Difference between revisions of "Coastal zone characteristics"

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See also:  
 
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:[[Classification of Coastlines#Barrier Islands|Barrier islands]]
 
:[[Classification of Coastlines#Barrier Islands|Barrier islands]]
*[[Slapton barrier beach case study, UK]]  
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:[[Slapton barrier beach case study, UK]]  
*[[Origin and Genesis of coastal barriere systems. Case study from Rømø in the Danish Wadden Sea]]
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:[[Origin and Genesis of coastal barriere systems. Case study from Rømø in the Danish Wadden Sea]]
*[[Classification of Coastlines#Barrier Islands|Barrier islands]]
 
  
 
==See also==
 
==See also==

Revision as of 07:13, 19 March 2007

This one should be relatively short - with links to more specific entries.


Different coastal types:

Sandy beaches

sandy coast

Sand is a very common marine sediment and is transported along the shoreline by littoral transport. Sand transport (littoral transport or littoral drift) is driven by the breaking waves and the longshore currents in the wave breaking zone. The appearance of natural Sandy beaches is determined by hydrographic conditions and geology. Any interference will cause a reaction in the form of a shoreline response. Therefore, understanding of physical processes is important and the development of suitable solutions required, supported by numerical modelling if needed.

See also:

Muddy coasts

mangrove coast

Muddy coasts are only found in environments that are fairly calm with respect to wave conditions; or there is abundant supply of fine sediments. They are normally vegetated e.g. mangroves fronted by very flat slopes or tidal flats and a muddy coast with mangrove vegetation is characterized by a muddy shoreface, sometimes in the form of muddy tidal flats, and the lack of a sandy shore.

See also:

Characteristics of muddy coasts
Mud

Rocky coasts

Rocky coasts are continuously cut back by the sea and are characterised by erosional features. They have a slow rate of morphological change, and experience the main erosional processes of: mechanical wave erosion, abrasion and hydraulic action; weathering - physical, salt, chemical and water-layer levelling; bio-erosion - biochecmial and biophysical; and mass movements by rock falls and toppling, slides and flows[1].

Arctic coasts

Shores above the North Polar Circle, exposed for more than six months of freezing annually are regarded as Arctic coast. Their characteristic feature is the importance of ice forms (glacial ice – growlers, sea ice – ice pack and winter local ice – ice foot) for their ecology and evolution. Ice act as a limiting factor for the occurrence of infaunal and epifaunal organisms (ice scouring, ice melt and freezing are all stressful processes for coastal macrofauna). Even in the high Arctic, macrofauna and macroalgae can survive winter ice in rocks crevices. In places, with very cold water, where permafrost surface at the intertidal, the specific type of Arctic shore appears – cryolittoral, where freshwater ice forms the seabed, often covered with stones and algal debris (northernmost parts of the Siberian coast and its islands). Soft sediment Arctic coasts are eroding very fast due to the combined effect of ice melt, ice scouring and waves action.

Barrier coasts

barrier coast

Barrier islands are parallel to the shore, separated from mainland by a lagoon. In a profile with a more gentle slope than the equilibrium profile, sediments will be moved onshore, as waves on the shoreface will primarily transport sand towards shore attempting to build up equilibrium profile. Waves lose their energy over the gentle shoreface and deposition occurs some distance from shoreline --> eventually develops into a barrier island (cross-shore transport). Transport of sand by longshore transport will add to barrier formation, a combination of sand spit and barrier island processes, normally occurring under type 1 and 2 conditions.


See also:

Barrier islands
Slapton barrier beach case study, UK
Origin and Genesis of coastal barriere systems. Case study from Rømø in the Danish Wadden Sea

See also

Classification of Coastlines

References

  1. Masselink, G and Hughes, M. 2003. Introduction to Coastal Processes and Geomorphology. Hodder Arnold.


(Caitlin 09:31, 18 January 2007 (Romance Standard Time))