Abstract
AbstractDistinct bankline patterns appeared after the removal of protection works along a navigable reach of the Meuse River. A series of oblique embayments now dominate the riverine landscape after ten years of bank erosion, but their location and asymmetry cannot be explained yet. This work analyses and integrates field measurements of flow, ship waves, bank composition, bed topography and historical maps to explain the observed patterns along two reaches of the river. An extraordinary low‐water‐level event generated by a ship accident provided the unique opportunity to also analyse the subaqueous bank topography.The results indicate that the formation of oblique embayments arises from the combination of floodplain heterogeneity, structured by scroll‐bar deposits, and the regulation of water levels, resulting in ship‐wave attack at a narrow range of bank elevation for 70% of the time. Substrate erodibility acts on the effectiveness of trees to slow down local bank erosion rates, which is possibly enhanced by a positive feedback between woody roots and cohesive soil. The strong regulation of water levels and the waves generated by the intense ship traffic produce an increasingly long mildly‐sloping terrace at the bank toe and progressively dominate the bank erosion process. This study demonstrates the important role of floodplain and scroll bar formation in shaping later bank erosion, which has implications for predictive numerical models, restoration strategies, and understanding the role of vegetation in bank erosion processes. © 2019 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd
Highlights
Since the EU Water Framework Directive (WFD, 2000) several measures have been taken to improve the water quality and habitat diversity of European rivers (Kallis and Butler, 2001; Pearce, 2013; RESTORE, 2018)
Distinct bankline patterns, presenting several oblique embayments with different angulations, arose along two reaches of the Meuse River after removing bank protections. We analysed these patterns by considering the processes and factors affecting bank erosion rates in the study area
The results show that floodplain heterogeneity controls the bankline irregularities in magnitude and orientation, in combination with ship waves hitting the bank at regulated water levels
Summary
Since the EU Water Framework Directive (WFD, 2000) several measures have been taken to improve the water quality and habitat diversity of European rivers (Kallis and Butler, 2001; Pearce, 2013; RESTORE, 2018). In the Netherlands, the Meuse River constitutes a unique case where 40 km of banks had their protection works removed between 2008 and 2016. The river functions as an important waterway with water levels regulated by weirs. The implementation of this large-scale bank re-naturalisation project comprises different phases. The first one, finalized in 2018, serves as a reference for the phases until 2027, when the restoration works will conclude. In this context, the monitoring and understanding of the morphological evolution and ecological development of the restored banks is crucial to gain knowledge to improve the impacts of further operations
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