Coastal waters classification based on physical attributes along the NE Atlantic region. An approach for rocky macroalgae potential distribution

Coastal waters classification based on physical attributes along the NE Atlantic region. An approach for rocky macroalgae potential distribution

According to requirements for intercalibration of assessment methods of vegetation quality elements along the North East Atlantic region, within the scope of the European Water Framework Directive (WFD), a better classification system of coastal regions is needed. To accomplish that goal, a quantita...

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Bibliographic Details
Published in:Estuarine, coastal and shelf science Vol. 112; pp. 105 - 114
Main Authors: Ramos, Elvira, Juanes, José A., Galván, Cristina, Neto, João M., Melo, Ricardo, Pedersen, Are, Scanlan, Clare, Wilkes, Robert, van den Bergh, Erika, Blomqvist, Mats, Karup, Henning Peter, Heiber, Wilfried, Reitsma, Jan M., Ximenes, Marie Claude, Silió, Ana, Méndez, Fernando, González, Borja
Format: Journal Article
Language:English
Published: Elsevier Ltd 20-10-2012
Subjects:
Assessments
biotypes
Brackish
Classification
Coastal
Coastal environments
Coastal water
coastal waters
Homogeneity
Intercalibration
North East Atlantic
physical properties
subtypological variants
Vegetation
WFD intercalibration
MSFD
PAR
coastal waters
physical properties
GIG
NODC
LME
NOAA
MS
WFD intercalibration
NEA
ES
GFO
subtypological variants
WFD
SST
biotypes
BQE
IC
North East Atlantic
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Summary:According to requirements for intercalibration of assessment methods of vegetation quality elements along the North East Atlantic region, within the scope of the European Water Framework Directive (WFD), a better classification system of coastal regions is needed. To accomplish that goal, a quantitative classification approach was launched in order to establish common typologies for assessment of this biological quality element. This was preliminarily based on a physical classification of the coastal waters that included two consecutive steps, a first one devoted to the establishment of “biotypes” (large areas), and a latter one dealing with recognition of the variability within biotypes (“subtypological variants”). The NEA region coastline was subdivided into 550 consecutive stretches (40km long). Then, physical variables (sea surface temperature, photosynthetically active radiation, wave exposure, tidal range and salinity) were calculated in reference points of each stretch, 5km from the coast. This information was based mostly on satellite acquired data, using specific procedures proposed in this work. Physical typologies of NEA coastal waters were obtained by statistical analyses. Five different biotypes were selected (i.e. coastal sectors of the European coast) by national experts as baseline information to be used on intercalibration of assessment methods for vegetation within the WFD. Variability of environmental conditions on those biotypes was also analyzed and compared with previous classifications carried out at the national scale. Results from this study showed the feasibility of this methodological approach as a useful tool for assessment of the actual homogeneity of coastal environments. [Display omitted] ► We develop a quantitative classification along NEA coast for marine vegetation. ► The physical variables employed are: SST, PAR, wave height, tidal range and salinity. ► Five biotypes are obtained, which could be used as common intercalibration types. ► The physical variability is higher in biotypes located in the temperate region.
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ISSN:0272-7714
1096-0015
DOI:10.1016/j.ecss.2011.11.041