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Morphodynamic adaptation of a tidal basin to centennial sea-level rise: the importance of lateral expansion
Guo, L.; Xu, F.; Van der Wegen, M.; Townend, I.; Wang, Z.B.; He, Q. (2021). Morphodynamic adaptation of a tidal basin to centennial sea-level rise: the importance of lateral expansion. Cont. Shelf Res. 226: 104494. https://dx.doi.org/10.1016/j.csr.2021.104494
Peer reviewed article  

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Author keywords
    Tidal basin; Sea-level rise; Accommodation space; Morphodynamic modeling

Auteurs  Top 
  • Guo, L.
  • Xu, F.
  • Van der Wegen, M., meer
  • Townend, I.
  • Wang, Z.B., meer
  • He, Q.

Abstract
    Global climate changes have accelerated sea-level rise (SLR), which exacerbates the risks of coastal flooding and erosion. It is of practical interest to understand the long-term hydro-morphodynamic adaptation of coastal systems to SLR at a century time scale. In this work we use a numerical model to explore morphodynamic evolution of a schematized tidal basin in response to SLR of 0.25–2.0 m over 100 years with special emphasis on the impact of lateral basin expansion. Starting from a sloped initial bed, morphodynamic development of the system leads to the formation of alternating bars and meandering channels inside the tidal basin and an ebb-tidal delta extending seaward from the basin. Imposing rising sea level causes progressive inundation of the low-lying floodplains, found along the basin margins, inducing an increase in basin plain area and tidal prism, as well as intertidal area and storage volume. Although the overall channel-shoal structure persists under SLR, lateral shoreline expansion alters the basin hypsometry, leading to enhanced sediment export. The newly-submerged floodplains partly erode, supplying sediment to the system for spatial redistribution, hence buffering the impact of SLR. The vertical accretion rate of the tidal flats inside the tidal basin lags behind the rate of SLR. However, lateral shoreline migration under SLR creates new intertidal flats, compensating intertidal flat loss in the original basin. In contrast, a constrained tidal basin without low-lying floodplains is subject to profound drowning and tidal flat losses under SLR. Overall, the model results suggest that an unconstrained tidal system allowing lateral shoreline migration has buffering capacity for alleviating the drowning impact of SLR by evolving new intertidal areas, sediment redistribution and morphodynamic adjustment. These findings suggest that preserving tidal flats located along the margins of tidal basins (instead of reclaiming them) sustains the system's resilience to SLR.

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