- 1. Erosion, Weatheringand Mass Movement
2. First of all, a few reminders Swashis the movement up the
beach andbackwashis down. 3. Coastal erosion
- The force of the sea changes the coastal landscape. Waves get
their energy from the wind.
- The size of the wave is determined by:
-
- the length of time the wind has been blowing
-
- the distance of sea it has travelled over (the fetch)
- The stronger the wave, the more erosion it will cause.
4.
- Hydraulic action:the sheer force of waves crashing against the
shore and cliffs. The power of the waves forces air into cracks,
compresses it and blows the rock apart as the pressure is released,
but only after continuous wave attack month after month.
- Attrition:rocks and pebbles carried by the waves smash into
each other, wearing each other away and gradually becoming smaller,
rounder and smoother.
- Abrasion:also called corrasion - the process of rocks and
pebbles carried by the waves wearing away rocks as they are thrown
against cliffs.
- Solution:also called corrosion - chemicals in the seawater
dissolve minerals in the rocks, causing them to break up.
- Which one is not strictly an
The processes involved in erosion are: 5. Waves are one of the
most significant forces in shaping the coastline. There are two
main types of wave ... Constructivewaves are low energy waves. They
are small in height. They have a strong swash and a weak backwash.
This means that constructive waves tend to deposit material and
build up a beach. Destructivewaves have much higher energy. They
are much larger in height, often having been caused by strong winds
and a large fetch.They have a weak swash but a strong backwash so
they erode the beach by pulling sand and shingle down as water
returns to the sea. This means that less beach isleft toabsorb wave
energy. 6. 7. 8. Cave cut by abrasion & hydraulic action where
there is a weakness in the rock Caves either side of headland meet
to form arch Arch collapses to detach land from mainland Wave cut
notch - undercutting Stack Undercutting will reduce the stack to a
stump Headland Just below the water line will be a wave cut
platform Original position of headland 9.
- Erosionnecessitates movement i.e. the waves crashing against
the cliff face
- Weatheringis in-situ and does not involve movement. Weathering
can be mechanical (freeze-thaw activity) or chemical (corrosion,
sometimes called solution).
- If weathering occurs on a slope the loose debris will move with
gravity down hill. This is calledmass movement .
- Erosion by waves tends to occur at thecliff footbut weathering
and mass movement affect thecliff faceand these two are
collectively known assub-aerial processes
- There are three main types of mass movement
10. Rockfall:rapid, free-fall of rock from a steep cliff face
due to gravity. This is made worse by freeze-thaw action loosening
the rock - water enters the joint (vertical crack), freezes and
expands, breaking up the rock. A scree slope of fallen rock is
formed at the bottom of the cliff. It is also possible for free
falls to occur in very dry conditions for example clay cracks as it
dries out and then crumbles easily 11. Mudflow:occurs on steep
slopes over 10. It's a rapid sudden movement which occurs after
periods of heavy rain. When there is not enough vegetation to hold
it in place, saturated clay flows out of the cliff face, almost
like a river of mud. 12. Landslips:also known as rotational slumps,
are occasional rapid movements of a mass of earth or rock dropping
down along a concave plane. Water percolating through sandstone
gets into the clay beneath, saturating it. With the weight of the
rock above forcing down on it the clay moves seawards as a mud
flow. With the clay moving sideways the sandstone above slumps
down. Undercutting of a steep slope by the sea weakens the rock
above, making a slump more likely. 13. 14. The speed and nature of
mass movements is influenced by
- Angle of slope the steeper the slope the faster the
movement
- Rainfall a lot of water will lubricate the cliff, especially if
it is clay and lead to mud flows
- Vegetation cover with no vegetation there is nothing to impede
the movement of debris. But if vegetation is preit will absorb some
of the water and the roots will bind the soil making it more
stable.
15. Sept 1990 July 1991 Early Aug 1991 Oct 1991 16. Scree - that
will be washed away by the sea at high tide Free fall mass movement
in dried out crumbling clay What has happened here? What is this
called? 17. Sandstone Clay Wet sand falling down the cliff Why is
there a pool of water here? 18. 19. Describe what you see. Can you
explain what is going on? 20. 21. 22. Slumping Wet clay flowing
from cliff 23. Mudflow Do you know what form of mass movement this
is? 24. Waterlogged /saturated clay Water flowing out of the clay
25. What is this? Where has the sand gone? 26. Whats the evidence
that these cliffs are receding? 27. How do we know these cliffs are
receding? 28. So whats this here? Its not that long ago that I
would be standing on the cliff top out here! 29. What is it that
has weakened the cliff face? 30. Why has water collected down here?
Why is some of the cliff face a darker orange? 31. How long will it
take for the sea to remove the clay fallen from this cliff? 32. How
far does the tide come in? How do you know?Describe what this is.
What process has shaped the material? 33. Describe what has
happened on this stretch of the cliff 34. 35. Which direction is
the longshore drift? How do you know? Why have they managed the
area to the left (south) and not the right (north)? 36. 37.
WHAT?WHEN? WHERE? WHY? WHO? 38. 39. 40. 41. 42. 43. Holbeck Hall
Hotel, Scarborough a massive slump (1993) 44. Would you spend
millions protecting this coast from erosion? Why? 45. Managing
coasts
- Approaches to managing coasts fall into two types - hard
engineering and soft engineering techniques.
- Coastal protection that uses engineered man made structures
such as sea walls to defend the coast against erosion are examples
ofhard engineering
- A form of coastal protection that works with nature and does
not change the character of the environment in striking ways such
as beach nourishment are examples ofsoft engineering .
46. 47. Give TWO pieces of evidence to suggest these groynes are
working Whats the purpose of groynes? Are they hard or soft
engineered protection techniques? 48. 49. Gabions are wire cages
filled with hard rocks like flint. They act like a sea wall but are
less expensive. The downside is that they do not last as long as a
sea wall because the rocks will get worn down by abrasion and
attrition. They are sometimes used to hold back the land on the
cliff face helping to reduce the chance of mass movement 50. This
is a revetment. As the waves armed with sand and pebbles hit them
the particles are able to move through the slats but as the wave
retreats with the backwash there is insufficient energy to move
them back out to sea. In this way a beach on the land side is able
to accumulate to protect the land. 51. 52. Rock armour (rip-rap) is
sometimes dumped at the foot of the cliff. As waves crash onto them
the gaps between the boulders help dissipate the wave energy
Rip-rap is made from very hard rock, like granite. In soft rock
areas like Walton-on-the-Naze they have to be imported and are
therefore not sustainable. 53. 54. 55. When the beach is depleted
sometimes sand is dredged from the sea bed and deposited on the
beach to make it more substantial and a better protection. When the
beach is wide and deep waves gently wash onto it and do not attack
the land behind it. 56. How is the land being managed?
- Re-shaping the land to make it less steep and therefore more
stable
- Vegetated slopes to bind soil and take some water out of the
land
- Groynes to help stop longshore drift and therefore build up the
beach
- Footpaths to discourage clambering down the cliffs and eroding
the land
- Sea wall to protect against wave erosion
- Various drainage channels (difficult to see amongst the
vegetation) to ensure the clay soils do not get waterlogged
57. How many types of coastal management can you find?
