This page outlines the two main approaches to coastal defence: soft engineering and hard engineering.

Soft engineering is described as a more natural approach that allows natural processes to work and land to change in an environmentally sustainable way. This method aims to work with nature rather than against it.

Hard engineering, on the other hand, involves building artificial defences to interrupt natural processes or dissipate wave energy before it reaches the coast. This approach typically involves more substantial interventions in the coastal environment.

Definition: Soft engineering refers to coastal management strategies that work with natural processes to protect the coastline in an environmentally sustainable manner.

Definition: Hard engineering involves the construction of artificial structures to protect the coast by interrupting natural processes or dissipating wave energy.

This page introduces the concept of soft engineering in coastal defence. Soft engineering approaches are designed to work with natural processes rather than against them, aiming to protect the coastline while maintaining ecological balance.

Highlight: Soft engineering strategies are often considered more environmentally friendly and sustainable compared to hard engineering approaches.

Beach nourishment is a soft engineering coastal management strategy that involves adding sand or shingle to the beach to increase its height and width. This process aims to dissipate wave energy through friction before it reaches the cliffs.

Pros of beach nourishment:

• The beach absorbs wave energy, protecting the coastline from erosion.
• The enhanced beach attracts tourism, potentially boosting the local economy.
• The added sediment blends in naturally with the existing beach.

Cons of beach nourishment:

• Constant maintenance is required to maintain the beach's effectiveness.
• The maintenance process can be costly.
• Maintenance activities may disrupt tourist activities.

Example: A well-known beach nourishment example is the Bournemouth Beach in the UK, where regular replenishment helps maintain the beach's width and protect the coastline.

Vocabulary: Beach nourishment is also sometimes referred to as beach replenishment or beach feeding.

Dune regeneration is another soft engineering strategy that involves planting vegetation to stabilize sand dunes. This method aims to strengthen the dunes so they can withstand waves and absorb wave energy, thereby protecting the coast.

Pros of dune regeneration:

• It helps dunes develop and maintain their natural structure.
• The process maintains the natural environment.
• It's popular with both people and animals, enhancing biodiversity.
• Relatively inexpensive compared to hard engineering solutions.

Cons of dune regeneration:

• Areas often need to be fenced off to protect newly planted vegetation.
• Dune vegetation takes time to become established and fully effective.

Example: The dune regeneration project at Camber Sands in East Sussex, UK, has successfully restored and stabilized the dune system, providing natural coastal protection.

Highlight: Dune regeneration is an eco-friendly approach that not only protects the coast but also enhances the natural habitat for various species.

This page introduces the concept of hard engineering in coastal defence. Hard engineering approaches involve the construction of artificial structures to protect the coastline from erosion and flooding.

Highlight: While hard engineering methods can provide robust protection, they often have significant environmental impacts and can be costly to implement and maintain.

Sea walls are a hard engineering example used in coastal defence. They are typically 3-5 meter high concrete walls constructed at the foot of cliffs or the top of beaches to absorb wave energy and protect the coast.

Pros of sea walls:

• They prevent flooding in addition to erosion protection.
• Often include a walkway or promenade, which can be attractive to tourists.

Cons of sea walls:

• They are obtrusive and unnatural in appearance.
• Can restrict beach access.
• Expensive to construct and maintain.
• May increase erosion of the beach by deflecting high-energy waves onto the beach.

Example: The sea wall at Blackpool, UK, is a famous example of this hard engineering approach, providing protection to the town while also serving as a promenade.

Highlight: While sea walls can offer strong protection, they often lead to increased erosion at the base of the wall or in nearby unprotected areas.

Groynes are wood or rock structures built perpendicular to the sea. They are designed to trap sediment and create a beach, which then absorbs wave energy to protect the coast.

Pros of groynes:

• They are relatively quick to build.
• The beach created by groynes can attract tourism.

Cons of groynes:

• They can increase erosion elsewhere along the coast.
• Often considered unattractive or ugly.

Example: The groynes along Bournemouth Beach in the UK are a good example of this hard engineering technique, helping to maintain the beach width.

Vocabulary: The term "groyne" is primarily used in the UK; in the US, these structures are often called "groin".

Rip rap, also known as rock armour, involves placing large boulders at the foot of cliffs or the top of a beach to absorb wave energy and protect the coast.

Pros of rip rap:

• Effectively breaks waves to dissipate their energy before reaching the coast.
• Quick to install compared to other hard engineering solutions.
• Relatively cheap compared to other hard engineering methods.

Cons of rip rap:

• Transport costs for the heavy rocks can be significant.
• The rocks often don't match the local geology, impacting the natural aesthetics.
• Can impede beach access for visitors.

Example: The rock armour used to protect the coastline at Sidmouth, Devon, UK, is a notable example of this hard engineering technique.

Highlight: While rip rap can provide effective protection, its visual impact on the landscape is a significant consideration in its implementation.

This page introduces the concept of coastal defences, which are essential strategies employed to protect coastlines from erosion and flooding. These defences are crucial for maintaining the integrity of coastal areas and safeguarding human settlements and infrastructure near the sea.