Ground motions on rocky, cliffed, and sandy shorelines generated by ocean waves

We compare ground motions observed within about 100 m of the waterline on eight sites located on shorelines with different morphologies (rock slope, cliff, and sand beaches). At all sites, local ocean waves generated ground motions in the frequency band 0.01–40 Hz. Between about 0.01 and 0.1 Hz, foreshore loading and gravitational attraction from ocean swell and infragravity waves drive coherent, in‐phase ground flexing motions mostly oriented cross‐shore that decay inland. At higher frequencies between 0.5 and 40 Hz, breaking ocean waves and wave‐rock impacts cause ground shaking. Overall, seismic spectral shapes were generally consistent across shoreline sites and usually within a few orders of magnitude despite the diverse range of settings. However, specific site response varied and was influenced by a combination of tide level, incident wave energy, site morphology, ground composition, and signal decay. Flexing and shaking increased with incident wave energy and was often tidally modulated, consistent with a local generation source. Flexing magnitudes were usually larger than shaking, and flexing displacements of several mm were observed during relatively large incident wave conditions (Hs 4–5 m). Comparison with traffic noise and earthquakes illustrate the relative significance of local ocean‐generated signals in coastal seismic data. Seismic observations are not a simple proxy for wave‐cliff interaction. Key Points Ocean waves generate ground flexing and shaking at eight diverse coastal sites Wave breaking, impacts on rock, and foreshore loading generate ground motion Tide, waves, site composition, morphology, and decay influence site response