Coasts EQ1

?
  • Created by: Yespacito
  • Created on: 11-01-20 19:53
View mindmap
  • Coasts EQ1
    • Categorising Coasts
      • Regions of the coast
        • Backshore: only affected by waves during spring tides or storms
        • Foreshore: between the high and low tide points, where most wave processes occur
        • Nearshore: area of intense human activity eg. fishing. Forms part of sediment cells.
        • Offshore: deep water away from land where offshore drilling occurs.
      • Divisions of coasts
        • Rocky coasts
          • Has cliffs which can vary in height and lithology. Clear land - sea boundary
        • Coastal plains
          • Gradually slope towards sea - forms sand dunes and mud flats. Blurred boundary between land and sea
        • Examples of contrasting coasts
          • Flamborough head - rocky coast. Has wave-cut platform exposed at low tide with steep angle
          • Belgian sand dunes: Beach submerged at high tide. Vegetation stabilises coast  so erosion is reduced
          • Estuarine coast at Lymington, Hampshire: Mud flats exposed at low tide, vegetation at backshore forms a salt marsh. Transition from land to sea more gradual
      • Criteria to classify coasts
        • Formation processes
          • Primary coasts dominated by terrestrial processes
          • Secondary coasts dominated by marine erosion
        • Relative sea change
          • Emergent coasts rise eg. by tectonic uplift
          • Submergent coasts sink eg. sea level rise
        • Tidal range - distance between tides
          • Microtidal is less than 2m
          • Mesotidal is between 2 and 4m
          • Macrotidal is more than 4m
        • Wave energy
          • If wind slow and fetch short, low energy
          • If high energy, exposed and long fetch, high energy
      • Formation of different coasts
        • Rocky coasts
          • Steep cliffs dominated by marine erosion
            • Unvegetated
            • Little debris because it gets transported away.
          • Shallower cliffs are dominated by sub-aerial processes
        • Coastal plains
          • Fall in sea level exposes seabed and deposition causes coastal accretion so coast moves seaward
          • Dynamic equilibrium - inputs into a coastal system (eg. erosion) occur at the same rate as outputs (eg. deposition)
    • Geological Structure
      • Features of geological structure
        • Strata: the layering of different types of rock
        • Deformation: the degree to which the rock layers are twisted or deformed by tectonic activity
        • Faulting: fractures that are caused by rocks moving from their original position
      • Discordant coasts
        • Rock strata run perpendicular to the sea
        • Headlands and bays
          • Soft rock erodes faster than hard rock, so the hard rock headland juts out while the bay is inland
          • Effect on waves: in deep water, crests are parallel but as they approach a bay, they curve to fill the bay. This wave refraction means wave energy is focused on headlands
      • Concordant coasts
        • Rock strata run parallel to the sea
        • Coves: water erodes through a fault/crack in the hard rock which then rapidly erodes the soft rock behind it, making a large area of water with a narrow entry
        • Dalmatian coasts: tectonic activity forms a series of anticlines and synclines. During the Holocene period, eustatic sea level rise submerged most of the anticlines, just leaving the tops of the ridges behind, parallel to the coast
        • Haff coasts: Sediment is built up parallel to the coast across a cove, forming a bar with a lagoon behind it.
      • Cliff profiles
        • Dip: angle of the rock to the sea, affected by tectonic activity
        • Faults: A particular rock type is moved up or down by tectonic activity, and the layer is seperated
        • Joints: the point where 2 rock strata meet
        • Fissures: small cracks in rock that can be exploited by erosion
      • Northumberland Heritage coast case study
        • Cullernose point: a headland formed by hard rock being resistant to erosion
        • Small caves form in layers of limestone after cracks are exploited by erosion
        • Anticlines caused by tectonic activity
    • Factors affecting coastal recession
      • Lithology
        • Igneous: Slowly erode, interlocking crystals so resistant. Low jointing so few regions for exploitation by erosion
        • Metamorphic: Slow, foliation (all crystals in one direction) so weaknesses. Often folded so erosion exploits
        • Sedimentary: Fast, clastic (poorly cemented), fractured.
      • Permeability of rock/cliffs
        • If permeable, water can flow thru strata
        • Water Pressure: water in strata exert pore water pressure, exerted by water above, so less stable so slumps
      • Vegetation
        • Halophytes: tolerate saltwater in roots, saltwater
        • Xerophytes: Tolerate dry conditions eg. sand dunes
        • Marram grass adaptations
          • Tough, waxy, flexible leaves so resilient to sand blasting and limit water loss by transpiration
          • 3m roots so tap water below surface
          • Grow 1m per year, so keep pace with deposition of sand
      • Plant succession
        • Sand dune formation
          • Specialised species grow (pioneer plants)
            • Ends up as climatic climax community
          • Sand dune ecosystem called psammosere
        • Salt marsh succession
          • Gut weed binds mud
            • Cord grass stabilises so mud accretion
              • Salt marsh grass causes height increases
                • Scurvy grass and rush develop profile
          • Salt marsh ecosystem called halosere
          • Importance of estuaries
            • Sheltered from strong waves so deposition occurs
            • Found at end of river so sediment transported to mouth and can be added at high tide

Comments

No comments have yet been made

Similar Geography resources:

See all Geography resources »See all Coastal environments resources »