Wave evolution across the Louisiana shelf
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Authors
Engelstad, Anita
Janssen, T.T.
Herbers, T. H.C.
van Vledder, Gerbrant
Elgar, Steve
Raubenheimer, Britt
Trainor, Lincoln
Garcia-Garcia, Ana
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2012-10
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Abstract
Observations and third-generation wave model hindcasts of ocean surface gravity waves propagating across the Louisiana shelf show that the effects of the mud environment on wave evolution are complex and episodic. Whereas low-frequency waves (0.04-0.20 Hz) show a consistent decay similar to earlier studies, the presence of mud also appears to suppress the development of short waves (0.20-0.25 Hz) under fetch-limited growth conditions. Significant suppression of wave development under wind-forced conditions is found to occur almost exclusively during easterly winds when satellite images show the Atchafalaya mud plume extends into the study area. These results suggest that episodic sediment suspension events with high mud concentrations in the upper water column can affect the evolution of wind waves.
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Preprint
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This work is supported by the U.S. Office of Naval Research (Littoral Geosciences and Optics Program, and Physical Oceanography Program), the National Oceanographic Partnership Program, the National Science Foundation, and a National Security Science and Engineering Faculty Fellowship.
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Continental Shelf Research 52 (2013): 190-202, doi:10.1016/j.csr.2012.10.005.