Abstract
Recently, many rigid structures have been installed to cope with and efficiently manage coastal erosion. However, the changes in the coastline or isocenter and the movements of coastal sediment are poorly understood. This study examined the equilibrium shoreline and isocenter lines by applying a Model of Estimating Equilibrium Parabolic-type Shoreline (MeEPASoL) as an equilibrium shoreline prediction model. In addition, the inverse method was used to estimate littoral drift sediment transport from long-term beach profile observations. The movement of coastal sediments was analyzed using long-term beach profile observation data for three Indonesian beaches, namely, Kuta Beach for 13 years, Karang Beach in Sanur for 15 years, and Samuh Beach in Nusa Dua for 18 years. The littoral drift at every site was dynamically controlled by seasonal changes in the monsoon, the erosion and deposition patterns coupled with the presence of coastal structures, and limited sediment movement. Shoreline deformation in Kuta is generally backward deformed, with a littoral drift from south to north. In Sanur, the littoral drift vector carries sediment from the right and left sides and forms a salient behind the offshore breakwater. The littoral drift at Nusa Dua is dominantly from south to north, but the force of sediment transport decreases near the breakwater towards the north. Furthermore, the methods applied herein could aid the development of strategic coastal management plans to control erosion in subcells of coastal areas.
Highlights
Beach profile observation data were obtained from the Ministry of Public Works and Housing, Directorate of Water Resources, Indonesia
In Nusa Dua, the mean beach area in subsequent years was smaller than the initial area, indicating that the shoreline eroded in almost all areas
The background erosion vector of Nusa Dua showed that the shoreline pattern tended to deform backward from all positions, and the shoreline tended to deform for2 ) insignificant deposition occurred ward with decreasing sediment transport, such(m that
Summary
In Sanur, as shown shown, the mean area of the beach in 2008 was smaller than in later years; the overall mean shoreline advanced. In Nusa Dua, the mean beach area in subsequent years was smaller than the initial area, indicating that the shoreline eroded in almost all areas. These analyses can briefly explain how the shoreline advanced or retreated without factoring in the vector movement in every single cell. The background erosion vector of Nusa Dua showed that the shoreline pattern tended to deform backward from all positions, and the shoreline tended to deform for2 ) insignificant deposition occurred ward with decreasing sediment transport, such(m that Area Change Note. These patterns showed that the structures at this location were able
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