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Does high nitrogen loading prevent clear‐water conditions in shallow lakes at moderately high phosphorus concentrations?
Authors:María A González Sagrario  Erik Jeppesen  Joan Gomà  Martin Søndergaard  Jens Peder Jensen  Torben Lauridsen  Frank Landkildehus
Institution:Department of Biology, University of Mar del Plata, Mar del Plata, Argentina; CONICET (National Council of Research and Technology), Buenos Aires, Argentina; Department of Freshwater Ecology, National Environmental Research Institute, Silkeborg, Denmark; Department of Plant Biology, University of Aarhus, Risskov, Denmark; Department of Plant Biology, University of Barcelona, Barcelona, Catalonia, Spain
Abstract:1. The effect of total nitrogen (TN) and phosphorus (TP) loading on trophic structure and water clarity was studied during summer in 24 field enclosures fixed in, and kept open to, the sediment in a shallow lake. The experiment involved a control treatment and five treatments to which nutrients were added: (i) high phosphorus, (ii) moderate nitrogen, (iii) high nitrogen, (iv) high phosphorus and moderate nitrogen and (v) high phosphorus and high nitrogen. To reduce zooplankton grazers, 1+ fish (Perca fluviatilis L.) were stocked in all enclosures at a density of 3.7 individuals m?2. 2. With the addition of phosphorus, chlorophyll a and the total biovolume of phytoplankton rose significantly at moderate and high nitrogen. Cyanobacteria or chlorophytes dominated in all enclosures to which we added phosphorus as well as in the high nitrogen treatment, while cryptophytes dominated in the moderate nitrogen enclosures and the controls. 3. At the end of the experiment, the biomass of the submerged macrophytes Elodea canadensis and Potamogeton sp. was significantly lower in the dual treatments (TN, TP) than in single nutrient treatments and controls and the water clarity declined. The shift to a turbid state with low plant coverage occurred at TN >2 mg N L?1 and TP >0.13–0.2 mg P L?1. These results concur with a survey of Danish shallow lakes, showing that high macrophyte coverage occurred only when summer mean TN was below 2 mg N L?1, irrespective of the concentration of TP, which ranged between 0.03 and 1.2 mg P L?1. 4. Zooplankton biomass and the zooplankton : phytoplankton biomass ratio, and probably also the grazing pressure on phytoplankton, remained overall low in all treatments, reflecting the high fish abundance chosen for the experiment. We saw no response to nutrition addition in total zooplankton biomass, indicating that the loss of plants and a shift to the turbid state did not result from changes in zooplankton grazing. Shading by phytoplankton and periphyton was probably the key factor. 5. Nitrogen may play a far more important role than previously appreciated in the loss of submerged macrophytes at increased nutrient loading and for the delay in the re‐establishment of the nutrient loading reduction. We cannot yet specify, however, a threshold value for N that would cause a shift to a turbid state as it may vary with fish density and climatic conditions. However, the focus should be widened to use control of both N and P in the restoration of eutrophic shallow lakes.
Keywords:macrophytes  nitrogen  phosphorus  phytoplankton  turbidity
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