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CAOS - Teilprojekt G "Hydrological Connectivity and its controls on hillslope and catchment scale stream flow generation"

Description of the project:
Hydrological hillslope connectivity often underlies temporal and spatial of climate driven dynamics. It is expected that different Dynamic Functional Units (DFUs) show diverse dynamic patterns. DFUs are characterized by the environmental factors of hillslope aspect, hillslope position, land use and geology. It is expected that the dynamic of the stream network driven by precipitation and radiation will have specific behavior in each DFU. The Process of changing connectivity will be monitored in the Attert basin using a time-lapse camera network. This enables the identification of different characteristics in DFUs under equal climatic boundary conditions. The observed behavior in the obtained data will be transferred to model the dynamics of the stream network in the hydrological model RoGeR.

Additional information: http://www.hydro.uni-freiburg.de/
contact person: Weiler, Prof. Dr. Markus
Phone: +49(0)761 203 3535
Email: markus.weiler@ydrology.uni-freiburg.de, gessler@zalf.de
Runtime:
Start of project: 01.12.2014
End of project: 30.11.2019
Project Management:
Albert-Ludwigs-University Freiburg
Weiler M
Professur für Hydrologie

Friedrichstrasse 39
79098 Freiburg i. Br.
Germany

Phone: +49(0)761-203-3530
Fax: +49(0)761-203-3994
Email: hydrology@hydrology.uni-freiburg.de
http://www.hydro.uni-freiburg.de
Actual Research Report

Contributors:
  • Kaplan N
Financing:
  • Deutsche Forschungsgemeinschaft, DFG
Keywords:
    Räumliche und zeitliche Dynamik der Ausbreitung von Flusssystemen, Time-Lapse Kamera Monitoring, Attert Einzugsgebiet, Hortonscher Oberflächenabfluss, RoGeR-Modell