Modern comprehensive approach to monitor the morphodynamic evolution of a restored river corridor
- 1Institute of Env. Engineering, ETH Zurich, Zurich, Switzerland
- 2Group of Applied HydroEconomics and Alpine environmental Dynamics, Institute of Environmental Engineering, EPFL-ENAC, Lausanne, Switzerland
- 3EAWAG, Swiss Federal Institute of Aquatic Science and Technology, Duebendorf, Switzerland
- 4WSL, Swiss Federal Institute for Forest, Snow and Landscape Research, Birmensdorf, Switzerland
- 5Dept. of computer Sciences, University of Twente, Twente, The Netherlands
Abstract. River restoration has become a common measure to repair anthropogenically-induced alteration of fluvial ecosystems. The inherent complexity of ecohydrologic systems leads to limitations in understanding the response of such systems to restoration over time. Therefore, a significant effort has been dedicated in the recent years worldwide to document the efficiency of restoration actions and to produce new effective guidelines that may help overcoming existing deficiencies. At the same time little attention was paid to illustrate the reasons and the use of certain monitoring and experimental techniques in spite of others, or in relation to the specific ecohydrologic process being investigated. The purpose of this paper is to enrich efforts in this direction by presenting the framework of experimental activities and the related experimental setup that we designed and installed in order to accomplish some of the research tasks of the multidisciplinary scientific project RECORD (Restored Corridor Dynamics). Therein, we studied the morphodynamic evolution of the restored reach of the River Thur near Niederneunforn (Switzerland), also in relation to the role of pioneer vegetation roots in stabilizing the alluvial sediment. In this work we describe the methodology chosen for monitoring the river morphodynamics, the dynamics of riparian and of in-bed vegetation and their mutual interactions, as well as the need of complementing such observations with experiments and with the hydraulic modeling of the site. We also discuss how the designed installation and the experiments integrate with the needs of other research groups within the project, in particular providing data for a number of investigations thereby including surface water and groundwater interactions, soil moisture and vegetation dynamics.