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Chapter 5: Coastal change and conflict
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Mind Map on Chapter 5: Coastal change and conflict, created by laurenclark90 on 03/05/2014.
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laurenclark90
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Resource summary
Chapter 5: Coastal change and conflict
Geology of coasts
Soft rock coasts
clay - easily eroded by by the sea
Holderness, Yorkshire
cliffs
May be high but less rugged and steep than hard rock coasts
piles of mud + clay on cliff face
at foot of cliff - few rocks, some sand + mud
sea often brown
Hard rock coasts
granite - reistant to erosion
Land's End, Cornwall
cliffs
high, steep + rugged
bare cliff face
some rocks + boulders at foot
erosion features e.g. caves, arches, stacks
erosion
Hydraulic action
Waves hitting rock foces air into cracks. Trapped air, released quickly, breaks up the rock
Abrasion
Waves pick up stones and hurl them against the cliff which wears away the rock
Attrition
Pebbles carried by waves - rounder + smaller as they collide with eachother
Coastal landforms
At a headland
Cave - when waves erode weakness in the rock e.g. joint/fault
Arch - when 2 caves erode back from either side of a headland and meet in the middle
Stack - when the arch roof weathers and arch collapses
Stump - stack eroded by wind and water
wave- cut platform
1. waves cause undercutting at base of slope
2. forms a notch that gradually gets bigger
3. rock above loses support and collapses
4. debris gradually washed away by waves
process repeats - cliff slowly retreats backwards and becomes steeper
e.g. seven sisters, east sussex
Coasts
concordant coast - alternating hard and soft rocks occur parallel to coast and are eroded at different rates
formation of lulworth cove
1. waves slowly cut through weakness in resistant band of limestone - forms a small narrow entrance to cove
2. cove widens- soft clay eroded quickly
3. a band of chalk behind the clay is more resistant so erosion is slower
Discordant coast - alternating hard and soft rock occur at right angles to coast and are eroded at different rates
hard rock stands out as headlands and soft rocks form bays
waves
constructive
in calm conditions waves are
small, weak, low frequency
don't break with much force
add sand/ sediment to coastline by deposition
swash is greater than backwash so sediment is pushed up beach
long wavelength
shallow gradient
strong swash
weak backwash
destructive
break with lots of force + energy
have the power to carry out erosion of beaches + rocks
high frequency
backwash is greater than swash so sediemnt taken away from beach into sea
steep gradient
tall waves
short wavelength
weak swash
strong backwash
Longshore drift
1. waves approach the coast at an angle
2. Swash pushes sand and gravel up beach at same angle
3. Backwash carries sand and gravel back down beach at 90 degrees under force of gravity
4. sand + gravel move along beach in a zigzag fashion
5. sand is lighter so moves up the beach further than gravel or pebbles
Formation
spit
longshore drift carrys beach sediment beyond a bend in coastline
leading to an extention of the beach into the open water
end of spit becomes curved when exposed to srong winds + waves
deposition happens in the sheltered water behind then spit, and becomes a salt marsh
definition: material deposited by the sea which grows across a bay/river mouth
Bar
if longshore drift continues along the spit
over time, the sand + pebble accumulation grows larger and builds builds across an estuary to form a bar / join up with coastline on the other side
bar cuts off rivers from the sea so water builds up behind bar - forms a freshwater lake/ lagoon - e.g. slapton Ley, devon
Weathering
Mechanical
salt cystal growth (left from evaporated seawater) causes stress in rock - breaks into tiny fragments
Chemical
acid rain - reacts with weak minerals - dissloves + rock decays
Biological
roots of vegetation - grow in rock cracks + slit rock apart
Mass movement
rock fall
fragments of weathered rock from a cliff face fall under gravity + collect at base
Slumping
bottom of cliff eroded by waves
slope becomes steeper and cliff can slide downwards in a rotational manner
triggered by saturation due to rain
this lubricates the rock and makes it heavier
climate change on marine erosion + deposition
uk - rising sea levels as warmer temps. from global warming melt glaciers ans ice sheets
changing storm patterns - stronger + less predictable
impacts on marine erosion
stronger storms- bigger wave energy - more erosion
abandoned cliffs - come under new attack by waves as sea level rises
soft clay coasts - faster retreat
impact on marine depositional features
rising sea levels - beaches + bars at risk of submergence and erosion
e.g. Studland beach, Dorset - 1 million tourist p.a (eroded by 2-3m a year)
facilities relocate + beach replenished
extreme weather becomes more common - violent storms (+hurricanes)
destroy beaches/ spits
rising sea temp. - more storm energy - spits breached creating large gaps
e.g. 2004 hurricane charley - coast of florida - north captiva spit breached - 450m gap due to high tides + v. strong winds
climate change
Sea level rise - 0.3m prediction by 2100
loy-lying areas at risk e.g bangladesh + maldives
Thames estuary flooding - 12X more frequent by 2100
TTB - holds back v.high tides
'Thames estuary 2010' new project to build new flood walls along river
Storms at sea
increase height of waves - cause flooding
the environment agency manages + forecasts
How fast a coast retreats depend on ...
Rock type - hard rocks erode slower that soft
Number of faults + joints - with more the rocks erode faster
Fetch - if wind blows over a wide area of sea (fetch), the waves are stronger + will have a greater impact on cliffs
cliff exposure - ones exposed to strong winds + weather will erode quicker than ones sheltered
Storms - ones exposed to frequent storms erode quicker
Sea defences - those protected have a slow retreat
Cliff erosion effects
Houses destroyes
Farmland lost
loss of income
Hotels + caravan parks abandoned
loss of roads
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