Abstract
The accelerated sediment supply from agricultural soils to riverine and lacustrine environments leads to negative off-site consequences. In particular, the sediment connectivity from agricultural land to surface waters is strongly affected by landscape patchiness and the linear structures that separate field parcels (e.g. roads, tracks, hedges, and grass-buffer-strips). Understanding the feedbacks between these structures and sediment transfer is therefore crucial for minimising off-site erosion impacts. Although soil erosion models can be used to understand lateral sediment transport patterns, model-based connectivity assessments are hindered by the uncertainty in model structures and input data. In particular, the representation of linear landscape features in numerical soil redistribution models is often compromised by the spatial resolution of the input data and the quality of the process descriptions. Here we adapted the WaTEM/SEDEM model using high resolution spatial data (2 m × 2 m) to analyse the sediment connectivity in a very patchy mesoscale catchment (73 km2) of the Swiss Plateau. Specifically, we used a global sensitivity analysis to explore model structural assumptions about how linear landscape features (dis)connect the sediment cascade. Furthermore, we compared model simulations of hillslope sediment yields from five sub-catchments to tributary sediment loads, which were calculated with long-term water discharge and suspended sediment measurements. Our results showed that roads were the main regulators of sediment connectivity in the catchment. In particular, the sensitivity analysis revealed that the assumptions about how the road network (dis)connects the sediment transfer from field-blocks to water courses had a much higher impact on modelled sediment yields than the uncertainty in model parameters. Moreover, model simulations showed a higher agreement with tributary sediment loads when the road network was assumed to directly connect sediments from hillslopes to water courses. Our results ultimately illustrate how a high-density road network combined with an effective drainage system increase sediment connectivity from hillslopes to surface waters in this representative catchment of the Swiss Plateau. This further highlights the importance of considering linear structures in soil erosion and sediment connectivity models.
Highlights
Our quantitative model-based approach highlighted the importance of roads inconnecting sediment fluxes between landscape compartments and surface waters in patchy agricultural catchments, which are typical of the Swiss Plateau
We employed a global sensitivity analysis of the WaTEM/SEDEM model to investigate the influence of linear structures and landscape patchiness on sediment connectivity in the Baldegg catchment, a representative area of Swiss Plateau
WaTEM/SEDEM was implemented with the free programing language R, and our code is available as supplementary material
Summary
Rainfall events on sloped surfaces continuously displace small amounts of soil, which are transported downslope as sediments. These sediments are stored and remobilised several times before conceivably reaching surface waters. The sediment cascade is a natural and potentially long geomorphological process (Fryirs, 2013). The accelerated sediment supply from agricultural soils to riverine and lacustrine environments leads to negative off-site consequences. Extreme erosion events in agricultural fields are linked to the occurrence of muddy floods (Boardman, 2020) and to damages to downstream infra-structure (Bauer et al, 2019). Understanding how and when sediment is transferred from agricultural fields to different landscape compartments is imperative to reduce off-site erosion impacts
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