The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level
<p>Dune height is an important predictor of impact during a storm event given that taller dunes have a lower likelihood of being overtopped than shorter dunes. However, the temporal dominance of the wave collision regime, wherein volume loss (erosion) from the dune occurs through dune retreat...
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Copernicus Publications
2021-09-01
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| Series: | Earth Surface Dynamics |
| Online Access: | https://esurf.copernicus.org/articles/9/1223/2021/esurf-9-1223-2021.pdf |
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doaj-a1c2bc0a031244bda498404a835ed1852021-09-13T12:00:20ZengCopernicus PublicationsEarth Surface Dynamics2196-63112196-632X2021-09-0191223123710.5194/esurf-9-1223-2021The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge levelM. Itzkin0L. J. Moore1P. Ruggiero2S. D. Hacker3R. G. Biel4Department of Geological Sciences, University of North Carolina, 104 South Road, Mitchell Hall, Campus Box 3315, Chapel Hill, NC 27515, USADepartment of Geological Sciences, University of North Carolina, 104 South Road, Mitchell Hall, Campus Box 3315, Chapel Hill, NC 27515, USACollege of Earth, Ocean, and Atmospheric Sciences, Oregon State University, 104 CEOAS Administration Building, Corvallis, OR 97331, USADepartment of Integrative Biology, Oregon State University, 3029 Cordley Hall, Corvallis, OR 97331, USADepartment of Geological Sciences, University of North Carolina, 104 South Road, Mitchell Hall, Campus Box 3315, Chapel Hill, NC 27515, USA<p>Dune height is an important predictor of impact during a storm event given that taller dunes have a lower likelihood of being overtopped than shorter dunes. However, the temporal dominance of the wave collision regime, wherein volume loss (erosion) from the dune occurs through dune retreat without overtopping, suggests that dune width must also be considered when evaluating the vulnerability of dunes to erosion. We use XBeach, a numerical model that simulates hydrodynamic processes, sediment transport, and morphologic change, to analyze storm-induced dune erosion as a function of dune aspect ratio (i.e., dune height versus dune width) for storms of varying intensity and duration. We find that low aspect ratio (low and wide) dunes lose less volume than high aspect ratio (tall and narrow) dunes during longer and more intense storms when the beach width is controlled for. In managed dune scenarios, where sand fences are used to construct a “fenced” dune seaward of the existing “natural” dune, we find that fenced dunes effectively prevent the natural dune behind them from experiencing any volume loss until the fenced dune is sufficiently eroded, reducing the magnitude of erosion of the natural dune by up to 50 %. We then control for dune morphology to assess volume loss as a function of beach width and confirm that beach width exerts a significant influence on dune erosion; a wide beach offers the greatest protection from erosion in all circumstances while the width of the dune determines how long the dune will last under persistent scarping. These findings suggest that efforts to maintain a wide beach may be effective at protecting coastal communities from dune loss. However, a trade-off may exist in maintaining wide beaches and dunes in that the protection offered in the short-term must be considered in concert with potentially long-term detrimental effects of limiting overwash, a process which is critical to maintaining island elevation as sea level rises.</p>https://esurf.copernicus.org/articles/9/1223/2021/esurf-9-1223-2021.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M. Itzkin L. J. Moore P. Ruggiero S. D. Hacker R. G. Biel |
| spellingShingle |
M. Itzkin L. J. Moore P. Ruggiero S. D. Hacker R. G. Biel The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level Earth Surface Dynamics |
| author_facet |
M. Itzkin L. J. Moore P. Ruggiero S. D. Hacker R. G. Biel |
| author_sort |
M. Itzkin |
| title |
The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| title_short |
The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| title_full |
The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| title_fullStr |
The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| title_full_unstemmed |
The relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| title_sort |
relative influence of dune aspect ratio and beach width on dune erosion as a function of storm duration and surge level |
| publisher |
Copernicus Publications |
| series |
Earth Surface Dynamics |
| issn |
2196-6311 2196-632X |
| publishDate |
2021-09-01 |
| description |
<p>Dune height is an important predictor of impact during a storm
event given that taller dunes have a lower likelihood of being overtopped
than shorter dunes. However, the temporal dominance of the wave collision
regime, wherein volume loss (erosion) from the dune occurs through dune
retreat without overtopping, suggests that dune width must also be
considered when evaluating the vulnerability of dunes to erosion. We use
XBeach, a numerical model that simulates hydrodynamic processes, sediment
transport, and morphologic change, to analyze storm-induced dune erosion as
a function of dune aspect ratio (i.e., dune height versus dune width) for
storms of varying intensity and duration. We find that low aspect ratio (low and wide) dunes lose less volume than high aspect ratio (tall and narrow) dunes during longer and more intense storms when the beach width is
controlled for. In managed dune scenarios, where sand fences are used to
construct a “fenced” dune seaward of the existing “natural” dune, we
find that fenced dunes effectively prevent the natural dune behind them from experiencing any volume loss until the fenced dune is sufficiently eroded, reducing the magnitude of erosion of the natural dune by up to 50 %. We then control for dune morphology to assess volume loss as a function of beach width and confirm that beach width exerts a significant influence on dune erosion; a wide beach offers the greatest protection from erosion in all circumstances while the width of the dune determines how long the dune will last under persistent scarping. These findings suggest that efforts to maintain a wide beach may be effective at protecting coastal communities from dune loss. However, a trade-off may exist in maintaining wide beaches and dunes in that the protection offered in the short-term must be considered in concert with potentially long-term detrimental effects of limiting overwash, a process which is critical to maintaining island elevation as sea level rises.</p> |
| url |
https://esurf.copernicus.org/articles/9/1223/2021/esurf-9-1223-2021.pdf |
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