Morphodynamic Evolution of Post-Nourishment Beach Scarps in Low-Energy and Micro-Tidal Environment

Beach scarps are commonly associated with nourishment. Large and persistent beach scarps not only affect the performance of beach nourishment, but also are safety hazards to tourists. In this study, the morphological evolution of beach scarps was examined at a nourished beach in a low-energy and micro-tidal environment. Topographic surveys of nine beach profiles were carried out every 3-6 months after nourishment, lasting for nearly 4.5 years, combined with observed and simulated hydrodynamic data. The results showed that beach scarps were extensively developed after nourishment and migrated landward gradually. The formation of beach scarps was attributed to the higher designed berm, while the migration was possibly initiated by the subsequent higher total water level connected with the irregular tides. However, scarps were completely removed by the first post-nourishment severe storm and had been long absent ever since although two other energetic storms approached. This was different from the result of previous studies, which could be attributed to the much gentler upper beach slope. These results highlighted that the first post-nourishment storm played a key role in the evolution of beach scarps at low-energy and micro-tidal nourished beaches. This study also proposed two methods of determining berm elevation in beach nourishment according to China's experiences, which would be helpful for other countries' beach nourishment projects.

Automated summary

This study examined the morphological evolution of beach scarps at a nourished beach in a low-energy and micro-tidal environment, revealing that beach scarps were extensively developed after nourishment and gradually migrated landward. The first post-nourishment severe storm completely removed the scarps, which did not reoccur despite subsequent energetic storms. This highlights the key role of the first post-nourishment storm in the evolution of beach scarps at low-energy and micro-tidal nourished beaches.