EGU2020-4664
https://doi.org/10.5194/egusphere-egu2020-4664
EGU General Assembly 2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Phosphate supply to the eutrophic lake Eichbaumsee (Germany): Sedimentary versus groundwater sources

Jan Scholten1, Wiebe Förster1, Michael Schubert2, Kay Knöller2, Nikolaus Classen3, Michael Lechelt4, Jan-Helge Richard4, Udo Rohweder4, and Isabell Zunker4
Jan Scholten et al.
  • 1Kiel University, Institute of Geosciences, Coastal Geology, Kiel, Germany (jan.scholten@ifg.uni-kiel.de)
  • 2Helmholtz Centre for Environmental Research GmbH – UFZ, Leipzig, Germany
  • 3Behörde für Umwelt und Energie, Freie und Hansestadt Hamburg, Germany
  • 4Institut für Hygiene und Umwelt, Freie und Hansestadt Hamburg, Germany

The eutrophic lake Eichbaumsee, a ~ 1 km long and 280m wide (maximum water depth 16m) dredging lake southeast of Hamburg (Germany), has been treated for water quality improvements using various techniques (i.e. aeration plants, removal of dissolved phosphate by aluminium phosphate precipitation and by Benthophos adsorption) during the past ~ 15 years. Despite these treatments no long-term improvement of the water quality was observed and the lake water phosphate content continued to increase by e.g. ~ 350 kg phosphate per year between March 2016 and February 2019. As no creeks or rivers drain into the lake and hydrological groundwater models do not suggest any major groundwater discharge into the lake, sources of phosphate (and other nutrients) are unknown.

We investigated the phosphate fluxes from sediment pore water and groundwater into the water body of the lake. Sediment pore water was extracted from sediment cores recovered by divers in August 2018 and February 2019. Diffusive phosphate fluxes from pore water were calculated based on phosphate gradients using first Fick`s law. Stable water isotopes (δ2H, δ18O) were measured in the lake water, sediment pore water, interstitial waters in the banks surrounding the lake, the Elbe river and in three groundwater wells close to lake. Stable isotope (δ2H, δ18O) water mass balance models were used to compute water inflow/outflow to/from the lake.

Our results revealed pore-water borne phosphate fluxes between – 0.07 mg/m²/d (i.e. slight phosphate uptake by the sediments) and 2.6 mg/m²/d (i.e. phosphate release to the lake). Assuming that the measured phosphate fluxes are temporarily and spatially representative for the whole lake, about 100 kg/a to 220 kg/a of phosphate is released from sediments. This amount is slightly lower than the observed phosphate increase of the lake water. Stable isotope signatures indicate a water exchange between the aquifer and the lake water. Based on stable isotope mass balances (δ2H, δ18O) we estimate an inflow of phosphate from the aquifer to the lake between 190 kg/a and 1400 kg/a. This inflow indicates that groundwater-born phosphate is as or even more important than phosphate supply via sediment pore-water. Our study suggests that groundwater may have an important impact on lake nutrient budgets.

How to cite: Scholten, J., Förster, W., Schubert, M., Knöller, K., Classen, N., Lechelt, M., Richard, J.-H., Rohweder, U., and Zunker, I.: Phosphate supply to the eutrophic lake Eichbaumsee (Germany): Sedimentary versus groundwater sources, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-4664, https://doi.org/10.5194/egusphere-egu2020-4664, 2020

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