Coastal Structure (Edexcel GCSE Geography A)
Revision Note
Written by: Bridgette Barrett
Reviewed by: Jenna Quinn
Concordant & Discordant Coastlines
The influence of geological structure
Geological structure influences the shape of the coastline
A coastline made up of softer rocks such as sands and clays will be more easily eroded
Coastlines of more resistant, harder rock will take longer to erode and produce rugged landscapes
Joints and faults expose rock to erosion and weathering
The differences between hard and soft rocks will also impact the shape and characteristics of cliffs
The Effects of Rock Type on the Coastline
| Hard Rock | Soft Rock |
---|---|---|
Shape of cliff | High and steep | Generally lower and less steep |
Cliff face | Bare rock and rugged | Smoother; evidence of slumping |
Foot of cliff | Boulders and rocks | Few rocks; some sand and mud |
Discordant and concordant coastlines
The angle of the rocks at the coastline determines the shape that the coastline will take
There are discordant coastlines and concordant coastlines
Dorset coastline
Discordant coastlines
A discordant coastline is one where the rock structures meet the coast at an angle; they run perpendicular to the oncoming waves
Alternating rock types lead to the formation of headlands and bays
To the east of Lulworth Cove in Dorset, the coastline runs north to south and so the rocks meet the coast at an angle, creating a discordant coastline
Headland and bay formations on a discordant coastline
Concordant coastlines
Concordant coastlines are where the rock structures run parallel to the coast
An example of a concordant coastline can be found in the area around Lulworth Cove in Dorset
More resistant Portland Limestone runs parallel to the sea, with less resistant Purbeck Limestone and Wealden Clay behind it
The formation of coves has occurred where the water has broken through at weaker points in the Portland Limestone
Concordant coastline
Concordant coastline in South Dorset
Wave Types & Characteristics
The coast can be defined as:
The meeting point between land and sea
Coastal processes are divided into two parts:
Marine processes: Offshore (water-based)
Terrestrial processes: Onshore (land-based)
These processes are further divided into:
Wave action
Erosion
Transportation
Weathering
Mass movement
These processes produce the distinctive landforms found around our coastlines
Examiner Tips and Tricks
When you are asked to describe the formation of a landform, you must refer to the physical processes involved in its formation.
You must also use the correct terminology and show your understanding of each of the processes involved.
Wave action
Waves are marine processes that erode, transport and deposit material
Waves are formed as winds blow over the surface of the sea
The height and strength of a wave are dependent on 3 factors:
The fetch
The amount of time the wind blows
The strength of the wind
The greater the strength, time and fetch of the wind, the larger the wave
As a wave enters the shallow water of the coast, friction from the seabed causes the wave to lean forward and eventually crest and break onto the beach
The movement of water up the beach is called the swash, and the return movement is the backwash
There are two types of waves:
Destructive waves erode the beach
Constructive waves are beach builders
Comparison of Wave Type
| Constructive Wave | Destructive Wave |
---|---|---|
Swash | Strong | Weak |
Backwash | Weak | Strong |
Wavelength | Long with low height | Short with high height |
Frequency | Low (6–8 per minute) | High (10–12 per minute) |
Type of beach | Sandy: depositional | Shingle: erosional |
Constructive waves are beach builders and destructive waves are the destroyers
Worked Example
Identify which statement below best describes the characteristics of a destructive wave.
(1 Mark)
| A | long wavelength and weak backwash |
| B | short wavelength and weak backwash |
| C | short wavelength and strong backwash |
| D | long wavelength and strong backwash |
Answer:
The answer is C (1).
A destructive wave has a short wavelength, high frequency rate, steep wave gradient and a strong backwash
Last updated:
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?