2.2. Coastal landforms of cliffed and constructive coasts Flashcards

1
Q

Define cliff profiles

A

the shape of a cliff cross-section is known as the profile they owe their form to geology, sub-aerial processes and wave energy along a given stretch of coastline

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
2
Q

What do variations in cliff profiles reflect?

A
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
3
Q

Define geo

A

A widened crack or inlet

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
4
Q

Factors influencing cliff form (4)

A
  1. Sub-aerial processes of weathering and mass movement.
  2. Lithology and rock structure
  3. Isostatic (geology gravitational equilibrium between the earth’s lithosphere and asthenosphere) and eustatic (sea level changes due to an alteration in the volume of water or shape of ocean basin) changes
  4. Human activity
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
5
Q

Define bay

A
  • An indented area of land normally found between two headlands.
  • Bays are usually more sheltered so there is less erosive power, meaning you often find beaches in bays.
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
6
Q

Define headland

A

A piece of land that sticks out into the sea

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
7
Q

How do bay and headlands form? (3)

A
  • They are formed when you get alternate layers of hard and soft rock.
  • The sea is able to erode the soft rock a lot quicker than the hard rock making a bay.
  • The harder rock forms a headland.
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
8
Q

Process of coastal erosion (7)

A
  1. Large crack opened up by hydraulic action
  2. The crack grows into a cave by hydraulic action and abrasion
  3. The cave becomes bigger and breaks through the headland forming a natural arch
  4. The arch will gradually become bigger until it can no longer support the top of the arch.
  5. When the arch collapses, it leaves the headland on one side and a stack (a tall column of rock) on the other.
  6. The stack will be attacked at the base.
  7. This weakens the structure and it will eventually collapseto form a stump.
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
9
Q

Formation of wave cut platforms (6)

A
  1. High steep wave breaks at the foot of a cliff.
  2. Hydraulic action and abrasion erodes a weakness in the rock at the base of the cliff to form a wave-cut notch
  3. The continual undercutting increases the size of the wave cut notch which increases the stress and tension in the cliff.
  4. The cliff eventually collapses leaving boulders at the base
  5. As these processes are repeated, the cliff eventually retreats leaving a wave cut platform
  6. Wavecut platform cannot exceed 0.5km in width as the waves break too far away from the cliff
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
10
Q

Influence of dip of strata (địa tầng)

A
  • Strata dipping inland -> relatively stable Strata dipping to sea -> relatively unstable Impermeable layers over permeable -> stable Permeable layers over impermeable
  • > unstable
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
11
Q

Define shore platform

A

a rock shelf fringing the coastline between the low and high water marks

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
12
Q

3 types of rocky shoreline

A
  1. Sloping shore platform
  2. Sub-horizontal shore platform
  3. Punging cliff
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
13
Q

Bevelled cliff (4)

A
  1. A form of composite cliff
  2. Vertical cliff was formed due to marine processes in the last interglacial period (warm) when sea levels were higher than they are today
  3. During the subsequent glacial phase (cold), sea levels dropped => freeze thaw affected the former sea cliff, forming a bevelled age
  4. When the sea level rose again during the following warm period, there was renewed wave erosion which removes the debris and steepens the base of the cliff leaving the upper part at a lower angle
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
14
Q

2 types of coastline

A
  1. Swash aligned coasts: are orientated parallel to the crests of the prevailing waves. They are closed systems in terms of longshore drift transport and net littoral drift is 0
  2. Drift-aligned coasts: are orientated obliquely to the crest of the prevailing waves. The shoreline of a drift-aligned coast is primarily controlled by longshore sediment transport processes. Drift-aligned coasts are open systems in terms of longshore transport. Spits, bars, tombolos are features of this coast
How well did you know this?
1
Not at all
2
3
4
5
Perfectly
15
Q

Define beach

A

the accumulation of material deposited between low water mark spring tides and the highest point reached by storm waves at high water mark spring tides

How well did you know this?
1
Not at all
2
3
4
5
Perfectly
16
Q

Define backshore (4)

A
  • Area of a beach extends from the limit of high water foam lines to dunes or extreme inland limit of the beach. Only affected by waves during exceptional high tides or severe storms
  • Dominant in coarser shoreline
  • High tidal range
  • Right angles
17
Q

Define foreshore (4)

A
  1. Lower part of the beach where water meets the land
  2. Exposed at low tide
  3. Fulls and troughs (swales)
  4. Stretches of sands
  5. Bayhead beaches
18
Q

Define littoral deposits

A

Any deposited materials in the backshore and foreshore zone. Usually coarse materials

19
Q

Define berm ( con chạch, bờ giữ nước)

A
  • A nearly horizontal plateau on the beach face or backshore formed by the deposition of beach material by wave action
20
Q

4 Factors influencing formation of beaches

A
  1. Size, shape and composition of materials
  2. Tidal range
  3. Wave characteristics
  4. Season
21
Q

Beach materials on beach formation (4)

A
  • Shingles allow rapid infiltration → less squash and backwash
  • Swash > backwash = deposition
  • Sand produces a lower angle = less percolation
  • Backwash greater than on gravel beach
22
Q

Seasons on beach formation (8)

A
  1. Constructive waves in summer = build up beach; destructive waves in winter change the size and shape of beach
  2. The winter waves erode sand off the beach and store it in offshore bars.
  3. The winter waves have enough energy to not only pick up sand as they come into shore but also transport it off of the foreshore.
  4. The largest storm generated waves also erode the face of the berm crest, reducing the width of the berm.
  5. The sand is then deposited in sandbars off-shore.
  6. During summer, the waves are milder. These waves have enough energy to transport sand as they come into shore.
  7. As the water flows back to the ocean, there is not enough energy to transport as much sand as the wave brought onto the forshore back off shore, resulting in a net gain of sand.
  8. This results in the gradual build up of the berm crest and the berm widens for the summer
23
Q

Define longshore drift

A

The process by which beach material is transported along the coast by the action of waves. Waves hit the beach at am angle to the coast.This is because in many areas the prevailing wind controls the direction of the waves

24
Q

When does deposition occur?

A
  • If swash is greater than backwash – beaches are constructed/built up and if longshore drift is taking place then beaches are built along the shore.
25
Q

Define spit

A

A spit is a long, narrow piece of land that has one end joined to the mainland and projects out into the sea or across an estuary. It is made up of sand, sediment and shingle

26
Q

Formation of spit (6)

A
  1. Longshore drift moves sand and other sediment along the coast
  2. When there is a change in the direction of the coastline( Where it opens out into an estuary) the material is deposited in the deeper waters
  3. Continuous deposition builds up ridges until the ridge is built above the level of the sea and longshore drift can continue.
  4. A spit is formed (Spurn Head) Material continues to move across the estuary until it reaches fast flowing waters which prevents further growth
  5. In some cases the spit begins to curve round. This is caused by a change in the dominant wind direction
  6. A salt marsh forms in the sheltered area behind the spit where the material carried from the river is deposited
27
Q

Define bar

A

A bar is essentially a spit that connects 2 headlands

28
Q

Formation of bars (7)

A
  1. Longshore drift moves sediments along the coast
  2. When there is a change in the direction of the coastline, the material is deposited in the deeper waters
  3. Continuous deposition builds up ridges until it is above sea level and longshore drift continues
  4. When there is no major river flows through to the sea, the process continues forming a bar
  5. Bars can also form when a sandbank develops offshore (parallel to the shore) as a result of constructive waves or winds pushing breakpoint bar material forward
  6. A lagoon is formed on the landward side
  7. Overtime, lagoon will become infilled by deposition
29
Q

Define tombolos

A

A ridge of material that links an island with the mainland

30
Q

Formation of tombolos (6)

A
  1. Longshore drift transport beach sediment along a coastline
  2. There’s a sudden change in the shape of the coastline such as at a headland
  3. Longshore drift continues to transport material in the same direction instead of following the coastline. This transports the material out to sea
  4. As the strength of the drift weakens away from the coastline, sediment is deposited, forming a spit
  5. Sometimes a spit extends far enough out to sea to join a coastal island to mainland.
  6. When it does so, the spit is known as a tombolo.
31
Q

Define barrier islands

A

Are natural sandy breakwaters that form parallel to a flat coastline

32
Q

Formation of barrier islands (3)

A
  1. 8000 years ago the sea level was 100m or more lower. Beach ridges, or dunces, were formed along the continental shelf by waves and winds
  2. The sea level rose, breaking through the ridge and flooding the low area behind it. => It formed a lagoon. As a result, the former dune area became an island
  3. Constant action by waves and the continuing rise in the sea level caused island to migrate landward as sand was removed from the beach and deposited inland. Its present position will change for the same reasons
33
Q

Define sand dunes

A

small ridges or hills of sand found at the top of a beach, above the usual maximum reach of the waves

34
Q

Formation of sand dunes (4)

A
  1. As the tide goes out, the sand dries out and is blown up the beach. At the top of the bach is a line of seaweed and litter called the strand line. A small embryo dune forms in the shelter behind the strand line. This dune can be easily destroyed unless colonised by plants
  2. Sea couch grass colonises and help bind the sand. Once the dune grows to ovr 1m high, marram grass replaces the sea couch. A yellow dune forms at 10-20m high with a long rooted marram forming a good sand trap
  3. Once the yellow dune is over 10m high, less sand builds up behind it and marram grass dies to form a thin humus layer. As soil begins to form, other plants are able to grow on the dune. This is called semi-fixed dune
  4. As time goes on, the soil develops and becomes damper and richer. Lichens, mosses and flowering plants can grow on the dune
35
Q

Define salt marsh

A
  • are coastal wetlands that are flooded and drained by salt water brought in by the tides.
  • > They are marshy because the soil may be composed of deep mud and peat.
36
Q

Formation of salt marshes (5)

A
  1. A thin layer of mud forms over sand which is covered at each tide. The only plants are algae growing on the mud
  2. More mud deposited and the first plant appear. The plants trap more mud and silt. The marsh is covered at each high tide and channels are cut as the water recedes
  3. Further plants appear higher up the marsh. This accelerates mud accretion. Channels deepen as the marsh surface rises
  4. More plants move into the higher zones and the mud deepens. High tides still flood the marsh but low tides are confined to the creeks, which are further eroded as the water runs off
  5. The marsh is now growing slowly and the mud is very deep. Further plants colonise the higher zones. Erosion undercuts the creek banks and some collapse leaving bare salt pans