Record Details

Investigating the Role of Complex Sandbar Morphology on Nearshore Hydrodynamics

ScholarsArchive at Oregon State University

Field Value
Title Investigating the Role of Complex Sandbar Morphology on Nearshore Hydrodynamics
Names Cohn, N. (creator)
Ruggiero, P. (creator)
Ortiz, J. (creator)
Walstra, D. J. (creator)
Date Issued 2014-04 (iso8601)
Note This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published article is copyrighted by the Coastal Education and Research Foundation (CERF) and published in the Journal of Coastal Research which can be found at: http://www.jcronline.org/
Abstract Coastal environments are characterized by complex feedbacks between flow, sediment transport, and morphology, often resulting in the formation of nearshore sandbars. In many locations, such as Hasaki (Japan), the Netherlands, and the Columbia River Littoral Cell (CRLC, USA), these sandbars exhibit a net offshore migration (NOM) cycle whereby these features form in the inner surf zone, migrate seaward and decay offshore on interannual cycles. Depending on the stage of the cycle, the number and configuration of the bars may differ widely. It has long been recognized that sandbars act as natural barriers during storm events by dissipating wave energy through breaking far from the beach face. Thus, dependent on the stage of the NOM cycle, one might expect significant variability in nearshore hydrodynamics. Using a non-linear wave model we demonstrate that inter-annual variability in sandbar configuration can significantly alter inner surf zone and swash zone processes. The model indicates that under different end-member NOM stages the same wave conditions can result in up to a 36% variance in the vertical extent of infragravity runup and can alter both the rate and direction of net cross shore sediment transport.
Genre Article
Topic runup
Identifier Cohn, N., Ruggiero, P., Ortiz, J., & Walstra, D. J. (2014, April). Investigating the role of complex sandbar morphology on nearshore hydrodynamics. In Proceedings of the 13th International Coastal Symposium, Durban, South Africa, 13-17 April 2014. Journal of Coastal Research, Special Issue 70, 2014, 53-58. doi:10.2112/SI65-010.1

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