishers, Tallinn, 11–26.

    Google Scholar 

  • Järvet, A., Ü. Mander, A. Kull & V. Kuusemets, 2002. Nutrient runoff change in a rural catchment in South Estonia. Large Rivers. Archiv für Hydrobiology, Supplement 141: 305–319.

    Google Scholar 

  • Jeffrey, S. W. & G. F. Humphrey, 1975. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton. Biochem Physiol Pflanzen 167: 191–194.

    CAS  Google Scholar 

  • Jeppesen, E., J.-P. Jensen, M. Søndergaard & T. L. Lauridsen, 2005a. Response of fish and plankton to nutrient loading reduction in eight shallow Danish lakes with special emphasis on seasonal dynamics. Freshwater Biology 50: 1616–1627.

    Article  CAS  Google Scholar 

  • Jeppesen, E., M. Søndergaard, J.-P. Jensen, K. E. Havens, O. Anneville, L. Carvalho, M. F. Coveney, R. Deneke, M. T. Dokulil, B. Foy, D. Gerdeaux, S. E. Hampton, K. Kangur, J. Köhler, S. Hilt, E. H. H. R. Lammens, T. L. Lauridsen, M. Manca, M. R. Miracle, B. Moss, P. Nõges, G. Persson, G. Phillips, R. Portielje, S. Romo, C. L. Schelske, D. Straile, I. Tatrai, E. Willen & M. Winder, 2005. Lake responses to reduced nutrient loading – an analysis of contemporary long-term data from 35 case studies. Freshwater Biology 50: 1747–1771.

    Article  CAS  Google Scholar 

  • Juhna, T. & M. Klavins, 2001. Water-Quality changes in Latvia and Riga 1980–2000: Possibilities and problems. Ambio 30: 306–314.

    Article  PubMed  CAS  Google Scholar 

  • Kangur, K., A. Kangur, P. Kangur & R. Laugaste, 2005. Fish kill in Lake Peipsi in summer 2002 as a synergistic effect of a cyanobacterial bloom, high temperature and low water level. Proceedings of the Estonian Academy of Sciences. Biology, Ecology 54: 67–80.

    Google Scholar 

  • Kleeberg, A. & J.-G. Kohl, 1999. Assessment of the long-term effectiveness of sediment dredging to reduce benthic phosphorus release in shallow Lake Müggelsee (Germany). Hydrobiologia 394: 153–161.

    Article  CAS  Google Scholar 

  • Kronvang, B., E. Jeppesen, D. J. Conley, M. Søndergaard, S. E. Larsen, N. B. Ovesen & J. Carstensen, 2005. Nutrient pressures and ecological responses to nutrient loading reductions in Danish streams, lakes and coastal waters. Journal of Hydrology 304: 274–288.

    Article  CAS  Google Scholar 

  • Laugaste, R., T. Nõges, P. Nõges, V. V. Jastremskij, A. Milius & I. Ott, 2001. Algae. In Pihu, E. & J. Haberman (eds), Lake Peipsi. Flora and Fauna. Sulemees Publishers, Tallinn, 31–49.

    Google Scholar 

  • Loigu, E. & Ü. Leisk, 1996. Water quality of rivers in the drainage basin of Lake Peipsi. Hydrobiologia 338: 25–35.

    Article  CAS  Google Scholar 

  • Madgwick, F. J., 1999. Restoring nutrient-enriched shallow lakes: Integrating of theory and practice in the Broads, UK. Hydrobiologia 408(409): 1–12.

    Article  Google Scholar 

  • Marsden, M. W., 1989. Lake restoration by reducing external phosphorus loading: The influence of sediment phosphorus release. Freshwater Biology 21: 139–162.

    Article  CAS  Google Scholar 

  • von zur Mühlen M. & G. Schneider, 1920. Der See Wirzjerw in Livland. Archiv für die Naturkunde des Ostbaltikums 14: 1–156.

    Google Scholar 

  • Nõges, P. & A. Järvalt, 2004. Long-term changes in the ecosystem of Lake Võrtsjärv and their causes. In Haberman, J., E. Pihu & A. Raukas (eds) Lake Võrtsjärv. Estonian Encyclopaedia Publishers, Tallinn, 347–355.

    Google Scholar 

  • Nõges, P., Ü. Leisk, E. Loigu, A. Reihan, B. Skakalski. & T. Nõges, 2003. Nutrient budget of Lake Peipsi in 1998. Proceedings of the Estonian Academy of Sciences. Biology. Ecology. 4: 407–422.

    Google Scholar 

  • Nõges, T. & P. Nõges, 2004. Consequences of catchment processes and climate changes on the ecosystems of large shallow temperate lakes. In Rupp, G. L. & M. D. White (eds), Proceedings of the 7th International Symposium on Fish Physiology, Toxicology, and Water Quality, Tallinn, Estonia, May 12–15, 2003, U.S. Environmental Protection Agency, Ecosystems Research Division, Athens, Georgia, USA. EPA 600/R-04/049, 341–350.

  • Nõges, T., P. Nõges & R. Laugaste, 2003. Water level as the mediator between climate change and phytoplankton composition in a large shallow temperate lake. Hydrobiologia 506: 257–263.

    Article  Google Scholar 

  • Nõges, T., R. Laugaste, E. Loigu, I. Nedogarko, B. Skakalski & P. Nõges, 2005. Is the destabilisation of Lake Peipsi ecosystem caused by increased phosphorus loading or decreased nitrogen loading? Water Science and Technology 51: 267–274.

    PubMed  Google Scholar 

  • Psenner, R. B., M. Boström, K. Dinka, K. Pettersson, R. Pucsko & M. Sager, 1988. Fractionation of phosphorus in suspended matter and sediment. Archiv für Hydrobiologie – Beiheft Ergebnisse der Limnologie. 30: 98–110.

    Google Scholar 

  • Reitzel, K., J. Hansen, F. O. Andersen, K. S. Hansen & H. S. Jensen, 2005. Lake restoration by dosing aluminum relative to mobile phosphorus in the sediment. Environmental Science & Technology 39: 4134–4140.

    Article  CAS  Google Scholar 

  • Spears, B. M., L. Carvalho, R. Perkins, A. Kirika & D. M. Paterson, 2006. Spatial and historical variation in sediment phosphorus fractions and mobility in a large shallow lake. Water Research 40: 383–391.

    Article  PubMed  CAS  Google Scholar 

  • Stålnacke, P., Ü. Sults, A. Vasiliev, B. Skakalsky, A. Botina, G. Roll, K. Pachel & T. Maltsman, 2002. An assessment of riverine loads of nutrients to Lake Peipsi, 1995–1998. Archiv für Hydrobiologie, Supplement 141: 437–457.

    Google Scholar 

  • Starast, H., A. Milius, T. Möls & A. Lindpere, 2001. Hydrochemistry. In Nõges, T. (ed.), Lake Peipsi. Meteorology, Hydrology, Hydrochemistry. Sulemees Publishers, Tallinn, 97–130.

  • Utermöhl, H., 1958. Zur Vervollkomnung der quantitativen Phytoplanktonmethodik. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie 9: 1–38.

    Google Scholar 

  • Wang, S., X. Jin H. Zhao & F. Wu, 2006. Phosphorus fractions and its release in the sediments from the shallow lakes in the middle and lower reaches of Yangtze River area in China. Colloids and Surfaces A: Physicochem Eng Aspects 273: 109–116.

    Article  CAS  Google Scholar 

  • Wetzel, R. G., 1983. Limnology. 2nd edn. Saunders College Publishing, Philadelphia.

    Google Scholar 

Download references

Acknowledgements

The funding was provided by Estonian Ministry of Education (0362480s03), by Estonian Science Foundation grant 5738, and by the EC project CLIME (EVK1-CT-2002–00121). Data collection in state monitoring program was supported by Estonian Ministry of Environment. We are grateful to the two referees for their valuable comments and suggestions.

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Authors and Affiliations

  1. Centre for Limnology, Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Rannu, Tartumaa, 61101, Estonia

    Tiina Nõges, Anu Kisand, Reet Laugaste & Peeter Nõges

  2. Institute of Geography, University of Tartu, Vanemuise 46, Tartu, 51014, Estonia

    Arvo Järvet

  3. Department of Environmental Engineering, Tallinn Technical University, Ehitajate tee 5, Tallinn, 19086, Estonia

    Enn Loigu

  4. Russian Hydrometeorological University, Malookhtinsky avenue 98, Saint Petersburg, 195196, Russian Federation

    Boris Skakalski

  5. Institute for Environment and Sustainability, European Commission – DG Joint Research Centre, Ispra, VA, 21020, Italy

    Peeter Nõges

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  1. Tiina Nõges
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Correspondence to Tiina Nõges.

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Nõges, T., Järvet, A., Kisand, A. et al. Reaction of large and shallow lakes Peipsi and Võrtsjärv to the changes of nutrient loading. Hydrobiologia 584, 253–264 (2007). https://doi.org/10.1007/s10750-007-0603-z

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