Print Email Facebook Twitter A Synthetic Spring-Neap Tidal Cycle for Long-Term Morphodynamic Models Title A Synthetic Spring-Neap Tidal Cycle for Long-Term Morphodynamic Models Author Schrijvershof, R. A. (Wageningen University & Research; Deltares) van Maren, D.S. (TU Delft Environmental Fluid Mechanics; Deltares; East China Normal University) Torfs, P. J. J. F. (Wageningen University & Research) Hoitink, A. J. F. (Wageningen University & Research) Date 2023 Abstract Existing tidal input reduction approaches applied in accelerated morphodynamic simulations aim to capture the dominant tidal forces in a single or double representative tidal cycle, often referred to as a “morphological tide.” These strongly simplified tidal signals fail to represent the tidal extremes and hence poorly allow to represent hydrodynamics in the intertidal areas. Here, a generic method is developed to construct a synthetic spring-neap tidal cycle that (a) represents the original signal; (b) is exactly periodic; and (c) is derived directly from tidal time series or harmonic constituents. The starting point is a fortnightly modulation of the semidiurnal tide to represent spring-neap variations, while conserving periodicity. Diurnal tides and higher harmonics of the semidiurnal tide are included to represent the asymmetry of the tide. The amplitudes and phases of the synthetic signal are then fitted to histograms of water levels and water level gradients derived from the original sea surface elevation time series. A depth-averaged model of the Ems estuary (The Netherlands) demonstrates the effects of alternative tidal input reduction techniques. Adopting the new approach, the along-estuary variation in tidal wave shape is well-represented, leading to an improved representation of extreme tidal conditions. Especially the more realistic representation of intertidal dynamics improves the overall hydrodynamics and residual sand transport patterns, approaching nonschematized tidal dynamics. Subject Delft3D-FMintertidal dynamicslong-term morphodynamic modelingresidual sediment transporttidal input reduction To reference this document use: http://resolver.tudelft.nl/uuid:9128ebb6-a40f-4fff-b58b-4ed376f7b0ff DOI https://doi.org/10.1029/2022JF006799 ISSN 2169-9003 Source Journal of Geophysical Research: Earth Surface, 128 (3) Part of collection Institutional Repository Document type journal article Rights © 2023 R. A. Schrijvershof, D.S. van Maren, P. J. J. F. Torfs, A. J. F. Hoitink Files PDF JGR_Earth_Surface_2023_Sc ... Models.pdf 4.91 MB Close viewer /islandora/object/uuid:9128ebb6-a40f-4fff-b58b-4ed376f7b0ff/datastream/OBJ/view