| Climate
Change
The implications of climate change on the coastal environment
are an issue which is currently at the forefront of coastal
management. Through sea level rise, increased risk of
flooding (from increased storminess), and the effects of coastal
squeeze many of our coastal areas are increasingly subjected
to greater rates of erosion and flooding. In the past ad hoc
approaches to flood defence and erosion where adopted in an
effort to protect effected areas from inundation and loss
of land. Defences employed along one section of coastline
constrained natural coastal processes and aggravated the risk
of flooding and erosion in neighbouring coastal areas. In
recent years a more sustainable approach to coastal management
has been adopted. A number of strategies have been developed
for the coasts and estuaries of England . These strategies
are designed to meet the needs of flood management, through
the development of a coherent strategy which minimises future
pressures on the estuary development and addresses coastal
squeeze issues in these environmentally sensitive area. The
aim of these strategies is to ensure that the measures devised
to facilitate the impacts of climate change will enable coastal
processes to operate in a sustainable manner whilst reducing
the risk of erosion and flooding induced by climate change.
The East Anglian coast is particularly susceptible to the
effects of climate change. The East Anglian coast is rapidly
loosing its sand to high energy coastal processes. The removal
of this natural coastal defence places the cliffs, dunes and
sea walls under even greater pressure. The hinterland of the
East Anglian Coast is low-lying. In the event of a breach
of sea defences, flood water would propagate quickly through
the hinterland causing extensive damage to significant assets.
The effects of climate change and the increased risk of flooding
represents a substantial threat to these areas.
The development of coastal and estuarine strategies for East
Anglia will ensure the most sustainable options for flood
management are used to deal with the effects of climate change.
Sea Level
Rise
Global sea levels rise and fall throughout time on an irregular
basis in response to changes to the environment, which results
in either an emergence (regression) or submergence of the
coastline (transgression).
Changes in global sea level rise today have been attributed
largely in response to changes in the worlds climate due to
global warming, resulting in the phenomena becoming a major
concern both globally and nationally.
However it should be understood that global sea level rise
is not only attributed to the changing sea levels but also
to vertical changes of the land brought about by geological
processes that occur locally (isostatic adjustment).
Currently at a regional level, East Anglia is faced with
a sea level rise of 4.5mm/yr and an isostatic adjustment (sinking
of the land) of 1.5mm/yr, giving what is called a relative
sea level rise of 6mm/yr, for the East Anglian coast.
This problem in East Anglia has arisen in response to events
that occurred during and after the last ice age (which ended
between 10,000 and 15,000 years ago), where large ice sheets
covered much of central and northern Britain.
The huge weight of this ice pressed the land downwards as
it advanced across the country. Once the ice began to retreat,
the weight of the ice was removed causing the land in Scotland
and Northern England, once covered in ice, to rise again.
The land in Southern England however began to sink into the
sea, this process is still continuing in both areas of the
country today.
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Climate Change
There is growing scientific agreement (Intergovernmental Panel
on Climate Change) that human activities are having an impact
on the world’s climate. The main cause is the release
of Greenhouse gases (GHG's) such as methane and carbon dioxide,
which help warm the atmosphere.
Global warming causes three main effects on our planet, which
are and will continue to bring about changes to the environment
in which we live.
Melting of glaciers and ice
caps
One effect that climate change has is to warm up places that
were very cold. The ice at the North and South Poles is starting
to melt more quickly. As the ice melts, freshwater is released
into the oceans and contributes to the volume of water.
Increased Storminess &
Wave Activity
Climate change affects the weather. This may mean more stormy
weather resulting in increased wave activity. One way in which
waves form at sea is when the wind blows over the water. The
energy in the wind is passed onto the wave and the wave moves
in the direction that the wind is blowing. As the wave reaches
the shore it will break against whatever is in its path. This
could be a beach, a saltmarsh, mudflat, cliff or a sea wall,
for example. The energy that is in the wave is then transferred
to the shore.
Waves can be extremely powerful and can cause a lot of damage.
The damage is called erosion and when we have big storms and
powerful waves a lot of the coast can be eroded very quickly.
We need to help the coast to stand up to erosion and many
organisations work together to prevent the coast being washed
away. Waves cause serious damage to flood defences and if
large enough can over-top them causing flooding behind defence
walls.
Thermal Expansion
If you imagine a kettle boiling, it is a very similar process,
but on a much larger scale. As water is heated up the heat
causes all the molecules of the water to move faster and collide.
In the sea the water is nowhere near boiling, however imagine
how much water there is in the oceans and seas. A very small
increase in temperature will cause a slight increase in 'expansion'
so the sea level will rise a little.
Taking into account The UK Climate Impacts Programme predicts,
- Increases in sea level rise around our coasts.
- Weather patterns will change to wetter winters and increases
in storm strengths.
- This will increase wave height and frequency.
In summary the effects of climate change will mean a change
in the weather that we experience and the environment that
we live in.
Coastal Squeeze
Salt marsh and mudflats are both important habitats for wildlife,
which are rapidly eroding in response to a process called
coastal squeeze.
Coastal squeeze occurs as the salt marsh and mudflats become
trapped between the sea walls and the rising sea. The seawall
prevents these habitats moving upwards and landwards within
the changing tidal frame and so become reduced in their extent.
The creation of salt marsh is very important from a flood
management point of view as salt marsh significantly reduces
wave energy.
The reduction of wave energy is important as waves are extremely
erosive and are responsible for damage to flood defences,
scouring of beaches and overtopping of sea walls. By reducing
wave energy, the salt marshes allow for smaller defences further
inland.
This reduces the cost of construction and hence reduces the
cost to the tax payer. It also creates important amenity areas
for the public, and wildlife havens for animals and plants
thus helping us to meet legal targets set by the EU Habitats
Directive regarding the replacement of intertidal habitat. |
