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Understanding coastal resilience of the Belgian West Coast
Verwaest, T.; Dujardin, A.; Montreuil, A.-L.; Trouw, K. (2022). Understanding coastal resilience of the Belgian West Coast. Water 14(13): 2104. https://dx.doi.org/10.3390/w14132104
In: Water. MDPI: Basel. e-ISSN 2073-4441
Peer reviewed article  

Beschikbaar in  Auteurs 
  • VLIZ: Open access 381177 [ download pdf ]
  • Waterbouwkundig Laboratorium: Open Repository 378539 [ OWA ]

Trefwoorden
    Coastal protection > Coastal protection against erosion > Morphodynamics soft coastal defences
    Literature and desktop study
    Numerical modelling
    Marien/Kust
Author keywords
    Coastal resilience; Shoreface-connected ridge; Sea level rise; 1D coastline model

Project Top | Auteurs 
  • Opmaak kustlijnmodellen westkust

Auteurs  Top 
  • Verwaest, T.
  • Dujardin, A.
  • Montreuil, A.-L.
  • Trouw, K.

Abstract
    Topobathymetric monitoring carried out in the past 30 years revealed that the amount of sand in the active zone of the Belgian West Coast increased substantially. Correcting for sand works carried out, the rate of natural feeding of the area was estimated to be 10 mm/year, which is significantly more than the local sea level rise rate of 2 to 3 mm/year. One concludes that this coastal zone, with a length of ca. 16 km, has shown a natural resilience against sea level rise. The question remains which processes govern this behavior and where natural input of sand to the system occurs. Using available coastal monitoring data for the Belgian coast, as well as a state-of-the-art sand transport model, revealed that different processes drive a cross-shore natural feeding from offshore to the coastline. The spatial distribution of this cross-shore natural feeding is determined by the existence of a gully-sand bank system. The outcome of this research was a conceptual model for the large-scale sand exchange in the study area which is implemented in an 1D coastline model. The most important element in these models was the cross-shore natural feeding of the active zone via a shoreface connected ridge amounting to 95,000 m3/year in the period 2000–2020.

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