Abstract
The Messolonghi lagoon complex in Western Greece receives agricultural and domestic effluents both from point and diffused sources. Surface sediments were analyzed for grain size, organic carbon, total nitrogen, total sulfur, major and minor elements, aiming at the identification of geochemical relationships between all variables. Enrichment factors and the modified degree of contamination methods were applied to assess potential heavy metal enrichment related to human activities. Sediment texture was highly variable, with muddy sediments prevailing. In the central sector of the Messolonghi lagoon, organic carbon contents were high. Principal factor analysis revealed the following main groups of variables with common geochemical behavior: (1) terrigenous aluminosilicates (2) organic matter, (3) biogenic carbonates, (4) mineral quartz-aluminosilicates, and (5) Mn-oxides. Enrichment factors estimated for V, Cr, Mn, Co, Ni, Cu, Zn, and Pb using local pre-industrial sediment showed that all metals exhibit almost natural background levels, except for Pb, which was found to be slightly elevated (legacy of leaded fuel). Estimation of contamination factors concluded in similar results, whereas the overall modified degree of contamination was at the lowest level, therefore suggesting that this transitional water body has not been affected by anthropogenic activities. The data set may be considered as a baseline for future monitoring projects according to EU policy.
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The help of M. Taxiarchi and A. Papageorgiou in laboratory analysis is appreciated. Constructive suggestions of an anonymous reviewer are gratefully acknowledged. Also, we wish to thank J. Nystuen for improving language flow.
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Karageorgis, A.P., Sioulas, A., Krasakopoulou, E. et al. Geochemistry of surface sediments and heavy metal contamination assessment: Messolonghi lagoon complex, Greece. Environ Earth Sci 65, 1619–1629 (2012). https://doi.org/10.1007/s12665-011-1136-3
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DOI: https://doi.org/10.1007/s12665-011-1136-3