NUTRIENT DYNAMICS IN LAKES – WITH EMPHASIS ON PHOSPHORUS SEDIMENT AND LAKES RESTORATION

This dissertation including 16 selected English papers and book contributions was accepted by the Faculty of Natural Sciences, Aarhus University , for the doctor’s degree in natural sciences. The dissertation describes the dynamic interactions between nutrients, the sediment and the biological conditions in lakes.

First, Danish lake types are characterised and their development described relative to changes in nutrient loading. After this a more detailed description is given of lake retention of nutrients, including the binding of phosphorus in the sediment and the exchange of phosphorus between the sediment and the water phase. Next follows a section on the multiple mechanisms behind the release and uptake of phosphorus in the sediment. As a user-oriented aspect, lake restoration and the results obtained from the various chemical and biological methods applied in Denmark so far are treated. Finally, reflections are made on future management and research issues for Danish lakes, including the future climate and the implementation of the EU Water Framework Directive.

Nutrient dynamics in lakes - with emphasis on phosphorus sediment and lake restoration. Doctor's dissertation (DSc). By Søndergaard, M., 2007. 72 pp., The dissertation in Pdf-format (3.775 kB).

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Doctor's degree awarded to Martin Søndergaard

28. juni 2007 - Senior scientist Martin Søndergaard, Dept. of Freshwater Ecology at Denmark ’s National Environmental Research Institute, University of Aarhus has been awarded the doctor’s degree in natural sciences for his dissertation “Nutrient dynamics in lakes - with emphasis on phosphorus, sediment and lake restoration”.

The dissertation – including 16 selected English papers and book contributions - describes the dynamic interactions between nutrients, the sediment and the biological conditions in Danish lakes.

A section describes the multiple mechanisms behind the release and uptake of phosphorus in the sediment. As a user-oriented aspect, lake restoration and the results obtained from the various chemical and biological methods applied in Denmark so far are treated.

Finally, reflections are made on future management and research issues for Danish lakes, including the future climate and the implementation of the EU Water Framework Directive.
Martin Søndergaard