4.7 Article

Evolutionary Trajectories of Coastal Sand Barriers along the West Portuguese Coast during the Holocene

Journal

JOURNAL OF MARINE SCIENCE AND ENGINEERING
Volume 10, Issue 12, Pages -

Publisher

MDPI
DOI: 10.3390/jmse10121894

Keywords

morphological states; transgressive coastal barrier; progradational coastal barrier; transgressive dune field; blowouts; foredune; ground penetrating radar; optical stimulating luminescence

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By studying the evolutionary trajectories of three barriers along the Portuguese coast, it was found that historical barriers differ in age and state, influenced by factors such as geographical location and climate change. Exposed sites are more susceptible to disturbances, leading to a wider range of system responses.
Coastal sand barriers are dynamic features with complex depositional sequences holding critical information regarding system response to disturbances at secular to millennial time scales. Here, the evolutionary trajectories of three barriers located along the Portuguese coast are reconstructed over the Middle to Late Holocene using geophysical subsurface images, modern morphology and dating of dune and beach deposits. The integration of new and available information from the documents of the selected site contrasts histories with modern barriers displaying ages ranging from hundreds to thousands of years and non-linear trajectories defined by shifts between morphological states. Younger barriers appear to represent the latest progradational state within a history of landward barrier migration, where progradational states alternated with transgressive states. Conversely, the oldest barrier shows a single phase of barrier growth, despite some minor hiatus in progradation. Barrier state shifts appear to have simultaneously occurred across systems, suggesting external drivers of regional scale linked to Holocene climate variability, namely, periods of storminess activity, while the different trajectories displayed by the three sites appear related to site-specific variables controlling exposure to waves and winds. Exposed sites showed a lower ability to absorb disturbances and a greater range of system responses, varying between transgressive and progradational states.

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