JMSE, Vol. 13, Pages 2194: Spatial and Temporal Variation in Wave Overtopping Across a Coastal Structure Based on One Year of Field Observations
Journal of Marine Science and Engineering doi: 10.3390/jmse13112194
Authors:
Jennifer Brown
Gerd Masselink
Margaret Yelland
Christopher Stokes
Timothy Poate
Robin Pascal
David Jones
John Walk
Christopher Cardwell
Barry Martin
Peter Ganderton
Julie Gregory
Ruth Adams
Joseff Saunders
Coastal managers worldwide must prepare for changes in annual wave overtopping events due to climate change and sea-level rise. Research often assesses overtopping discharges by extreme events at a sea wall crest, typically using data from physical models or empirical rules based on scaled experiments. Here, we analyse a unique 1-year field dataset of coastal wave overtopping, from SW England, to determine the number of individual waves, regardless of their size, overtopping two locations across a coastal structure. The coastal conditions causing the most frequent overtopping differ from those driving it landward, complicating hazard communications for multiuse infrastructure. These data are the first field observations covering a year of tide, wave and wind conditions that cause overtopping of a vertical sea wall. Storms have a minimal (<2%) contribution to the number of tides associated with overtopping and the prevailing wave direction was not that associated with most overtopping events. Overtopping histograms identify the variability in the most likely time of overtopping relative to high tide for different wave categories across the structure. Sea-level rise, beach lowering and climate change will influence the annual number of waves overtopping in future. Change will be a complex balance between overtopping by different wave categories due to their likelihood of coincidence with water levels that do not cause depth-limitation over the foreshore or (partial-)reflection off the structure. It is possible the number of waves overtopping will reduce at the crest of a sea wall, while more of those overtopping waves will travel further inland.
Source link
Jennifer Brown www.mdpi.com
