BEACH PROCESSES AND COASTAL ENVIRONMENTS Beach Reading Material Inshore oceanography Anikouchine and Sternberg The World Ocean Prentice Hall COASTAL FEATURES Cross section Map view Terminology for Coastal Environment Beach extending from MLLW to dunes cliff Shoreline where land and ocean meet Spit linear extension of shoreline due to accumulation of sediment Barrier spit or island seaward of land usually parallel to trend of land Bars and troughs seabed features in surf zone Berm relatively flat region of beach behind shoreline Foreshore seaward sloping surface located seaward of berm Backshore berm and dunes Inlet washover means to transport beach sediment landward due to tides and storms respectively Longshore littoral drift or transport water and sediment movement parallel to beach COASTAL FEATURES Cross section Map view Factors affecting formation of wind waves Duration wind blows Wind speed Distance over which wind blows fetch Terminology for Describing Waves T wave period time between two wave crests passing a point In deep water wave speed increases with wavelength Therefore waves sort themselves as they travel from source area waves with large wavelength reach beach first swell Changing Wave Character from Source to Surf Wave shape Wave characteristics change with long travel distance because waves sort themselves confused sea single wave shape pointed wave crest Waves in deep water Water molecules move in closed circular orbits Diameter of orbit decreases with depth below water surface No motion at a water depth 1 2 wavelength of wave wave base Waves in shallow water water depth 1 2 wavelength Water molecules move in elliptical orbits At seabed water and sediment moves back and forth There is an asymmetry with more transport under crest than trough causing net movement in the direction of the waves i e toward shore Waves approaching a straight shoreline wave crest Ray perpendicular to wave crest In shallow water wave speed decreases as water depth decreases waves travel progressively slower as depth decreases therefore crests bend wave refraction Waves Approaching an Irregular Shoreline wave rays perpendicular to wave crests paths of rays indicate that waves focus energy on headland eroding it and defocus energy in embayments causing sediment deposition Transitions as waves approach shoreline 1 Waves feel bottom at wave base 1 2 wavelength 10 50 meters depth 2 Seabed is eroded mud moves seaward in suspension sand moves as bedload back and forth with net drift toward shore 3 Wave speed decreases as water depth decreases wave refraction 4 Wave height increases wavelength decreases 5 Crest becomes progressively steeper ratio of wave height to wave length H L becomes large 6 At H L ratio 1 7 wave becomes unstable and breaks surf 7 Water moves up foreshore as swash and back down as backwash Types of Breaking Waves Largely dependent on steepness of seabed which is related to grain size spilling breakers are found on fine sand beaches e g southern Washington coast beaches plunging and surging breakers are found on coarse sand and gravel beaches e g northern Washington coast beaches Rip Currents Rip currents are the primary mechanism for returning water through surf zone and are the most dangerous for swimmers Also broad weak flow near seabed undertow Beach Terminology Longshore or Littoral Drift Waves break at angle to shore which causes swash at angle to shore Backwash follows gravity down foreshore Net effect is water and sediment transport along shore Beach growth during swash and backwash Swash flow up foreshore after wave breaks transport all water and much sediment but water percolates into permeable beach sand Backwash less water and sediment flow with backwash Therefore beach builds up to uniform level creating the berm Summer Beach Growth Impacts of winter storms Storms bring strong winds and larger waves Strong winds push ocean water against coast storm surge Larger waves erode beach sediment i e erode fairweather berm Sediment goes to build bars offshore build higher berm storm berm washes through dunes forming washover deposits Sediment stored in offshore bars is transported back slowly by waves during fairweather due to wave crest trough asymmetry and net drift shoreward Processes create cycle of summer winter beach profiles Summer Winter Beach Profiles Summer wider berm little sediment in bars Winter summer berm gone higher berm possible much sediment in bars Coastal Barriers Spits and barrier islands Common for trailing edge margins gentle gradients little tectonic uplift subsidence Stretch along most of US Atlantic and Gulf coasts southern Washington coast protecting Willapa Bay and Grays Harbor Landward migration is common today due to sea level rise Seaward growth can occur near fluvial sediment sources Formation of spit Longshore transport is dominant mechanism Tidal flux in out of embayment creates inlet Barrier Islands Tidal inlets at both ends Elevation depends on sand supply and winds forming dunes typically 10 m Low barrier islands can experience washover during storms Length of island depends on amount of water that must enter leave lagoon with tides tidal prism Formation of Barrier Islands Spit elongation Extension of spit becomes too long to allow inlet to transport all water between tides and a new inlet forms changing a spit into an island Bar submergence Old dune or topographic high is surrounded by water as sea level rises Bar emergence During strong storm waves create a large bar offshore which becomes island when storm surge subsides Spit Elongation Longshore transport causes spit extension Flow in and out of lagoon cannot occur entirely with changing tides Different water levels on the two sides of spit cause a new inlet to form usually occurs during storms due to washover disruption and storm surge Marsh filling lagoon Bar submergence A dune or other topographic high is surrounded by water as sea level rises Bar emergence Large bar forms offshore during storm When storm surge subsides bar is left at or above sea level Winds create dunes that raise bar above sea level Sea Level change Past 40 000 y Sea level rise and migration of barriers Shorelines migrate in response to sea level rise sediment supply usually small for barriers no coastal mountains on trailing edge margin shoreline erosion waves tidal currents storms tectonic motions not important for most barriers on trailing edge margins tectonics are weak consolidation not important for
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