Organic matter characterization and copper complexing capacity in the sea surface microlayer of coastal areas of the Eastern Mediterranean

In a time-series study, surface microlayer (SML) and underlying (ULW) water samples were collected in 3 sampling seasons from 5 coastal microenvironments of the Eastern Mediterranean. Examination of the isotopic composition (δ18O, δ2H and δ13C) of the water samples demonstrated that most of them lie...

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Bibliographic Details
Published in:Marine chemistry 2015-07, Vol.173, p.234-243
Main Authors: Karavoltsos, Sotirios, Kalambokis, Evangelos, Sakellari, Aikaterini, Plavšić, Marta, Dotsika, Elissavet, Karalis, Petros, Leondiadis, Leondios, Dassenakis, Manos, Scoullos, Michael
Format: Article
Language:English
Subjects:
Agglomeration
Coastal
Copper
Cu complexing capacity
Dissolution
Enrichment
Marine chemistry
Organic matter
Sampling
Sea surface microlayer
Sea water
Surfactant activity
Transparent exopolymer particles
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Summary:In a time-series study, surface microlayer (SML) and underlying (ULW) water samples were collected in 3 sampling seasons from 5 coastal microenvironments of the Eastern Mediterranean. Examination of the isotopic composition (δ18O, δ2H and δ13C) of the water samples demonstrated that most of them lie around the mixing zone between the Greek/local precipitation water line (PWL) and seawater. Samples from the areas of Loutropyrgos, Pahi and Vourkari, within the Saronikos Gulf, correspond mainly to seawater, the Asopos samples are influenced by the local meteoric waters, whereas Chalkida samples seem to be affected by local fresh water inputs attributed to the discharge site of a sewage treatment plant. In almost half of the samples examined no enrichment of the SML in Cu complexing capacity (LT) was recorded. A wider range of LT was determined at SML (51.5 to 679.6nM with an average value of 229.6nM) than in the ULW (55.2 to 346.4nM with an average value of 208.5nM). While the enrichment factor (EF) of a compound is defined as the ratio of the concentration in the SML to that in the corresponding underlying water, the mean EF values of dissolved surface active substances (SASd: 5.8±5.8) and transparent exopolymer particles (TEPcolor: 2.2±1.8, TEPmicro: 3.8±5.6) were significantly greater than unity (p=0.0121, 0.0220 and 0.0404 respectively) indicating a general enrichment of these organic materials in SML. SASs, normalized to DOC concentrations, have shown that the organic matter pool studied was mostly hydrophilic. During winter (February 2013) an enrichment of LT in SML was detected at all of the sampling sites examined, paralleled by TEP aggregation suggesting a role for TEP in copper complexation. •A multiparameter approach was used for organics characterization in the sea surface.•Surface active substances (SASs) were particularly enriched in the surface microlayer.•The predominance of hydrophilic SAS in surface microlayer was demonstrated.•No enrichment of surface microlayer in Cu complexing ligands was found.•Isotopic composition analysis (δ18O, δ2H and δ13C) of water samples was carried out.
ISSN:0304-4203
1872-7581
DOI:10.1016/j.marchem.2014.12.004