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  • Kowalski K, Okujeni A, Hostert P (2023) A generalized framework for drought monitoring across Central European grassland gradients with Sentinel-2 time series. Remote Sensing of Environment, doi: https://doi.org/10.1016/j.rse.2022.113449
  • Lorente A, Ochoa A, Rodriguez-Lavado J, Rodriguez-Nuévalos S, Jaque P, Gil S, Sáez JA, Costero AM (2023) Unconventional OFF–ON Response of a Mono(calix[4]arene)-Substituted BODIPY Sensor for Hg2+ through Dimerization Reversion. ACS Omega, doi: https://doi.org/10.1021/acsomega.2c06161
  • Smith AA, Tetzlaff D, Marx C, Soulsby C (2023) Enhancing urban runoff modelling using water stable isotopes and ages in complex catchments. Hydrological Processes, doi: https://doi.org/10.1002/hyp.14814
  • Tetzlaff D, Smith AA, Kleine L, Daempfling H, Freymueller D, Soulsby C (2023) Integrated ecohydrological hydrometric and stable water isotope data of a drought-sensitive mixed land use lowland catchment. Earth System Science Data. https://doi.org/10.5194/essd-15-1543-2023
  • Yang X, Tetzlaff D, Mueller C, Knoeller K, Borchardt D, Soulsby C (2023) Upscaling tracer-aided ecohydrological modelling to larger catchments: Implications for process representation and heterogeneity in landscape organization. Water Resources Researchhttps://doi.org/10.1029/2022WR033033


  • Calliess C (2022) Staatsziel Umweltschutz: Kommentierung des Art. 20a GG, in: Dürig/Herzog/Scholz, Grundgesetz Kommentar, 98. Ergänzungslieferung, München 2022, S. 1-140.

  • Calliess C (2022) Vorsorgeprinzip, planetare Grenzen und Climate Engineering, Berliner Online Beitrag Nr. 142, Berlin 2022, S. 1-39

  • Calliess C (2022) Vorsorgeprinzip, in: Armin Grunwald/Rafaela Hillerbrand (Hrsg.), Handbuch Technikethik, 2. Auflage, Stuttgart 2021, S. 437-441.
  • Duethmann D, Smith A, Soulsby C, Kleine L, Hahn S, Wagner W, Tetzlaff D (2022) Evaluating satellite-derived soil moisture data for improving the internal consistency of process-based ecohydrological modelling. Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2022.128462
  • Gillefalk M, Tetzlaff D, Marx C, Smith A, Meier F, Hinkelmann R, Soulsby C (2022) Estimates of water partitioning in complex urban landscapes with isotope-aided ecohydrological modelling. Hydrological Processes, doi: 10.1002/hyp.14532

  • Eisenack K, Paschen M (2022) „Adapting Long-Lived Investments under Climate Change Uncertainty“. Journal of Environmental Economics and Management 116: 102743.https://doi.org/10.1016/j.jeem.2022.102743

  • Eisenack KRoggero M (2022) Many roads to Paris: Explaining urban climate action in 885 European cities, Global Environmental Change 72, 102439. https://doi.org/10.1016/j.gloenvcha.2021.102439.

  • Krueger T, Alba R (2022) Ontological and epistemological commitments in interdisciplinary water research: Uncertainty as an entry point for reflexion. https://doi.org/10.3389/frwa.2022.1038322

  • Kuhlemann LM, Tetzlaff D, Marx C, Soulsby C. (2022) The imprint of hydroclimate, urbanization and catchment connectivity on the stable isotope dynamics of a large river in Berlin, Germany. Journal of Hydrology, doi: 10.1016/j.jhydrol.2022.128335

  • Landgraf J, Tetzlaff D, Wu S, Freymueller J, Soulsby C. (2022) Using stable water isotopes to understand ecohydrological partitioning under contrasting land uses in a drought-sensitive rural, lowland catchment. Hydrological Processes. https://doi.org/10.1002/hyp.14779.

  • Marx C, Tetzlaff D, Hinkelmann R, Soulsby C (2022) Seasonal variations in soil–plant interactions in contrasting urban green spaces: Insights from water stable isotopes, Journal of Hydrology, doi: 10.1016/j.jhydrol.2022.127998

  • Münch P, Niewöhner J (2022) Building Sustainable Water Futures. The Frontlines of Environmental Politics in Europe, special issue of Europe Now Journal. vol. 48. https://www.europenowjournal.org/2022/05/17/building-sustainable-water-futures/

  • Paton, E (2022) Intermittency analysis of dry spell magnitude and timing using different spell definitions. Journal of Hydrology, 608, https://www.sciencedirect.com/science/article/abs/pii/S0022169422002207?via%3Dihub

  • Pedro, A, Paton E (2022, in press) How do we identify flash droughts? A case study in Central European Croplands. Hydrology Research

  • Rocha AD, Vulova S, Meier F, Förster M, Kleinschmit B (2022) Mapping evapotranspirative and radiative cooling services in an urban environment. Sustainable Cities and Society, 85:104051

  • Rocha AD, Vulova S, Tol C van der, Förster M, Kleinschmit B (2022) Modelling hourly evapotranspiration in urban environments with SCOPE using open remote sensing and meteorological data. Hydrology and Earth System Sciences, 26(4):1111-1129

  • Smith AA, Tetzlaff D, Maneta M, Soulsby C (2022) Critical zone response times and water age relationships under variable catchment wetness states: insights using a tracer-aided ecohydrological model. Water Resources Research, doi: 10.1029/2021WR030584

  • Tügel F, Özgen-Xian I, Simons F, Hassan A, Hinkelmann R (2022) Shallow water flow modeling. Flood handbook, CRC Press. doi: https://doi.org/10.1201/9780429463938

  • Tügel F, Hadidi A, Özgen-Xian I, Hou J, Hinkelmann R (2022) Validation of flash flood simulations using satellite images and community-based observations - impact of infiltration and small-scale topographical features. In: Sumi, T., Kantoush, S.A., Saber, M. (eds) Wadi Flash Floods. Natural Disaster Science and Mitigation Engineering: DPRI reports. Springer, Singapore. doi: https://doi.org/10.1007/978-981-16-2904-4_6