Coastal Landscapes: The Interaction Between Human & Physical Processes (Edexcel GCSE Geography A)
Revision Note
Written by: Bridgette Barrett
Reviewed by: Jenna Quinn
Coastal Case Study - The Dorset Coast
The geology of the Dorset coast has both erosional and depositional landforms
There are bands of sedimentary rock, consisting of soft clay and harder limestone and chalk
These rocks, which erode at different rates, create a range of landforms, including:
Headlands and bays
Arches
Stacks
A tombolo
This stretch of coastline forms part of the commonly known Jurassic Coast
It stretches for 155km from Exmouth in Devon to Poole in Dorset
How has the coast changed?
Rock Formation along the Jurassic Coast
Triassic Period | 250–200 million years ago, rocks were formed in desert conditions—sandstone |
Jurassic Period | 200–140 million years ago, sea levels were higher and layers of sedimentary rocks such as clay and limestone were formed |
Cretaceous Period | 140–65 million years ago, sea levels fell and rose, depositing more sedimentary layers such as chalk |
Quaternary Period | 2.6 million years to present, after the last ice age (10,000 years. ago), sea levels rose again and the processes of erosion and deposition have created the modern coastline |
Erosional landscape
Durdle Door is an example of an arch formation
Wave erosion opened a crack in the tough limestone headland
It is unusual as it has formed parallel to (along) the coastline
Further erosion has led to a cave, which has developed into an arch in the headland
Softer rocks behind the limestone have been washed away, leaving a line of chalk cliffs
These are being eroded by mechanical, chemical and biological weathering
Lulworth Cove is a small bay which formed when a gap was eroded in the band of tough limestone
Lying behind the limestone is a band of soft clay, and this has been eroded to form a bay
The entrance to the cove is narrow because the harder band of limestone is more resistant to erosion
The limestone cliffs forming the back wall of the cove are vulnerable to mass movement and sometimes experience small slides and slumps
Old Harry and his wife sit at the end of The Foreland
This chalk headland has eroded to form caves, arches and a stack (Old Harry)
Further erosion has resulted in a stump called Old Harry's Wife
Chemical weathering and erosion have gradually eroded these features
Biological weathering, through surface vegetation on the headland, is also weakening the rock
Main features along the Dorset Coast, UK
Map showing main features of the Dorset Coast, UK
Swanage sits on two beach bays called Studland Bay and Swanage Bay
The cliffs behind the bays are areas of soft sandstone and clay
Between the two bays is The Foreland, a headland of harder chalk
Longshore drift affects the bay, carrying material (mainly gravel) from the south to the north of the beach
Erosion is the dominant process in the bay, with the depositional beach losing material year on year
Depositional landscape
Chesil Beach is an 18-mile-long pebble/shingle barrier beach
The beach has moved landwards and is often referred to as a tombolo (spit that joins an island to the mainland)
It stretches northwest from Portland to West Bay.
The formation of Chesil Beach is still debated but it is thought to be the result of glacial deposition
There is a shallow saltwater lagoon called The Fleet Lagoon that separates the beach from the mainland
Studland Bay has four miles of sandy beaches within sheltered waters and backed by sand dunes
Studland’s dunes are unusual because:
Sand only began to be deposited about 500 years ago
A freshwater lake has formed inland, called the Little Sea
The dunes are made of acidic sand that has a low shell content
This acidity means that the dunes will be colonised by dune heather and not grass
Impacts of the 2014 Valentine’s Day storm
On 14 February 2014, a large storm battered the coastline with winds of up to 80mph and storm waves of more than 30 feet high
Sea defences were breached and huge waves threw rocks from Chesil Beach into the streets behind the seafront
Portland Beach Road was under 4 feet of water from flooding at Hamm Beach
Parts of Chesil Beach were lost and the 150-million-year-old Pom Pom Rock collapsed
West Bay cliffs retreated by a few metres after the cliffs collapsed
Potential effects of climate change on the coast
As global sea temperatures increase, water levels rise due to melting ice caps and seawater expansion
A warmer atmosphere leads to more intense and frequent storms, creating powerful and destructive waves
A warmer atmosphere can hold more water vapour, which will lead to higher levels of precipitation and increased rates of weathering and erosion. This will lead to increased cliff instability, leading to increased levels of landslips and falls
Climate change can impact the whole of the UK's coastline, particularly those areas where the cliffs are made from softer rock and clay or are lying close to sea level and can, therefore, flood
Examiner Tips and Tricks
You may not be asked about the case study directly in your exam. However, you should ensure that you can take the knowledge and understanding from the case study and apply it to other examples. For example, the formation of Lulworth Cove gives you knowledge and understanding of how coves form on a concordant coastline.
Last updated:
You've read 0 of your 10 free revision notes
Unlock more, it's free!
Did this page help you?
