Your search keyword '"Coco, Giovanni"' showing total 6 results

1. An Assessment of Swash Excursion Predictors using Field Observations

Author

Passarella, Marinella, De Muro, Sandro, Ruju, Andrea, and Coco, Giovanni

Published

2018

2. Beach Cusps

Author

Coco, Giovanni, Guillén, Jorge, editor, Acosta, Juan, editor, Chiocci, Francesco Latino, editor, and Palanques, Albert, editor

Published

2017

3. Mechanisms for the formation of rhythmic topography in the nearshore region

Author

Coco, Giovanni

Subjects

551.46, Surf, Swash

Abstract

The possibility that the periodic features observed in the nearshore region are the result of self-organisational processes is investigated in this work. The behaviour of two numerical models, based on different techniques, has been analysed in order to describe the formation of periodic features in the surf and swash zone respectively. The appearance of periodic patterns in the nearshore region has been traditionally linked to the presence of standing edge waves with the topographic changes passively driven by the flow patterns. A more recent approach indicates the possibility that periodic patterns appear because of feedback processes between beach morphology and flow. In the first model, the coupling between topographic irregularities and wave driven mean water motion in the surf zone is examined. This coupling occurs due to the fact that the topographic perturbations produce excess gradients in the wave radiation stress that cause a steady circulation. To investigate this mechanism, the linearised stability problem in the case of an originally plane sloping beach and normal wave incidence is solved. It is shown that the basic topography can be unstable with respect to two different modes: a giant cusp pattern with shore attached transverse bars that extend across the whole surf zone and a crescentic pattern with alternate shoals and pools at both sides of the breaking line showing a mirroring effect. For the swash zone, the formation of beach cusps has been investigated. The several theories proposed in the past have been analysed and all the field and laboratory measurements available in the literature collected in order to test such theories. It is suggested that, with the available measurements it is not possible to distinguish between the standing edge wave model and the self-organisation approach. A numerical model based on self-organisation has been here developed and tested in order to understand the processes occurring during beach cusp formation and development, to evaluate the sensitivity towards the parameters used and to look at how the model might relate to field observations. Results obtained confirm the validity of the self-organisation approach and its capacity to predict beach cusp spacing with values in fair agreement with the available field measurements and with most of the input parameters primarily affecting the rate of the process rather than the final spacing. However, changes in the random seed and runs for large numbers of swash cycles reveal a dynamical system with significant unpredictable behaviour. A qualitative comparison between the model results and field measurements collected by Masselink et al. (1997) during beach cusp formation and development has also been performed on the basis of a non-linear fractal technique. Results indicate beach locations and time-scales where non-linearities are more important and self-organisation can play a fundamental role.

Published

1999

4. On the prediction of runup, setup and swash on beaches.

Author

Gomes da Silva, Paula, Coco, Giovanni, Garnier, Roland, and Klein, Antonio H.F.

Subjects

*FORECASTING, *SHORELINES, *COASTS, *BEACHES, *PARAMETERIZATION

Abstract

Wave runup is one of the most critical parameters contributing to coastline flooding and shoreline change. Many formulas have been developed to empirically predict wave runup characteristics. However, large errors are still associated to these estimates, feeding a debate on the best approach to describe runup through simple parameterizations. In this work we present a comprehensive review on runup, setup and swash empirical models. We use a large database of field measurements to verify the predictive capability of recent formulas, addressing possible sources of variability. We identify the effect of the nearshore bathymetry as an important factor missing in empirical predictors and examine this issue through an analysis of runup simulated with the SWASH model over different barred and linear bathymetries. The details of the submerged beach profile affect estimates, especially with respect to setup values. The lack of standardization in measuring, post-processing and sharing runup data, limits the application of previous published databases on new analysis. We list a set of recommendations that can be used as guidelines for new measurements to broaden the applicability of the datasets in future studies. Finally, we discuss the remaining questions that still need to be further explored. [ABSTRACT FROM AUTHOR]

Published

2020

5. Horizontal Runup and Seagrass Beach Cast-litters: Modelling and Observations.

Author

Passarella, Marinella, Ruju, Andrea, De Muro, Sandro, and Coco, Giovanni

Subjects

SEAGRASSES, POSIDONIA, SEA level, WAVE forces, BEACHES

Abstract

Passarella, M.; Ruju, A.; De Muro, S., and Coco, G., 2020. Horizontal runup and seagrass beach cast-litters: Modelling and observations. In: Malvárez, G. and Navas, F. (eds.), Global Coastal Issues of 2020. Journal of Coastal Research, Special Issue No. 95, pp. 143-147. Coconut Creek (Florida), ISSN 0749-0208. We collected measurements of wave-driven swash on a beach characterized by the presence and accumulation of seagrass beach-cast litter (the so-called banquette). Beach surveys showed that this deposit can drastically steepen the foreshore thus affecting wave dynamics. This work explores the relationship between vertical and horizontal swash time series, in a previously unreported case of seagrass wrack deposits under mild to moderate incoming waves. The results from the field measurements, obtained by video imagery time stack analysis, show that the seagrass deposits influence wave runup. The horizontal runup extent can be reduced when compared with a nearby "seagrassfree" profile under the same incoming waves. The horizontal runup in case of seagrass presence seems to be approximately one-third of the seagrass absence case. The ratio between observed vertical and horizontal swash, when seagrass deposits are present, is almost 3.5 times the seagrassfree case. The SWASH model was used to extend the analysis beyond our field observations. A number of possible wave forcing scenarios were run on both the seagrass-rich and the seagrass-free profiles. Differences between the cases of seagrass presence and absence show that the horizontal wave runup in case of seagrass deposition can be largely reduced. Using observations and modelling, we show that the seagrass deposits on the beach face and berm inhibit the horizontal runup and so affect one of the key components necessary to predict coastal inundation and to manage coastal areas especially considering ongoing changes in the mean sea level. [ABSTRACT FROM AUTHOR]

Published

2020

6. Observations of alongshore variability of swash motions on an intermediate beach

Author

Guedes, Rafael M.C., Bryan, Karin R., and Coco, Giovanni

Subjects

*SHORELINES, *OSCILLATIONS, *HIGH resolution imaging, *GEOMORPHOLOGY, *OCEAN waves, *REGRESSION analysis, *ENERGY bands, *ENERGY dissipation

Abstract

Abstract: Alongshore variability in swash motions – shoreline oscillations about the mean water level on the beach face – were investigated using video images and a high-resolution morphology survey on an intermediate beach. Under mild, swell-dominated offshore wave conditions, alongshore variation of up to 78% in significant runup height Rs (defined as 4 times the standard deviation of the swash time series) was observed. This variation was predominantly driven by energy at the incident (>0.05Hz) frequencies (where most of the swash energy was observed), and, consistent with previous observations, was mainly controlled by changes in the slope of the beach face (measured at the mean swash location). However, alongshore patterning in wave breaking over the sandbar caused variation in the degree of wave dissipation along the beach and also resulted in alongshore changes to swash motions. Although alongshore changes in beach slope and wave breaking patterning over the bar were observed to be typically correlated, both were needed in a regression model to provide the best explaination of alongshore changes in Rs. At infragravity frequencies (<0.05Hz), alongshore variability was not well associated either with changes in beach slope or wave breaking patterning. Low-mode edge waves were observed in the swash measurements and their contribution to the total energy spectrum was greatest near the location where a shoal was observed, suggesting this shoal may play a role in forcing. The edge waves may have contributed to the swash variability observed at infragravity frequencies. However, in these reflective conditions, the infragravity band plays a secondary role in controlling alongshore variations to swash motions. [Copyright &y& Elsevier]

Published

2012