How to Cite
IMPLICATIONS OF SPATIAL GRAIN SIZE VARIABILITY FOR AEOLIAN TRANSPORT. (2023). Coastal Engineering Proceedings, 37, sediment.49. https://doi.org/10.9753/icce.v37.sediment.49
Abstract
Coastal dunes are crucial for coastal protection, habitat development and recreation. In recent years, their strength as a long-term building with nature approach has been explored in engineering projects. To improve implementation strategies, prediction of the development of the dune system is necessary. Aeolian sediment transport models may aid in informed design and decision-making. However, many aspects of aeolian sediment transport models need a thorough understanding to give reliable predictions. This research particularly focuses on grain size and assesses its effects on aeolian sediment transport at varying spatial and temporal scales. The aim is to provide recommendations on the relevance of spatial grain size variations in aeolian sediment transport modelling for coastal maintenance applications. For this purpose, we apply the aeolian sediment transport model AeoLiS, which allows for multi-fraction transport simulations (Hoonhout, 2017).References
Hallin et al. (2019): Longshore transport variability of beach face grain size: Implications for dune evolution, Journal of coastal research, 35(4), 751-764.
Hoonhout, de Vries (2017): Simulating spatiotemporal aeolian sediment supply at a mega nourishment, Coastal engineering, 145, 21-35.
Van IJzendoorn et al. (2022): Novel sediment sampling method provides new insights into vertical variability of grain size distribution resulting from marine and aeolian processes on the beach, In Review.
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Copyright (c) 2023 Christa van Ijzendoorn, Caroline Hallin, Sierd de Vries