Tuesday, May 21, 2013


Wave Processes 
Transportation of Material

Different types of sediments or materials such as white sand, yellow sand, shingle (pebbles) and mud can be found along the coastline. Waves and currents constantly move these sediments up and down and along the coastline. This is called coastal transportation.
Sediment is moved by the waves in a number of ways. The figure below shows the different ways.
Traction: this is where heavier particles are slowly rolled long the sea bed.
Saltation: some materials move in a bouncing manner as they are disturbed by other particles knocking into them.
Suspension: the lighter materials can be picked up and carried within the water. Sand is mostly transported this way.
Dissolved load: dissolved chemicals will be transported in solution. Limestone (calcium carbonate) is often transported in this way. 
Diagram showing how sediments are transported.


Longshore Drift 
Materials are carried and deposited on the beach by the swash of waves. The backwash then drags the material back into the ocean. By this action, material is transported along the coastline, this process in known as longshore drift.

Longshore Drift 

Diagrams showing how material is transported along the coastline 
If the waves approach the shore parallel to the shore, the materials move up and down the beach, whereas, if the waves approaches the shore at an angle the materials are transported in a ‘zig-zag’ fashion. As a result of longshore drift, it is likely that sediments or materials will accumulate or build up at one end of the beach. 



Thursday, May 9, 2013

Coastal Landforms (Features of Erosion)

Land forms on the coast are created or formed as a result of wave processes such as corrasion/abrasion, hydraulic, solution and attrition. These processes erode the coast and the material is transported and deposited along the coastline. As a result of these processes affecting the coastline, a number of landforms are created. We can categorize the landforms into two categories: features of erosion and features of deposition.
Features of erosion include cliffs, notches, wave-cut platforms, stacks and headlands and bays, caves, arches. While features of deposition include beaches, spits, tombolos, bars, etc.

The diagram below show features typical to coastal erosion. There are cliffs, caves headland, etc. The waves attack the weak areas of the rock and leave the resistant areas to form the different features.

Coastal Landforms

Cliffs, Notches and Wave-cut Platforms

Cliffs are steep rocky faces, often nearly vertical facing the sea. Some are often high depending on the height of the land forming the coast. A cliff is formed as the waves erode the base of the coast and forms a wave-cut notch. After years of erosion, the notch gets deeper and deeper until the overlying cliff can no longer supports it own weight and collapses.  
As the erosion continues, a wave cut notch or notch is cut into the base of the cliff. The notch is either created by wave action or by bioerosion.
Cliffs undercut by notches may eventually collapse and the shoreline will recede (go back) inland to form a wave-cut platform. Wave-cut platforms are usually scraped and smoothed by abrasion. At high tide the platform is covered and is seen at low tide.

Diagrams showing how cliffs, notches and wave-cut platforms are formed. 
Diagram showing how cliffs, notches and wave-cut platforms are formed. 

Headlands and Bays

Along the coastline, all areas are not vulnerable to erosion. Some areas of land that juts out into the ocean come under attack by waves more than indented areas. These points are called headlands and the indented areas between two headlands are called bays. A headland is a section of rocky coastline that protrudes into the sea while a bay is an indentation in the coastline usually found between two headlands. Headlands are formed when the presence of hard and soft rock line the coastline.  Erosion occurs at different rates, that is, the soft rock eg. shale is eroded faster than the harder, resistant rock eg. chalk. Where the more resistant harder rock is left it sticks out into the sea forming a headland and where the erosion of the soft rock is fast, it forms a bay. 
Diagram showing the formation of headlands and bays.
Retrieved from: http://geobytesgcse.blogspot.com/2007/08/coastal-erosion-landforms-features-and.html


Caves, Arches, Stacks and Stumps

In a headland, processes of erosion are usually active where there are joints or faults. Wave energy work on these areas and gouge or hollow them out to form caves. In due course, the erosion may lead to two back to back caves breaking through the headland, forming an arch. Gradually, the arch is enlarged by erosion and weathering. Eventually, the roof collapses and forms a pillar of rock called a stack. The stack is then eroded and shrinks to form a stump. 
Read More: Caves occur when waves force their way into cracks in the cliff face. The water contains sand and other materials that grind away at the rock until the cracks become a cave. Hydraulic action is the predominant process. If the cave is formed in a headland, it may eventually break through to the other side forming an arch. The arch will gradually become bigger until it can no longer support the top of the arch. When the arch collapses, it leaves the headland on one side and a stack (a tall column of rock) on the other. The stack will be attacked at the base in the same way that a wave-cut notch is formed. This weakens the structure and it will eventually collapse to form a stump. One of the best examples in Britain is Old Harry Rocks, a stack found off a headland in the Isle of Purbeck.
 RETRIEVE FROM>>>http://www.bbc.co.uk/schools/gcsebitesize/geography/coasts/erosional_landforms_rev3.shtml


Diagram showing the formation of caves, arches, stacks and stump.