Zusammenfassung der Projektergebnisse

The Covid pandemic had a significant impact on the project, necessitating a shift in approach from a method comparison framework involving all disciplines to a focus on a sequential campaign approach with careful planning and further measures such as the KiSNet seminar to support networking. The latter proved to be particularly valuable in increasing understanding of different disciplines, approaches and methodologies. Due to its effectiveness, it is planned to continue the seminar at a reduced frequency to further foster links within the KiSNet group. In terms of methodology, our sequential interdisciplinary approach to understanding groundwater discharge in the Bay of Königshafen yielded promising results. This included initial hydrogeological modelling, spatially continuous geophysical and remote sensing mapping, interdisciplinary integration to improve results, and validation by in-situ hydrological, physical and biogeochemical analyses. One aspect should be emphasised, as it was initially thought to be crucial: mapping does not require simultaneous application of different methods, as the SGD locations are consistent over different temporal scales, suggesting the feasibility of time-shifted application of methods. Our investigations revealed a previously unknown steep clay or silt structure that influences the hydrogeological flow behaviour and groundwater discharge in the bay. SGD sites were identified predominantly along the southern and southwestern coasts and showed temporal stability over three decades. Freshwater contribution was low, with SGD fresh estimated at 1 million m3/a, representing less than 0.4% of the annual water budget. Areas close to the shoreline exhibited the highest groundwater fluxes, while offshore discharge (up to 500 m from the coast) is potentially associated with subsurface clay structures and is therefore discontinuous and spatially confined to prominent features, highlighting the complex dynamics of groundwater flow in the bay. The Covid pandemic posed a significant and unforeseen challenge to the KiSNet project from the outset, disrupting its planning and requiring adaptive measures to sustain the networking efforts while maintaining the project's core objective of method comparison for submarine groundwater discharge (SGD) investigations. Another surprise was the initial perception of the Königshafen Bay groundwater system, which was thought to be a closed and clearly definable groundwater system with rather simple representable flow systems. This was the reason why it was chosen as a study site. Instead, it revealed a complexity beyond initial expectations. Questions remain about the connection between the surface ponds and the groundwater system, the volume of fresh groundwater originating from the freshwater lens, and the source of the radium concentration observed in the stream along the northern shoreline of the bay.

Projektbezogene Publikationen (Auswahl)

• Biogeochemistry and Hydrology of Submarine Groundwater Discharge, GRIEG2020 (Presentation)
  Böttcher, ME
  
• Königshafen Submarine Groundwater Discharge Network (KiSNet).
  Mallast, Ulf; Waska, Hannelore & Moosdorf, Nils
  
• A Multi-Tracer Study of Fresh Water Sources for a Temperate Urbanized Coastal Bay (Southern Baltic Sea). Frontiers in Environmental Science, 9.
  von Ahn, Cátia Milene Ehlert; Scholten, Jan C.; Malik, Christoph; Feldens, Peter; Liu, Bo; Dellwig, Olaf; Jenner, Anna-Kathrina; Papenmeier, Svenja; Schmiedinger, Iris; Zeller, Mary A. & Böttcher, Michael Ernst
  
• A State-Of-The-Art Perspective on the Characterization of Subterranean Estuaries at the Regional Scale. Frontiers in Earth Science, 9.
  Moosdorf, Nils; Böttcher, Michael Ernst; Adyasari, Dini; Erkul, Ercan; Gilfedder, Benjamin S.; Greskowiak, Janek; Jenner, Anna-Kathrina; Kotwicki, Lech; Massmann, Gudrun; Müller-Petke, Mike; Oehler, Till; Post, Vincent; Prien, Ralf; Scholten, Jan; Siemon, Bernhard; Ehlert, von Ahn Cátia Milene; Walther, Marc; Waska, Hannelore; Wunderlich, Tina & Mallast, Ulf
  
• Tidal creeks as hot-spots for hydrological exchange in a coastal landscape. Journal of Hydrology, 597, 126158.
  Glaser, Clarissa; Frei, Sven; Massmann, Gudrun & Gilfedder, Benjamin Silas
  
• Using heat as a tracer to map and quantify water infiltration and exfiltration along a complex high energy beach face. Estuarine, Coastal and Shelf Science, 250, 107140.
  Gilfedder, B.S.; Waska, H.; Wismeth, F. & Frei, S.
  
• An isotope hydrobiogeochemical study of benthic-pelagic coupling in a tidal bay (North Sea), 8th Ra&Rn Workshop, Xiamen, China, 06–10 June 2022, online (Poster)
  Ehlert von Ahn, C. M.; Jenner, A.-K.; Scholten, J.; Schell, A.; Seels, P.; Telfeyan, K.; Schmiedinger, I.; Hoffmann, J.; Roeser, P.; Nantke, C. & Böttcher, M.
  
• Crossings borders: The carbon system of tidal areas, IOW-NIOS workshop 2022 (Presentation)
  Böttcher, ME
  
• First monitoring results from a multi-sensor and multidisciplinary approach (KiSNet), EGU 2022 (Poster)
  KiSNet Team
  
• Hydrology and -chemistry of a tidal basin (Königshafen, North Sea): A water isotope perspective.
  Böttcher, Michael E.; Jenner, Anna-Kathrina; Nantke, Carla; von Ahn, Cátia Milene E.; Schmiedinger, Iris; Schell, Antonia; Patricia, Roeser; Riedel, Ramona; Janßen, Sebastian; Gilfedder, Benjamin S. & Moosdorf, Nils
  
• Isotope hydrogeochemistry investigations (223,224Ra, DI13C) on submarine groundwater discharge in a tidal bay (eastern North Sea).
  Ehlert, von Ahn Catia Milene; Jenner, Anna-Kathrina; Scholten, Jan; Schell, Antonia; Schmiedinger, Iris; Hoffmann, Jasper; Roeser, Patricia; Nantke, Carla & Böttcher, Michael
  
• Mapping submarine freshwater discharge spots by ERT, EMI and GPR, DGG 2022 (Poster)
  Jan Igel; Mathias Ronczka; Mike Müller-Petke; Ursula Noell; Ercan Erkul; S.L. Fischer & Tina Wunderlich
  
• Submarine Groundwater Discharge - Biogeochemistry and Hydrology, GRIEG2020 (Presentation)
  Böttcher, ME
  
• Geophysikalische Messungen an Submarine Groundwater Discharge (SGD) Lokationen im Königshafen (Sylt) und Vergleich mit Luftbildern und in-situ Leitfähigkeitsmessungen; DGG 2023 (Presentation)
  Tina Wunderlich; Michael Ernst Böttcher; Cátia M. Ehlert von Ahn; Ercan Erkul; Simon Fischer; Benjamin Gilfedder; Ralf Gründling; Jan Igel; Anna-Kathrina Jenner; Erman Lu; Ulf Mallast; Nils Moosdorf; Mike Müller-Petke; Wolfgang Rabbel; Mathias Ronczka & Dennis Wilken
  
• Ideas and perspectives: Land–ocean connectivity through groundwater. Biogeosciences, 20(3), 647-662.
  Arévalo-Martínez, Damian L.; Haroon, Amir; Bange, Hermann W.; Erkul, Ercan; Jegen, Marion; Moosdorf, Nils; Schneider, von Deimling Jens; Berndt, Christian; Böttcher, Michael Ernst; Hoffmann, Jasper; Liebetrau, Volker; Mallast, Ulf; Massmann, Gudrun; Micallef, Aaron; Michael, Holly A.; Paasche, Hendrik; Rabbel, Wolfgang; Santos, Isaac; Scholten, Jan ... & Weymer, Bradley A.
  
• Mapping and quantifying water fluxes at the land-sea interface using temperature, stable isotopes and pore water chemistry: An example from Königshafen, Sylt.
  Gilfedder, Benjamin; Riedel, Ramona; List, Joana; Böttcher, Michael E. & Frei, Sven
  
• Coastal–Groundwater Interfaces (Submarine Groundwater Discharge). Ecohydrological Interfaces, 123-147.
  Böttcher, Michael E.; Mallast, Ulf; Massmann, Gudrun; Moosdorf, Nils; Müller‐Petke, Mike & Waska, Hannelore