Modelling the effects of tidal range and initial bathymetry on the morphological evolution of tidal embayments

Tidal embayments are characterized by a wide variety of landscape features, often including either complex tidal channel networks or extensive flood-tidal deltas. The origin of these features and the influence of hydrodynamic drivers and initial geological setting on their long-term characteristics...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2013-06, Vol.191, p.23-34
Main Authors: van Maanen, B., Coco, Giovanni, Bryan, K.R.
Format: Article
Language:English
Subjects:
Basins
Channel networks
Channels
Computer simulation
Earth sciences
Earth, ocean, space
environmental factors
Exact sciences and technology
Fluid flow
Geomorphology, landform evolution
Hydrodynamics
landscapes
littoral zone
Marine and continental quaternary
Mathematical models
Morphodynamics
Morphology
Networks
Numerical modelling
sediment transport
Surficial geology
Tidal embayments
topography
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Summary:Tidal embayments are characterized by a wide variety of landscape features, often including either complex tidal channel networks or extensive flood-tidal deltas. The origin of these features and the influence of hydrodynamic drivers and initial geological setting on their long-term characteristics are essentially unexplored. A model was applied to simulate the long-term morphological evolution of tidal embayments, with the purpose of providing insight into the environmental conditions that lead to the differences in tidal embayment morphology. Numerical simulations indicated that the interaction between hydrodynamics, sediment transport, and the evolving topography gives rise to the formation of channel networks. The tidal range and the depth of the initially unchannelized tidal basin controlled the way in which the morphology evolved and determined the timescale over which channels and intertidal areas developed. Channel network formation occurred more rapidly when the tidal range increased and/or when the initial basin depth decreased. Tidal basins with a large initial depth showed the development of a flood-tidal delta and for these deep basins channel incision could remain absent over long timescales. Both tidal range and initial bathymetry affected final basin hypsometry and channel network characteristics, including the channel density and the fraction of the basin occupied by the channels. All the simulated morphologies, with different combinations of the tidal range and depth of the basin, evolved towards a state of less morphodynamic activity for which the relative intertidal area was proportional to the ratio of tidal amplitude to basin depth. •A model was developed to simulate the morphodynamic evolution of tidal embayments.•Tidal range and initial basin depth control the evolution and basin characteristics.•The model simulates the formation of both channel networks and flood-tidal deltas.
ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2013.02.023