Large-scale coastal features generated by atmospheric pulses and associated edge waves

This article presents a hydrodynamic model that predicts the generation of horns and coves on the inner continental shelf, resulting from turbulent wind vortices blowing over the sea surface on the lee side of geographic obstacles (e.g. capes, islands, skyscrapers etc.). Such vortices generate edge...

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Veröffentlicht in:	Marine geology 2008-01, Vol.247 (3), p.226-236
Hauptverfasser:	Quevedo, Elena, Baquerizo, Asunción, Losada, Miguel A., Ortega-Sánchez, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Edge waves Large-scale features Numerical modeling Video-images Wind vortices
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container_end_page	236
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container_title	Marine geology
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creator	Quevedo, Elena Baquerizo, Asunción Losada, Miguel A. Ortega-Sánchez, M.
description	This article presents a hydrodynamic model that predicts the generation of horns and coves on the inner continental shelf, resulting from turbulent wind vortices blowing over the sea surface on the lee side of geographic obstacles (e.g. capes, islands, skyscrapers etc.). Such vortices generate edge waves whose net bedload sediment transport leads to the formation of such features. The resulting morphology reinforces the standing edge wave pattern, produces positive feedback, and exhibits self-forcing behavior. This model is applied to the horns and embayments found at Carchuna Beach (Spain), and offers a plausible explanation of how they have been generated. The results show that the presence of geographic obstacles or human constructions close to a beach may cause the formation of large-scale features on its coastline, significantly altering the beach width.
doi_str_mv	10.1016/j.margeo.2007.10.005
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subjects	Edge waves Large-scale features Numerical modeling Video-images Wind vortices
title	Large-scale coastal features generated by atmospheric pulses and associated edge waves
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