A reevaluation of coastal embayment rotation: The dominance of cross-shore versus alongshore sediment transport processes, Collaroy-Narrabeen Beach, southeast Australia

Harley, Mitchell D.; Turner, Ian L.; Short, Andrew D.; Ranasinghe, Roshanka

doi:10.1029/2011jf001989

Cited by 152 publications

(136 citation statements)

References 33 publications

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“…From the calibrated wave model, the breaker wave height was identified as the point at cross-shore transects along beach where the Hs/depth ratio reaches a value of 0.5 (BERTIN et al, 2008;HARLEY et al, 2011). Transects were taken perpendicular to the coast in front of the points where the run-up measurements were conducted.…”

Section: Numerical Modelingmentioning

confidence: 99%

Wave run-up on embayed beaches. Study case: Itapocorói Bay, Southern Brazil

Silva

Araujo

et al. 2017

Braz. j. oceanogr.

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This paper presents a new approach for estimating run-up on embayed beaches based on a study of the microtidal coast of Itapocorói Bay, Southern Brazil using the surf similarity parameter and wave height at break location. The four step methodology involved: 1) direct wave measurement (34 days), wave run-up measurement (19 days at 7 points within the bay), measurement of bathymetry and beach topography in the entire bay; 2) tests on available formulae to calculate wave run-up; 3) use of the SWAN spectral wave model to simulate wave parameters at breaking at each wave run-up measurement point and; 4) development of a new formula/approach to assess wave run-up on embayed beaches (in both exposed and protected areas). During the experiments the significant wave height varied from 0.5 m to 3.01 m, the mean wave period from 2.79 s to 7.76 s (the peak period varied between 2.95 s and 17.18 s), the mean wave direction from 72.5° to 141.9° (the peak direction varied from 39.2° to 169.8°) and the beach slope (tan β) from 0.041 to 0.201. The proposed formula is in good agreement with measured data for different wave conditions and varying degrees of protection. The analysis demonstrates that although R² varies from 0.52 to 0.75, the wave run-up distribution over the measurements agreed well with the proposed model, as shown by quantile-quantile analysis (R²=0.98 to 0.99). The errors observed in individual cases may be related to errors of measurements, modeling and to non-linear processes in the swash zone, such as infragavity waves. AbstrAct

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Section: Numerical Modelingmentioning

confidence: 99%

Wave run-up on embayed beaches. Study case: Itapocorói Bay, Southern Brazil

Silva

Araujo

et al. 2017

Braz. j. oceanogr.

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“…The combination of longshore morphological changes with crossshore morphological changes drive the combined morphological change in a embayed beach (Harley et al, 2011).…”

Section: Accepted M Manuscriptmentioning

confidence: 99%

Planform and mobility in the Meaípe-Maimbá embayed beach on the South East coast of Brazil

2016

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“…Rip cells, with their type and spacing varying in time, are a common feature along this beach and drive offshore sediment transport during high wave events (Short, 1985). Narrabeen's tides are microtidal, semidiurnal and have only minor tidal anomalies due to surge processes (Harley et al, 2011). …”

Section: Study Site: Narrabeen Beachmentioning

confidence: 99%

Moving from deterministic towards probabilistic coastal hazard and risk assessment: Development of a modelling framework and application to Narrabeen Beach, New South Wales, Australia

Wainwright

Ranasinghe

Callaghan

et al. 2015

Coastal Engineering

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Traditional methods for assessing coastal hazards have not typically incorporated a rigorous treatment of uncertainty. Such treatment is necessary to enable risk assessments which are now required by emerging risk based coastal zone management/planning frameworks. While unresolved issues remain, relating to the availability of sufficient data for comprehensive uncertainty assessments, this will hopefully improve in coming decades. Here, we present a modelling framework which integrates geological, engineering and economic approaches for assessing the climate change driven economic risk to coastal developments. The framework incorporates means for combining results from models that focus on the decadal to century time scales at which coasts evolve, and those that focus on the short term and seasonal time scales (storm bite and recovery). This paper demonstrates the functionality of the framework in deriving probabilistic coastal hazard lines and their subsequent use to establish an economically optimal setback line for development at a case study site; the Narrabeen-Collaroy embayment in Sydney, New South Wales.

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A reevaluation of coastal embayment rotation: The dominance of cross-shore versus alongshore sediment transport processes, Collaroy-Narrabeen Beach, southeast Australia

Cited by 152 publications

References 33 publications

Wave run-up on embayed beaches. Study case: Itapocorói Bay, Southern Brazil

Wave run-up on embayed beaches. Study case: Itapocorói Bay, Southern Brazil

Planform and mobility in the Meaípe-Maimbá embayed beach on the South East coast of Brazil

Moving from deterministic towards probabilistic coastal hazard and risk assessment: Development of a modelling framework and application to Narrabeen Beach, New South Wales, Australia

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