An overview of seabed-mapping technologies in the context of marine habitat classification

A wide range of seabed-mapping technologies is reviewed in respect to their effectiveness in discriminating benthic habitats at different spatial scales. Of the seabed attributes considered important in controlling the benthic community of marine sands and gravel, sediment grain size, porosity or sh...

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Veröffentlicht in:	ICES journal of marine science 2003, Vol.60 (2), p.411-418
Hauptverfasser:	Kenny, A.J, Cato, I, Desprez, M, Fader, G, Schüttenhelm, R.T.E, Side, J
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Sprache:	eng
Schlagworte:	seabed-mapping technologies single-beam system swath system
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container_title	ICES journal of marine science
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creator	Kenny, A.J Cato, I Desprez, M Fader, G Schüttenhelm, R.T.E Side, J
description	A wide range of seabed-mapping technologies is reviewed in respect to their effectiveness in discriminating benthic habitats at different spatial scales. Of the seabed attributes considered important in controlling the benthic community of marine sands and gravel, sediment grain size, porosity or shear strength, and sediment dynamics were highlighted as the most important. Whilst no one mapping system can quantify all these attributes at the same time, some may be estimated by skilful interpretation of the remotely sensed data. For example, seabed processes or features, such as bedform migration, scour, slope failure, and gas venting are readily detectable by many of the mapping systems, and these characteristics in turn can be used to assist a habitat classification (and monitoring) of the seabed. We tabulate the relationship between “rapid” continental shelf sedimentological processes, the seabed attributes affecting these processes, and the most suitable mapping system to employ for their detection at different spatial scales.
doi_str_mv	10.1016/S1054-3139(03)00006-7
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title	An overview of seabed-mapping technologies in the context of marine habitat classification
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