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Total water level controls on the trajectory of dune toe retreat

Matthew P. Conlin, Nicholas Cohn, P. N. Adams

2023Geomorphology16 citationsDOIOpen Access PDF

Abstract

This study examines the trajectory (slope) of coastal foredune toe retreat in response to nine storm events that impacted the Outer Banks, North Carolina, USA. High resolution, three-dimensional, repeat mobile terrestrial lidar observations over a four kilometer stretch of coast were used to assess spatiotemporal beach and dune evolution at the storm timescale. Consistent with existing field observations from other sandy coastlines, an upward toe retreat was observed for most instances of dune retreat in the Outer Banks. However, these new topographic data indicate that the retreat can proceed steeply downward when the maximum total water level (TWL) defined by the 2% runup exceedance level is not high enough, for long enough, to erode the dune face. Non-linear relationships were found between the dune toe retreat trajectory as well as both the magnitude and duration of TWL above the dune toe, where instances of upward- and downward-directed retreat are best differentiated using the 7% runup exceedance level, rather than the commonly used 2% level. This physically justified non-linear relationship is shown to be consistent with observations from other studies, and could be a more effective parameterization for the retreat trajectory than those currently implemented in wave-impact dune erosion models.

Topics & Concepts

GeologyForeduneStormTrajectoryErosionMagnitude (astronomy)High resolutionGeomorphologyOceanographyAeolian processesRemote sensingAstronomyPhysicsCoastal and Marine DynamicsAeolian processes and effectsCoastal wetland ecosystem dynamics
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