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    • Baldan, D, Chattopadhyay, S, Prus, P, Funk, A, Keller, A, Piniewski, M. (2022) Regionalization strategy affects the determinants of fish community structure. Ecohydrology. 2022;  https://doi.org/10.1002/eco.2425
    • Bondar-Kunze, E., Funk, A., Haidvogl, G. et al. Der Meta-Ökosystem Ansatz in der Praxis – Integration von hydromorphologischen Veränderungen und menschlichen Eingriffen in die Meta-Ökosystem-Theorie zur Entwicklung eines nachhaltigen Flussmanagements an der österreichischen Donau. Österr Wasser- und Abfallw 74, 501–509 (2022). https://doi.org/10.1007/s00506-022-00893-2
    • Damiano Baldan, David Cunillera-Montcusí, Andrea Funk, Thomas Hein, Introducing ‘riverconn’: an R package to assess river connectivity indices,
      Environmental Modelling & Software, Volume 156, 2022, 105470, ISSN 1364-8152, https://doi.org/10.1016/j.envsoft.2022.105470
    • Eder M, Perosa F, Hohensinner S, Tritthart M, Scheuer S, Gelhaus M, Cyffka B, Kiss T, Van Leeuwen B, Tobak Z, Sipos G, Csikós N, Smetanová
      A, Bokal S, Samu A, Gruber T, Gălie A-C, Moldoveanu M, Mazilu P, Habersack H. How Can We Identify Active, Former, and Potential
      Floodplains? Methods and Lessons Learned from the Danube River. Water. 2022; 14(15):2295. https://doi.org/10.3390/w14152295
    • Hohensinner, S., Grupe, S., Klasz, G., & Payer, T. (2022). Long-term deposition of fine sediments in Vienna’s Danube floodplain
      before and after channelization. Geomorphology, 398, 108038. https://doi.org/10.1016/j.geomorph.2021.108038
    • Meulenbroek, P., Hein, T., Friedrich, T. et al. Sturgeons in large rivers: detecting the near-extinct needles in a haystack via eDNA metabarcoding from water samples.
      Biodivers Conserv 31, 2817–2832 (2022). https://doi.org/10.1007/s10531-022-02459-w
    • Panchan, R. Pinter, K. Schmutz, S. Unfer, G. (2022) Seasonal migration and habitat use of adult barbel (Barbus barbus) and nase (Chondrostoma
      nasus) along a river stretch of the Austrian Danube River. Environmental Biology of fishes, 105(11), 1601-1616.

      Christian Doppler Research Association

      The Christian Doppler Research Association promotes the cooperation between science and business. Specifically, this takes place in specially established research units with fixed terms, in which application-orientated basic research is pursued: Christian Doppler Laboratories at universities and non-university research institutions, Josef Ressel Centres at universities of applied sciences.

      Under the direction of highly qualified scientists, research groups work in close contact with the commercial partners on innovative responses to business-related research issues.

      Christian Doppler Laboratories

      The CD model enables cooperations between science and business that are meaningful, useful and productive both for the participating partners and for society. The cooperations are generally structured in the following way: The research group elaborates fundamental knowledge that flows into the development of new products and processes at the commercial partner. A brisk exchange of knowledge, experience and questions between the partners prevails throughout the collaboration. This type of research cooperation therefore differs fundamentally from contract research.

      CD Laboratories keep the companies up to date with new scientific developments through their integration into the scientific community. They therefore also perform a ‘radar function’ for the commercial partners. In order for this role to function optimally, the scientific freedom available in the CD Laboratories is of decisive importance: it enables the researchers to collaborate actively at the leading edge of research during the entire duration of the CD Laboratory.