Open AccessINFRAGRAVITY WAVES IN STORM CONDITIONS
Author(s) -
R.A. Holman,
D.A. Huntley,
A.J. Bowen
Publication year - 1978
Publication title -
coastal engineering proceedings
Language(s) - English
Resource type - Journals
eISSN - 2156-1028
pISSN - 0589-087X
DOI - 10.9753/icce.v16.13
Subject(s) - infragravity wave , swell , geology , storm , seismology , wind wave , oceanography , meteorology , nova scotia , martinique , geophysics , climatology , physics , wave propagation , west indies , mechanical wave , longitudinal wave , quantum mechanics , ethnology , history
Nearshore sediment is actively reworked during major storms, often significantly altering the nearshore morphology. It has been suggested that infragravity waves with wave periods 30-300 seconds are very important in the formation of major nearshore features. A field study to further understand the nature of infragravity waves was carried out in Martinique Beach, Nova Scotia. Velocity measurements were taken using three electromagnetic flowmeters. Incident conditions varied from calm to swell and wind waves generated by hurricane Belle. Spectral analysis of the low tides revealed a sharp increase in the infragravity band energy associated with the storm. Throughout the storm the spectra of all three instruments were dominated by a strong 100 second peak which remained constant in frequency despite significant changes in the incident wave field. This peak is found to satisfy edge wave theory. A frequency selection mechanism
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