Abstract
The morphological evolution of tidal flats has been widely investigated in recent years as it represents a very important topic which is highly related to the climate-driven environmental changes. The period over which geomorphological changes can be noted is a multi-year up to pluri-decennial time scale, defined as medium-long period. This work presents a new conceptual model which is able to predict and estimate a limit depth between an erosion condition and a no-erosion condition for tidal flats. The domains of applicability are shallow and confined basins, where tidal flats are characterized by near-horizontal topography, as occurs inside lagoons. The theoretical approach provides a general equation which relates the limit depth of tidal flats to current velocity and critical erosion shear stress. The procedure, followed through to its development, takes into account the important role of the bottom friction dissipation in wind wave generation process for shallow water. The relationship between tidal flat depth, current velocity and critical shear stress is provided in three different configurations, depending on the direction of the wave motion compared to the current. The limit depth compared to the measured depth can suggest if tidal flats tend or not towards an erosion state over a medium-long period. In this sense, the conceptual model provides a relevant contribution to the comprehension of morphodynamics of these important environments. This approach has been validated with its application to a real context and the results are provided in the paper.
Highlights
Tidal flat landforms in coastal and estuarine systems include a great variety of environments, which are constantly shaped by complex physical and biological factors [1,2]
In this paper a new simple conceptual model has been proposed in order to investigate the dynamic equilibrium of a tidal flat over a medium-long period
The theoretical approach provides a quantitative estimation of a limit depth, which separates an erosion condition from a no-erosion condition for tidal flats in sheltered basins
Summary
Tidal flat landforms in coastal and estuarine systems include a great variety of environments, which are constantly shaped by complex physical and biological factors [1,2]. According to Friedrichs [5], sediment transport mechanisms induced by tides and waves involve the gradual morphological transition beyond low tide level. For this reason, in this paper the term “tidal flats” is used in its dynamic meaning, which includes both the actual tidal-flats, in the strict sense, and the sub-tidal flats. In this paper the term “tidal flats” is used in its dynamic meaning, which includes both the actual tidal-flats, in the strict sense, and the sub-tidal flats Due to their particular nature, tidal flats are fundamental to estuarine and lagoon morphodynamics and their ecological and socio-economic importance is widely recognized [14,15,16].
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