Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)

Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)

Beaches responses to storms, as well as their potential adaptation to the foreseeable sea level rise (SLR), were investigated along three beaches in a coastal tract in western Sardinia (Western Mediterranean Sea). The grain size of the sediments, the beach profile variability and the wave climate we...

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Bibliographic Details
Main Authors: Simone Simeone, Luca Palombo, Emanuela Molinaroli, Walter Brambilla, Alessandro Conforti, Giovanni De Falco
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Applied Sciences
Subjects:
beaches
beach morphodynamic
sea level rise
Mediterranean Sea
geological control
wave climate
Online Access:https://www.mdpi.com/2076-3417/11/9/4009
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spelling doaj-011adcdb9e0b463e9498b793dcf4a88d2021-04-28T23:04:46ZengMDPI AGApplied Sciences2076-34172021-04-01114009400910.3390/app11094009Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)Simone Simeone0Luca Palombo1Emanuela Molinaroli2Walter Brambilla3Alessandro Conforti4Giovanni De Falco5Istituto per lo Studio degli Impatti Antropici e Sostenibilità in Ambiente Marino—Località Sa Mardini, 09072 Torregrande Oristano, ItalyFondazione IMC—Centro Marino Internazionale—ONLUS—Località Sa Mardini, 09072 Torregrande Oristano, ItalyIstituto per lo Studio degli Impatti Antropici e Sostenibilità in Ambiente Marino—Località Sa Mardini, 09072 Torregrande Oristano, ItalyIstituto per lo Studio degli Impatti Antropici e Sostenibilità in Ambiente Marino—Località Sa Mardini, 09072 Torregrande Oristano, ItalyIstituto per lo Studio degli Impatti Antropici e Sostenibilità in Ambiente Marino—Località Sa Mardini, 09072 Torregrande Oristano, ItalyIstituto per lo Studio degli Impatti Antropici e Sostenibilità in Ambiente Marino—Località Sa Mardini, 09072 Torregrande Oristano, ItalyBeaches responses to storms, as well as their potential adaptation to the foreseeable sea level rise (SLR), were investigated along three beaches in a coastal tract in western Sardinia (Western Mediterranean Sea). The grain size of the sediments, the beach profile variability and the wave climate were analyzed in order to relate morphological changes, geological inheritances and waves forcing. Multibeam, single-beam and lidar data were used to characterize the inner shelf morphologies and to reproduce the flooding due to the SLR. The studied beaches experienced major changes when consecutive storms, rather than singles ones, occurred along the coastline. The sediment availability, the grain size and the geomorphological structure of the beaches were the most important factors influencing the beach response. On the sediment-deprived coarse beaches the headlands favor the beach rotation, and the gravel barrier morphology can increase the resistance against storms. On the sediment-abundant beaches, the cross-shore sediment transport towards a submerged area leads to a lowering in the subaerial beach level and a contemporaneous shoreline retreat in response to storms. A very limited ingression of the sea is related to the SLR. This process may affect (i) the gravel barrier, promoting a roll over due to the increase in overwash; (ii) the embayed beach increasing its degree of embayment as headlands become more prominent, and (iii) the sediment-abundant beach with an erosion of the whole subaerial beach during storms, which can also involve the foredune area.https://www.mdpi.com/2076-3417/11/9/4009beachesbeach morphodynamicsea level riseMediterranean Seageological controlwave climate
collection DOAJ
language English
format Article
sources DOAJ
author Simone Simeone
Luca Palombo
Emanuela Molinaroli
Walter Brambilla
Alessandro Conforti
Giovanni De Falco
spellingShingle Simone Simeone
Luca Palombo
Emanuela Molinaroli
Walter Brambilla
Alessandro Conforti
Giovanni De Falco
Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
Applied Sciences
beaches
beach morphodynamic
sea level rise
Mediterranean Sea
geological control
wave climate
author_facet Simone Simeone
Luca Palombo
Emanuela Molinaroli
Walter Brambilla
Alessandro Conforti
Giovanni De Falco
author_sort Simone Simeone
title Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
title_short Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
title_full Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
title_fullStr Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
title_full_unstemmed Shoreline Response to Wave Forcing and Sea Level Rise along a Geomorphological Complex Coastline (Western Sardinia, Mediterranean Sea)
title_sort shoreline response to wave forcing and sea level rise along a geomorphological complex coastline (western sardinia, mediterranean sea)
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-04-01
description Beaches responses to storms, as well as their potential adaptation to the foreseeable sea level rise (SLR), were investigated along three beaches in a coastal tract in western Sardinia (Western Mediterranean Sea). The grain size of the sediments, the beach profile variability and the wave climate were analyzed in order to relate morphological changes, geological inheritances and waves forcing. Multibeam, single-beam and lidar data were used to characterize the inner shelf morphologies and to reproduce the flooding due to the SLR. The studied beaches experienced major changes when consecutive storms, rather than singles ones, occurred along the coastline. The sediment availability, the grain size and the geomorphological structure of the beaches were the most important factors influencing the beach response. On the sediment-deprived coarse beaches the headlands favor the beach rotation, and the gravel barrier morphology can increase the resistance against storms. On the sediment-abundant beaches, the cross-shore sediment transport towards a submerged area leads to a lowering in the subaerial beach level and a contemporaneous shoreline retreat in response to storms. A very limited ingression of the sea is related to the SLR. This process may affect (i) the gravel barrier, promoting a roll over due to the increase in overwash; (ii) the embayed beach increasing its degree of embayment as headlands become more prominent, and (iii) the sediment-abundant beach with an erosion of the whole subaerial beach during storms, which can also involve the foredune area.
topic beaches
beach morphodynamic
sea level rise
Mediterranean Sea
geological control
wave climate
url https://www.mdpi.com/2076-3417/11/9/4009
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AT lucapalombo shorelineresponsetowaveforcingandsealevelrisealongageomorphologicalcomplexcoastlinewesternsardiniamediterraneansea
AT emanuelamolinaroli shorelineresponsetowaveforcingandsealevelrisealongageomorphologicalcomplexcoastlinewesternsardiniamediterraneansea
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AT giovannidefalco shorelineresponsetowaveforcingandsealevelrisealongageomorphologicalcomplexcoastlinewesternsardiniamediterraneansea
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