Temporal and spatial behaviour of rip channels in a multiple‐barred coastal system

Quartel, S.

doi:10.1002/esp.1685

Cited by 23 publications

(37 citation statements)

References 34 publications

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“…Clear coupling patterns in double sandbar systems, such as in Figures 1, 8 and 9, are however rarely observed in the fi eld (Van Enckevort and Wijnberg, 1999;Castelle et al, 2007;Quartel, 2009). More often, inner-bar rip channels possess remarkably smaller and more variable alongshore scales than the outer bar (e.g.…”

Section: Discussionmentioning

confidence: 96%

“…cally face outer-bar horns, a situation reminiscent of the commonly observed 180° out-of-phase relationship of inner-bar patterns and shoreline rhythms (Sonu, 1973). Quartel (2009) observed a coupling of the intertidal morphology to the subtidal alongshore variability, with the phase between the two bar variabilities varying from in-phase (0°) to out-of-phase (180°), with gradual phase changes due to different alongshore migration rates of the bars. In addition, Castelle et al (2007) noted the systematic occurrence of two inner-bar rip channels within one outer-bar crescent, revealing the existence of a possible relationship at half of the outer-bar wavelength.…”

Section: Introductionmentioning

confidence: 95%

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Coupling mechanisms in double sandbar systems. Part 1: patterns and physical explanation

Castelle

Ruessink

Bonneton

et al. 2010

Earth Surf Processes Landf

113

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Crescentic sandbars and rip channels along wave-dominated sandy beaches are relevant to understand localized beach and dune erosion during storms. In recent years, a paradigm shift from hydrodynamic template models to self-organization mechanisms occurred to explain the formation of these rhythmic features. In double sandbar systems, both the inner-and outerbar rip channels and crescentic planshapes are now believed to be free instabilities of the nearshore system arising through selforganization mechanisms alone. However, the occasional occurrence of one or two inner-bar rip channels within one outer-bar crescent suggests a forced, morphologically coupled origin. Here we use a nonlinear morphodynamic model to show that alongshore variability in outer-bar depth, and the relative importance of wave breaking versus wave focussing by refraction across the outer bar, is crucial to the inner-bar rip channel development. The coupling patterns simulated by our model are similar to those observed in the fi eld. Morphological coupling requires a template in the morphology (outer-bar geometry) which, through the positive feedback between fl ow, sediment transport and the evolving morphology (that is, self-organization) enforces the development of coupling patterns. We therefore introduce a novel mechanism that blurs the distinction between self-organization and template mechanisms. This mechanism may also be extended to explain the dynamics of other nearshore patterns, such as beach cusps. The impact of this novel mechanism on the alongshore variability of inner-bar rip channels is investigated in the companion paper.

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Section: Discussionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 95%

Coupling mechanisms in double sandbar systems. Part 1: patterns and physical explanation

Castelle

Ruessink

Bonneton

et al. 2010

Earth Surf Processes Landf

113

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show abstract

“…Clear coupling patterns in double sandbar systems, such as those presented in Van Enckevort and Wijnberg, 1999;Castelle et al, 2007;Quartel, 2009 and Part 1), are however rarely observed in the fi eld (Hom-ma and Sonu, 1962;Goldsmith et al, 1982;Bowman and Goldsmith, 1983). More often, inner-bar rip channels possess remarkably smaller and more variable alongshore scales than the outer bar (Barusseau et al, 1994;Van Enckevort et al, 2004;Lafon et al, 2004Lafon et al, , 2005.…”

Section: Introductionmentioning

confidence: 86%

Coupling mechanisms in double sandbar systems. Part 2: impact on alongshore variability of inner‐bar rip channels

Castelle

Ruessink

Bonneton

et al. 2010

Earth Surf Processes Landf

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Double sandbar systems are common morphological features along sandy, wave-dominated, micro-to meso-tidal coastlines. In the companion paper, we demonstrated how various alongshore inner-bar rip-channel patterns can develop through morphological coupling to an alongshore-variable outer bar. The simulated coupling patterns are, however, scarcely observed in the fi eld. Instead, inner-bar rip channels more often possess remarkably smaller and more variable alongshore length scales, suggesting that coupling mechanisms do not play a substantial role in the overall double-sandbar dynamics. Here we use a numerical model to show that the relative importance of self-organization and morphological coupling changes in favour of the latter with an increase in waterdepth variability along the outer-bar crest. Furthermore, we fi nd that the typical alongshore variability in inner-bar rip-channel scale is indicative of a mixture of self-organization and morphological coupling rather than self-organization alone. Morphological coupling may thus be more important to understanding and predicting the evolution of inner-bar rip channels than previously envisaged.

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“…These techniques were used to extract datasets of up to 4 years (e.g., Holman et al, 2006); timescales that would be unfeasible to measure in-situ. A major limiting factor on the length of rip datasets that can be generated is that all attempts thus far required various degrees of manual input (Bogle et al, 2000;Gallop et al, 2009;Holman et al, 2006;Quartel, 2009;Ranasinghe et al, 1999;Turner et al, 2007;Whyte et al, 2005). The majority of research using video images uses the raw image products (snapshot, timex, daytime, etc.)…”

Section: Introductionmentioning

confidence: 99%

Synthetic Imagery for the Automated Detection of Rip Currents

Pitman

Gallop

Haigh

et al. 2016

Journal of Coastal Research

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Temporal and spatial behaviour of rip channels in a multiple‐barred coastal system

Cited by 23 publications

References 34 publications

Coupling mechanisms in double sandbar systems. Part 1: patterns and physical explanation

Coupling mechanisms in double sandbar systems. Part 1: patterns and physical explanation

Coupling mechanisms in double sandbar systems. Part 2: impact on alongshore variability of inner‐bar rip channels

Synthetic Imagery for the Automated Detection of Rip Currents

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