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• Run-down
  212 bytes (29 words) - 22:14, 20 September 2008
• Wave run-up
  {{Definition|title=Wave run-up |definition= Wave run-up is the maximum onshore elevation reached by waves, relative to the shorelin
  7 KB (1,082 words) - 13:00, 18 April 2024

Page text matches

• Definitions of coastal terms
  ...each berm]], which is equivalent to the upper limit of [[#Wave run-up|wave run-up]] at high tide, see Fig. 1. The beach face is the part of the [[#Beach|shor ...he foot of the cliffs or in the foot of the dunes (see [[#Wave run-up|wave run-up]] and [[dune erosion]]). For stable coasts, incidental erosion is a reversi
  79 KB (11,862 words) - 21:40, 1 April 2024
• Coastal Hydrodynamics And Transport Processes
  29 KB (4,518 words) - 11:18, 6 July 2020
• Natural causes of coastal erosion
  ...shape of the cross-shore coastal profile is strongly influenced by [[wave run-up]], with an important role for storm events with high waves and water levels
  14 KB (2,169 words) - 17:21, 26 August 2022
• Shore nourishment
  12 KB (1,875 words) - 15:32, 23 July 2023
• Beach drainage
  ...height of the local groundwater table in the beach, partly due to the wave run-up on the foreshore and partly due to the locally elevated water-level in the
  11 KB (1,646 words) - 10:15, 1 May 2023
• Wave transformation
  ===Wave run-up=== ...relative to the still water level. The run-up height exceeded by 2% of the run-up events is denoted <math>R_{2\%}</math>. Relationships for estimating <math>
  6 KB (1,006 words) - 13:44, 22 February 2024
• Coastline
  ...e corresponding measuring technique (e.g. not influenced by tide or [[wave run-up]]);
  6 KB (879 words) - 17:04, 26 August 2022
• Foreshore
  ...f the [[shore|shore/beach]], which is wet due to the varying tide and wave run-up under normal conditions, i.e., excluding the impact of extreme storm waves
  2 KB (233 words) - 16:11, 5 October 2021
• Shoreline
  ...ment volumes of the intertidal beach, subtidal beach bathymetry and [[wave run-up]], see [[Argus applications]]. ...d Shorelines. Geophys. Res. Letters 47: e2020GL088365</ref>. By using wave run-up formulas it is possible to determine the correct average shoreline position
  5 KB (765 words) - 17:13, 28 July 2021
• Shoreline management
  38 KB (5,697 words) - 22:31, 2 July 2022
• FUTURECOAST project, UK
  20 KB (3,041 words) - 12:04, 7 September 2020
• Groynes as shore protection
  21 KB (3,352 words) - 17:17, 5 October 2021
• Coastal pollution and impacts
  26 KB (3,841 words) - 16:44, 20 February 2024
• How to apply models
  18 KB (2,697 words) - 11:29, 20 February 2024
• CNEXO experimental SandPit in Seine Estuary
  10 KB (1,558 words) - 20:28, 28 June 2019
• Transport and dispersion of pollutants, nutrients, tracers in mixed nearshore water
  19 KB (2,775 words) - 16:03, 7 October 2021
• Argus video monitoring system
  ...remote sensing]]) with the use of time-lapse movie measurements of [[Wave run-up|wave runup]] as a diagnostic method of sampling infragravity edge waves (Ho
  13 KB (1,959 words) - 15:21, 6 April 2021
• Hydrodynamic numerical models of wave-structure interaction
  ...ng]] and wave penetration through the porous structures, wave diffraction, run-up and wave breaking. Focusing on overtopping, additional processes such as tr ...ea wall by Saville (1955<ref>Saville, T. J., 1955. Laboratory data on wave run-up and overtopping on 21 shore structures. Tech. Memo. 64, U.S. Army, Beach Er
  21 KB (3,036 words) - 16:03, 25 February 2023
• Use of Lidar for coastal habitat mapping
  15 KB (2,393 words) - 22:55, 9 October 2023
• Argus applications
  # [[Wave run-up]], to evaluate the stability of coastal structures such as [[seawall|seawal ==Quantification of wave run-up on coastal structures ==
  10 KB (1,502 words) - 21:31, 10 August 2020

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