Coasts 🏖️🌊

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    Created by
    Rhiannon Witts

    Cards (119)

    • constructive waves
      • Wave height-small
      • Wavelength-long
      • Wave period-long (16-8 per minute)
      • Wave steepness-gentle, tend to spill
      • Wave energy-low
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    • Constructive waves
      1. Push sediment forward
      2. Build sandy beaches
      3. Sometimes backed by sand dunes
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    • Destructive waves
      • Wave height-big
      • Wavelength-short
      • Wave period-short (10-14 per minute)
      • Wave steepness-steep, tend to plunge
      • Wave energy- high
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    • Destructive waves
      1. Strong backwash
      2. Move material down beach
      3. Create a steep upper beach (storm beach)
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    • Tides
      Result from the gravitational attraction on water of the moon and sun
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    • Moon
      Has twice the impact of the sun on tides
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    • Tidal frequency
      • Most coastlines have semi-diurnal tides (two high and two low tides every 24 hours)
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    • Spring tides
      • Occur when the sun and moon align, giving a stronger gravitational pull and higher than average tides
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    • Neap tides
      • Occur when the sun and moon are at right angles with the earth, causing lower than average tides
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    • Tidal range
      • The height difference between high water and low water during the monthly tidal cycle
      • Micro tidal - less than 2m
      • Macro tidal - in excess of 6m
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    • Tidal currents
      1. Flood the intertidal zone causing entrainment and deposition of material
      2. Ebb tide carries material in the reverse direction
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    • Shore normal currents
      Occur when waves approach the shore with their crests parallel to the coastline
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    • Coastal sediment budget
      The balance between the system and volume of sediment entering or leaving
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    • Positive budget
      • More inputs than outputs
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    • Negative budget
      • More outputs than inputs
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    • Balanced budget
      • Volume of sediment in = volume of sediment out
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    • Sediment cell
      A length of coastline where the movement of sediment is self contained
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    • Equilibrium
      The stability in a system
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    • Dynamic equilibrium
      • Some change in a system but in a more gradual and long term way
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    • Steady-state equilibrium
      • A system is broadly unchanging and its relationship between inputs and outputs are similar, may be seasonal variation but on average the system is stable
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    • Meta-state equilibrium
      • A place switches between types of equilibrium, usually triggered by an event such as a storm or human activity
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    • Positive feedback
      Amplifies initial change in the system, makes it worse
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    • Negative feedback
      Dampens the effect of change
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    • Waves
      • Most affecting coastal zones are wind-generated
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    • Fetch
      The distance over which wind blows to generate waves
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    • Orientation of the coast
      Greatest energy occurs when strong winds blow in the same direction as the waves over a long period of time
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    • Wave approach
      Waves are modified as they approach land due to the decreasing water depth
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    • Wave refraction
      Causes the wave energy from the breaking waves to vary along the coastline
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    • Wave reflection
      Along rocky coastlines with deep water offshore, the waves are reflected back from the cliffs
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    • Lithology of the coastline
      • The make up of the rock, including hardness, chemical composition, and permeability
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    • Igneous and metamorphic rocks
      • Harder and more resistant to erosion
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    • Sedimentary rocks
      • Often made up of softer, unconsolidated materials like sand, clay, and gravel, more easily eroded
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    • Chemical composition
      • Some rocks are chemically inert, others prone to chemical weathering
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    • Permeability
      • If there are pores, fissures, cracks or joints in the rock, surface water will seep through which will increase resistance to subaerial processes
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    • Rock structure
      • The way rocks are geologically arranged, including joints, faults, and folds
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    • Physical/mechanical weathering
      • Rock breaks apart and falls to the foot of the cliff, can protect the cliff from erosion
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    • Freeze-thaw
      • Water enters cracks and joints, repeating freezing and thawing exerts pressure, causing pieces to break off
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    • Crystal growth
      • Seawater connects in cracks, when the water evaporates the salt crystals are left which exerts pressure on the rock
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    • Wetting and drying
      • Expansion and contraction of minerals, most effective on clay and in macro-tidal environments
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    • Mass movements
      • The downslope of material under the influence of gravity, type depends on geology
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