The direction of landscape erosion

Abstract: Abstract. The rate of erosion of a landscape depends largely on local gradient and material fluxes. Since both quantities are functions of the shape of the catchment surface, this dependence constitutes a mathematical straitjacket, in the sense that – subject to simplifying assumptions about the erosion process, and absent variations in external forcing and erodibility – the rate of change of surface geometry is solely a function of surface geometry. Here we demonstrate how to use this geometric self-constrain… Show more

“…Similar to the eikonal model, there are several studies using geometric constraints on surface slopes for delta shoreline evolution (Kim & Muto, 2007; Lorenzo‐Trueba & Voller, 2010; Lorenzo‐Trueba et al., 2012; Swenson et al., 2000). Other variations include using the Hamilton–Jacobi equation (the eikonal equation is a static Hamilton–Jacobi equation) to model fluvial knickpoint propagation (Luke, 1972, 1974; Weissel & Seidl, 1998), the evolution of 1D vertical incision fronts (Aronsson & Linde, 1982) and surface transects along stream profiles (Stark & Stark, 2022). Other than the related concept of excess topography (Blöthe et al., 2015), this work presents a novel application of the eikonal equation to characterize landscapes dominated by threshold hillslopes.…”

Eikonal Equation Reproduces Natural Landscapes With Threshold Hillslopes

“…Similar to the eikonal model, there are several studies using geometric constraints on surface slopes for delta shoreline evolution (Kim & Muto, 2007; Lorenzo‐Trueba & Voller, 2010; Lorenzo‐Trueba et al., 2012; Swenson et al., 2000). Other variations include using the Hamilton–Jacobi equation (the eikonal equation is a static Hamilton–Jacobi equation) to model fluvial knickpoint propagation (Luke, 1972, 1974; Weissel & Seidl, 1998), the evolution of 1D vertical incision fronts (Aronsson & Linde, 1982) and surface transects along stream profiles (Stark & Stark, 2022). Other than the related concept of excess topography (Blöthe et al., 2015), this work presents a novel application of the eikonal equation to characterize landscapes dominated by threshold hillslopes.…”

Eikonal Equation Reproduces Natural Landscapes With Threshold Hillslopes

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