Auflistung nach Mitwirkenden "Kiesel, Jens"

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    • A guideline for spatio‐temporal consistency in water quality modelling in rural areas 

      Fohrer, NicolaORCIDiD; Wagner, Paul D.ORCIDiD; Kiesel, JensORCIDiD; Haas, Marcelo; Guse, BjörnORCIDiD (Hydrological Processes, 2022-11-01)
      To summarize, we suggest a guideline for water quality modelling: 1. Spatial and temporal patterns of land use and land management are critical to adequately represent water quality in models. Remote sensing and land ...

    • Revisiting global trends in freshwater insect biodiversity 

      Jähnig, Sonja C.ORCIDiD; Baranov, ViktorORCIDiD; Altermatt, FlorianORCIDiD; Cranston, PeterORCIDiD; Friedrichs‐Manthey, Martin; Geist, JuergenORCIDiD; He, FengzhiORCIDiD; Heino, JaniORCIDiD; Hering, Daniel; Hölker, FranzORCIDiD; Jourdan, JonasORCIDiD; Kalinkat, GregorORCIDiD; Kiesel, JensORCIDiD; Leese, FlorianORCIDiD; Maasri, AlainORCIDiD; Monaghan, Michael T.ORCIDiD; Schäfer, Ralf B.ORCIDiD; Tockner, KlementORCIDiD; Tonkin, Jonathan D.ORCIDiD; Domisch, SamiORCIDiD (Wiley Interdisciplinary Reviews: Water, 2020-12-31)
      A recent global meta‐analysis reported a decrease in terrestrial but increase in freshwater insect abundance and biomass (van Klink et al., Science 368, p. 417). The authors suggested that water quality has been improving, ...

    • Streamflow-based evaluation of climate model sub-selection methods 

      Kiesel, JensORCIDiD; Stanzel, Philipp; Kling, HaraldORCIDiD; Fohrer, NicolaORCIDiD; Jähnig, Sonja C.ORCIDiD; Pechlivanidis, IliasORCIDiD (Climatic Change, 2020-10-10)
      The assessment of climate change and its impact relies on the ensemble of models available and/or sub-selected. However, an assessment of the validity of simulated climate change impacts is not straightforward because ...

    • When is a hydrological model sufficiently calibrated to depict flow preferences of riverine species? 

      Kiesel, JensORCIDiD; Kakouei, Karan; Guse, BjörnORCIDiD; Fohrer, NicolaORCIDiD; Jähnig, Sonja C.ORCIDiD (Ecohydrology, 2020-01-30)
      Riverine species have adapted to their environment, particularly to the hydrological regime. Hydrological models and the knowledge of species preferences are used to predict the impact of hydrological changes on species. ...