Wave runup parameterization for sandy, gravel and platform beaches in a fetch-limited, large estuarine system

Abstract Empirical models of wave runup are commonly derived from open beaches, but their applicability in fetch-limited, sheltered environments are yet to be properly assessed. Based on original video-derived runup observations on 5 beaches with distinct morphodynamic states in the Estuary and Gulf of St. Lawrence (EGSL), this paper presents a runup analysis at the regional scale. A wide range of environmental parameters (varying wave climate, beach slopes, tidal range) and beach types (platform-beach, with and without nearshore bars, sandy/gravel) are considered. A total of 430 15 min. timestacks have been analyzed over 35 different days across a 3-year survey. Runup, setup, incident (f > 0.05 Hz) and infragravity (f R 2 % for the EGSL beaches have been validated against a new set of observations. Overall, the hydrodynamic forcing is the dominant driver of wave runup, but including the beach slope improves the understanding of the runup components. The original formulations offer a strong potential for runup assessment on various morphological fetch-limited coastal environments.