Fraction of broken waves in natural surf zones

Stringari, C. E.; Power, Hannah E.

Title: Fraction of broken waves in natural surf zones
Creator: Stringari, C. E.; Power, Hannah E.
Relation: Journal of Geophysical Research: Oceans Vol. 124, Issue 12, p. 9114-9140
Publisher Link: http://dx.doi.org/10.1029/2019JC015213
Publisher: Wiley-Blackwell Publishing
Resource Type: journal article
Date: 2019
Description: This paper presents a novel quantification of the fraction of broken waves (Q_b) in natural surf zones using data from seven microtidal, wave‐dominated, sandy Australian beaches. Q_b is a critical, but rarely quantified, parameter for parametric surf zone energy dissipation models, which are commonly used as coastal management tools. Here, Q_b is quantified using a combination of remote sensing and in situ data. These data and machine learning techniques enable quantification of Q_b for a substantial data set (>330,000 waves). The results show that Q_b is a highly variable parameter with a high degree of interbeach and intrabeach variability. Such variability could be correlated to environmental parameters: tidal variations correlated with changes in Q_b of up to 70% for a given local water depth (h) on a low tide terrace beach, and increased infragravity relative to sea‐swell energy correlated to lower values of Q_b at the surf‐swash boundary. Q_b also correlates well with the Australian beach morphodynamic model: For more dissipative beaches Q_b increases rapidly in the outer surf zone, whereas for more reflective beaches Q_b increases slowly throughout the surf zone. Finally, when comparing data to existing models, three commonly used theoretical formulations for Q_b are observed to be poor predictors with errors of the order of 40%. Existing theoretical Q_b models are shown to improve (revised errors of the order of 10%) if the Rayleigh probability distribution that describes the wave height is in these models is replaced by the Weibull distribution.
Subject: broken waves; natural surf zones; sand dune; fraction of broken waves; SDG 14; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1410999
Identifier: uon:36264
Identifier: ISSN:2169-9275
Rights: © 2019. American Geophysical Union. All Rights Reserved.
Language: eng
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