Video observations of rip currents on an embayed beach
Video observations of rip currents on an embayed beach
Rip currents and their interaction with waves and underwater morphology are still poorly understood. This study presents a conceptual model demonstrating how rip channels respond to changes in wave conditions, focusing on wave energy and wave event duration. Past attempts to relate rip channels to wave conditions have not resulted in good relationships between rip characteristics (e.g. rip spacing) and waves. In order to address this problem, a 3.3 year rip channel data set was obtained using an improved computer-based technique to locate rips from video imagery. In this study we show how the scale of rip channels (i.e. cross-shore extent ), previous wave conditions and the duration of high wave events determine how rip channels will evolve. Observations of six events when rip channels changed their spatial configuration are used to create a conceptual model for how rip channels respond to changes in the wave conditions. When rip channels are small in relation to the wave energy, these rips are more likely than larger rips (extending less than ~70m cross-shore) to evolve. Conversely when rip channels are large in relation to the wave energy, these rips are less likely to evolve than smaller rips (extending more than ~80 m cross-shore).
49-53
Gallop, S.L.
c14133fc-9141-47d9-ae9c-84c2513ea8ad
Bryan, K.R.
02d42071-7100-4ef5-9bba-4b14bdbd9277
Coco, G.
2fd53078-aedb-4f12-bb28-d69b74d8ad64
2009
Gallop, S.L.
c14133fc-9141-47d9-ae9c-84c2513ea8ad
Bryan, K.R.
02d42071-7100-4ef5-9bba-4b14bdbd9277
Coco, G.
2fd53078-aedb-4f12-bb28-d69b74d8ad64
Gallop, S.L., Bryan, K.R. and Coco, G.
(2009)
Video observations of rip currents on an embayed beach.
[in special issue: ICS 2009 (Proceedings), Portugal]
Journal of Coastal Research, SI 56, .
Abstract
Rip currents and their interaction with waves and underwater morphology are still poorly understood. This study presents a conceptual model demonstrating how rip channels respond to changes in wave conditions, focusing on wave energy and wave event duration. Past attempts to relate rip channels to wave conditions have not resulted in good relationships between rip characteristics (e.g. rip spacing) and waves. In order to address this problem, a 3.3 year rip channel data set was obtained using an improved computer-based technique to locate rips from video imagery. In this study we show how the scale of rip channels (i.e. cross-shore extent ), previous wave conditions and the duration of high wave events determine how rip channels will evolve. Observations of six events when rip channels changed their spatial configuration are used to create a conceptual model for how rip channels respond to changes in the wave conditions. When rip channels are small in relation to the wave energy, these rips are more likely than larger rips (extending less than ~70m cross-shore) to evolve. Conversely when rip channels are large in relation to the wave energy, these rips are less likely to evolve than smaller rips (extending more than ~80 m cross-shore).
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Published date: 2009
Organisations:
Geology & Geophysics
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Local EPrints ID: 349633
URI: http://eprints.soton.ac.uk/id/eprint/349633
ISSN: 0749-0208
PURE UUID: 913ac084-dab6-493f-a45c-8000e6bff785
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Date deposited: 07 Mar 2013 14:45
Last modified: 27 Apr 2022 05:12
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Contributors
Author:
S.L. Gallop
Author:
K.R. Bryan
Author:
G. Coco
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