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Projekt Druckansicht

Stabile Isotope von gelöstem Sauerstoff (DO) als dynamische Tracer für aerobische Umsätze in Grund- und Oberflächengewässern (IsoDO)

Fachliche Zuordnung Hydrogeologie, Hydrologie, Limnologie, Siedlungswasserwirtschaft, Wasserchemie, Integrierte Wasserressourcen-Bewirtschaftung
Mineralogie, Petrologie und Geochemie
Förderung Förderung von 2015 bis 2020
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 290026025
 
Erstellungsjahr 2021

Zusammenfassung der Projektergebnisse

The project was able to establish a so far hardly practised technique of stable isotope analyses on dissolved oxygen in terrestrial water systems. This method can serve as a useful addition to dissolved oxygen concentration measurements. With its additional information it can reveal sources and sinks of oxygen as one of the most fundamental parameters for ecosystem functioning. The work helped to advance collaborations between the University of Erlangen and the Helmholtz Zentrum für Umweltforschung (UFZ) in environmental research. The applied stable isotope technique was also useful to open further links to other research groups in Chemistry and Bioengineering. The presented work shows that the technique is very promising to deepen interdisciplinary research approaches in environmental and aqueous sciences. It is promising for applications in future investigations of groundwater, limnology and river studies and of will also be open for use in other fields including, Chemistry, Engineering and Biology.

Projektbezogene Publikationen (Auswahl)

  • (2017) A new approach to quantify system efficiency with dissolved oxygen isotopes during engineered growth of Galdieria sulphuraria. Algal Research 26, 294-301
    Mader, M., Schwerna, P., Buchholz, R., van Geldern, R. and Barth, J.A.C.
    (Siehe online unter https://doi.org/10.1016/j.algal.2017.07.026)
  • (2017) Dissolved oxygen in water and its stable isotope effects: A review. Chemical Geology 473, 10-21
    Mader, M., Schmidt, C., van Geldern, R. and Barth, J.A.C.
    (Siehe online unter https://doi.org/10.1016/j.chemgeo.2017.10.003)
  • 2017, Stable Isotopes of Dissolved Oxygen as Dynamic Tracers for Carbon, Nutrient and Oxide Phases Turnover in Natural and Engineered Water Systems. Vom Wasser, 114 (2016) 2, 43– 86. Wasser 2016 (Jahrestagung der Wasserchemischen Gesellschaft), 02.-04. May 2016 Bamberg
    Mader, M., Schmidt, C., Schwerna, P., van Geldern, R., Barth, J.A.C.
  • 2017. A First Technical Approach To Quantify System Efficiency With Stable Isotopes Of Dissolved Oxygen During Engineered Growth Of Galdieria Sulphuraria. ASI 2017 – (Jahrestagung der Arbeitsgemeinschaft Stabile Isotope e.V.), 09. – 11. November 2017 Hannover
    Mader, M., Schmidt, C., van Geldern, R., Barth, J.A.C.
  • 2017. Disentangling dissolved oxygen sources in shallow riparian groundwater by stable isotope analysis. EGU General Assembly 2017, 24. – 28. April 2017, Vienna, Austria
    Mader, M., Porst, D., Schmidt, C., van Geldern, R., Barth, J.A.C.
  • (2018) Direct oxygen isotope effect identifies the ratedetermining step of electrocatalytic OER at an oxidic surface. Nature Communications, (2018) 2019:4565
    Haschke, S., Mader, M., Schlicht, S., Roberts, A.M., Angeles-Boza, A.M., Barth, J.A.C. and Bachmann, J.
    (Siehe online unter https://doi.org/10.1038/s41467-018-07031-1)
  • (2018) River recharge versus O2 supply from the unsaturated zone in shallow riparian groundwater: A case study from the Selke River (Germany). Science of the Total Environment 634, 374-381
    Mader, M., Roberts, A.M., Porst, D., Schmidt, C., Trauth, N., van Geldern, R. and Barth, J.A.C.
    (Siehe online unter https://doi.org/10.1016/j.scitotenv.2018.03.230)
  • (2020) Beware of effects on isotopes of dissolved oxygen during storage of natural iron-rich water samples: A technical note. Rapid Communications in Mass Spectrometry, e9024
    Köhler, I., Piatka, D., Barth, J.A.C. and Martinez, R.E.
    (Siehe online unter https://doi.org/10.1002/rcm.9024)
 
 

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