An Integrated Approach to Study the Morphodynamics of the Lignano Tidal Inlet

Petti, Marco; Bosa, Silvia; Pascolo, Sara; Uliana, Erika

doi:10.3390/jmse8020077

Cited by 14 publications

(18 citation statements)

References 45 publications

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“…The inlet shape can in turn directly affect the hydrodynamic field in the enclosed basin in terms of current velocities and tidal level amplitudes, and therefore sediment transport. This is the case for the Lignano tidal inlet, one of the six inlets of the Marano and Grado lagoon, in the northern Adriatic Sea in Italy, which has undergone important morphological changes over the last four decades [4,16]. The construction of the protective pier of Marina Punta Faro located on the internal side of the Lignano inlet resulted in a narrowing of the inlet itself.…”

Section: Introductionmentioning

confidence: 99%

On the Tidal Prism: The Roles of Basin Extension, Bottom Friction and Inlet Cross-Section

Petti

Pascolo

Bosa

et al. 2021

JMSE

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The prism of the Lignano tidal inlet was approximately constant over the last forty years, although the section width has halved. This has led to questions concerning the factors that most influence the tidal prism, and on the applicability of the well-known A–P relationship. A conceptual scheme of the sea–channel–lagoon system has been used to perform a sensitivity analysis of different parameters that characterize both the basin and the inlet cross-section. A 2D hydrodynamic model has been applied to evaluate the prism and compare it to the one derived by a static method, which is the basis of the analytical derivation of the A–P linkage. Three regimes have been found in the prism variability as a function of the basin extension: a linear static regime between prism and basin area; an asymptotic regime in which the prism depends only on the basin bottom friction; and an intermediate one. In addition, the roles of the inlet and channel sizes on the prism value have been investigated. The results, compared to the empirical relationships between the prism and the inlet cross-section, show that a variation in the cross-sectional area does not always corresponds to a change in tidal prism.

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Section: Introductionmentioning

confidence: 99%

On the Tidal Prism: The Roles of Basin Extension, Bottom Friction and Inlet Cross-Section

Petti

Pascolo

Bosa

et al. 2021

JMSE

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“…With this in mind, an accurate analysis of tides and winds was carried out, to identify the events responsible for port silting within an average year. In particular, the zero-crossing analysis conducted on the tidal oscillation recorded by the Grado tide gauge from 1991 to 2014 showed a mean amplitude of tidal wave height equal to ±0.40 m [69]. For this reason, the tidal oscillation has been represented through a sine curve, having a period of 12 h and an amplitude equal to ±0.40 m [69].…”

Section: Simulation Setupmentioning

confidence: 99%

“…The resulting mesh consists of about 216,000 quadrangular elements, with a size length ranging between 0.8 and 550 m. A detail of the port is depicted in Figure 5. Manning roughness coefficients and the bottom height for the lagoon and the sea have been assigned as in Petti et al [69], where the bottom height refers to the surveys conducted in 2009-2011 [43]. With reference to Manning roughness coefficients, the port channels were considered as lagoon channels, and the emerged artificial island in front of Marano was treated as dry land.…”

Section: Simulation Setupmentioning

confidence: 99%

Improvement in the Sediment Management of a Lagoon Harbor: The Case of Marano Lagunare, Italy

Bosa

Petti

Pascolo

2021

Water

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Port silting is a common and natural process which often causes serious inconveniences for safe navigation and requires expensive dredging operations to keep the port operative. Sediment deposition is closely related to the exchange water between the basin and the surrounding environment; one way to limit deposits is by reducing the flow entering the port. However, this may be in contrast with the need for adequate sediment quality, which in turn is closely related to an appropriate water current. This seems to be particularly important in lagoon environments, where sediments are often polluted, making its disposal more complicated and costly. The present paper investigates the situation of the port of Marano Lagunare (Italy) by means of a bidimensional morphological-hydrodynamic and spectral coupled model. To reduce the sediment input into the port, the closure of a secondary port entrance is usually suggested. However, this work demonstrates that a complete dredging of the secondary port inlet allows for an increase in water circulation or efficiency renewal, which ensures a better oxygenation at the bottom of the canals.

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“…Operational requirements necessitate maintenance of the navigational channel both in the inlet throat and the channel extending offshore. Consequently, with advances in computational efficiencies, process-based models are now routinely used to characterize existing inlet morphodynamics (e.g., Elias and Hansen 2013;Reyes-Merlo et al 2017;Petti et al 2020) and evaluate potential inlet management solutions (e.g., Shaeri et al 2017;Fernández-Fernández et al 2019;Zarzuelo et al 2019) for both the inlet throat and offshore channel. However, studies are most often associated with either larger commercial channels, open coast, or highly energetic inlets.…”

Section: Introductionmentioning

confidence: 99%

Fortescue Inlet: Offshore Deposition Basins for Navigation Channel Management in Small Craft Inlets

Janssen

Lemke

Miller

et al. 2022

J. Waterway, Port, Coastal, Ocean Eng.

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A comprehensive case study of the coastal processes for Fortescue Inlet (New Jersey, USA) is presented with the objective of minimizing maintenance dredging of the navigational channel. This study compares the effectiveness of both traditional sedimentation control structures and modified dredging templates, including construction of a new jetty, modification of the length and orientation of an existing jetty, and the use of upland and offshore deposition basins. The alternatives were analyzed using Deflt3D Flexible Mesh. The results indicate that sediment transport near Fortescue Inlet is dominated by wave action with pronounced seasonal variations in wave direction. The site exhibits relatively shallow depths above the depth of closure and pronounced offshore bars. Consequently, much of the sediment transport occurs well offshore (approximately 300 m offshore) and beyond the existing jetty. The results indicate that structural modifications (i.e., relocation or lengthening) of the existing jetty do not improve the sedimentation rate within the channel. Instead, use of offshore deposition basins delivers the most promising improvement, with potential cost savings over 10% over existing strategies.

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An Integrated Approach to Study the Morphodynamics of the Lignano Tidal Inlet

Cited by 14 publications

References 45 publications

On the Tidal Prism: The Roles of Basin Extension, Bottom Friction and Inlet Cross-Section

On the Tidal Prism: The Roles of Basin Extension, Bottom Friction and Inlet Cross-Section

Improvement in the Sediment Management of a Lagoon Harbor: The Case of Marano Lagunare, Italy

Fortescue Inlet: Offshore Deposition Basins for Navigation Channel Management in Small Craft Inlets

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