Multi-temporal analysis of the role of check dams in a debris-flow channel: Linking structural and functional connectivity

Check dams represent one of the most common hydraulic engineering solution to manage debris-flow risk. However, the design of these structures only rarely considers their impact on sediment connectivity and sediment fluxes, both at the channel reach and catchment scale. In the last two decades, High...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2019-11, Vol.345, p.106844, Article 106844
Main Authors: Cucchiaro, Sara, Cazorzi, Federico, Marchi, Lorenzo, Crema, Stefano, Beinat, Alberto, Cavalli, Marco
Format: Article
Language:English
Subjects:
Check dam
Debris flow
DoD
Index of Connectivity
Multi-temporal analysis
Sediment connectivity
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Summary:Check dams represent one of the most common hydraulic engineering solution to manage debris-flow risk. However, the design of these structures only rarely considers their impact on sediment connectivity and sediment fluxes, both at the channel reach and catchment scale. In the last two decades, High-Resolution Topography (HRT) provided fundamental data to analyse the morphology evolution of landscapes through the realization of sequential DTMs (Digital Terrain Models) and DTMs of Difference (DoDs). In the context of mountain catchments, HRT offers essential information on the evolution of erosion and deposition patterns and allows the application of multi-temporal geomorphometric indexes that can enrich the DoDs analysis with important data as the assessment of sediment connectivity. In this research, multi-temporal LiDAR-derived DTMs were used to derive DoDs and to perform a multi-temporal analysis of an index of sediment connectivity (IC) in three reaches of a debris-flow channel (Moscardo torrent, eastern Italian Alps) where several check dams have been built over time. The research aims at outlining the effects of torrent control works on sediment dynamics in steep channels affected by frequent debris flows. The integration of the difference of IC with DoD maps allowed quantifying the impact of newly built check dams on changes in sediment pathways and related erosion processes, highlighting a close relationship between structural and functional connectivity: in areas where erosive processes prevailed, there were increases in connectivity, while deposition areas showed a decrease of IC. The geomorphometric analyses show that the new check dams have affected the sediment transfer along the main channel but also the hillslope-to-channel connectivity by altering sediment pathways. In the Moscardo torrent, however, the strong impact of these structures on sediment transfer is not matched by long-term effectiveness in debris-flow control. •This work investigates the impact of check dams on changes in sediment dynamics.•Multi-temporal surveys allowed the assessment of check dams effectiveness.•DoD and sediment connectivity analysis provided insights for improved structure design.•Channel control works have an impact on sediment connectivity through time.•In the case study, the built check dams do not represent a long-term answer for debris-flow control.
ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2019.106844