Details

Autor(en) / Beteiligte

• Marco‐Peretó, Candela
• Durán, Ruth
• Toomey, Tim
• Guillén, Jorge

Titel

Controls on the morphological evolution of embayed beaches: Morphometry versus external forcing

Ist Teil von

• Earth surface processes and landforms, 2024-03, Vol.49 (4), p.1289-1302

Ort / Verlag

Bognor Regis: Wiley Subscription Services, Inc

Erscheinungsjahr

2024

Link zum Volltext

Quelle

Wiley Online Library All Journals

Beschreibungen/Notizen

• The morphological evolution of embayed beaches on a microtidal coast is assumed to largely respond to the degree of exposure to wave conditions, decreasing the mobility with increasing beach indentation (and vice versa). However, the number of sediment arrivals at the beach or the impact of extreme storms can modify this relationship. Here, we present an analysis of 10 embayed beaches along the Catalan coast with different morphometric and sedimentary characteristics to identify the most relevant parameters controlling the morphological evolution of these embayed beaches at the inter‐annual and decadal scales. The study was mostly based on LiDAR topographic data collected from 2012 to 2017, aerial photographs from 1945 to 2021, sediment sampling and a long‐term series analysis of the forcing parameters (waves, sea level, precipitation and land‐use changes). The results show a net loss of volume on all the studied beaches at an inter‐annual scale and a general shoreline retreat during the last few decades, suggesting the influence of common processes on the evolution of the studied beaches. Smaller pocket beaches with medium‐to‐high indentations are more sensitive to changes induced by local factors and show higher variability in the volume of the emerged beach and shoreline position than larger beaches. The most relevant factors influencing the evolution of the studied beaches on a decadal scale were identified as changes in sea level and the reduction in sediment inputs provided by streams due to land‐use changes in the drainage basin. At the inter‐annual scale, the impact of extreme events is the main factor controlling beach behaviour. These general trends can be opposite locally for beaches that receive large amounts of sediment via longshore transport from adjacent beaches. The morphological evolution of 10 embayed beaches on the Catalan coast evidences the influence of common processes behind them. Changes in sea level and reduction in sediment inputs provided by streams are key factors influencing the evolution of the studied beaches at decadal scales. At an interannual scale, the impact of wave extreme events is the main factor controlling beach changes.