Sedimentological, Geochemical, and Environmental Assessment in an Eastern Mediterranean, Stressed Coastal Setting: The Gialova Lagoon, SW Peloponnese, Greece

Sedimentological, Geochemical, and Environmental Assessment in an Eastern Mediterranean, Stressed Coastal Setting: The Gialova Lagoon, SW Peloponnese, Greece

This study describes the prevalent sedimentological and geochemical patterns and investigates the environmental status of the bottom of Gialova lagoon, a highly vulnerable coastal site of the EU’s Natura 2000 network. For this task, lithological, geochemical, and microfaunal analyses of sediment sam...

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Veröffentlicht in:Water (Basel) 2024-08, Vol.16 (16), p.2312
Hauptverfasser: Papakonstantinou, Maria, Sergiou, Spyros, Geraga, Maria, Prandekou, Amalia, Dimas, Xenophon, Fakiris, Elias, Christodoulou, Dimitris, Papatheodorou, George
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adsorption
aluminum silicates
environmental assessment
factor analysis
fauna
Global positioning systems
GPS
Greece
Heavy metals
hydrodynamics
Hydrology
manganese
phosphorus
Pollution
Salinity
Sediments
surveys
water
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container_issue 16
container_start_page 2312
container_title Water (Basel)
container_volume 16
creator Papakonstantinou, Maria
Sergiou, Spyros
Geraga, Maria
Prandekou, Amalia
Dimas, Xenophon
Fakiris, Elias
Christodoulou, Dimitris
Papatheodorou, George
description This study describes the prevalent sedimentological and geochemical patterns and investigates the environmental status of the bottom of Gialova lagoon, a highly vulnerable coastal site of the EU’s Natura 2000 network. For this task, lithological, geochemical, and microfaunal analyses of sediment samples were combined with a high-resolution bathymetric survey. Potential pollution was determined using geochemical-based (EF, I-geo, and PLI) and faunal (Foram-AMBI) indices. We find that sedimentation is mainly controlled by the bottom morphology, hydrodynamic variations, and biogenic productivity of the lagoon. The application of the multivariate factor analysis technique revealed four dominant factors explaining the geochemical processes occurring in the lagoon. The first factor, namely “terrigenous aluminosilicates associated with Corg vs. autochthonous biogenic carbonates”, discriminates the deposition of detrital sediments, related to the high adsorption of heavy metals—versus bioclastic sediments. The “sulfides” factor represents an anoxic phase of the lagoon floor, whereas the “Mn-oxyhydroxides” factor indicates increased manganese content with several compounded trace elements. The “phosphate” factor reveals multiple sources of phosphorus in the lagoon. The lagoon bottom shows negligible to minor contamination in heavy metals, except Mo and Pb, which induce moderate pollution levels. The maximum contamination and environmental stress concern two small-sized, shallow basins within the lagoon.
doi_str_mv 10.3390/w16162312
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source MDPI - Multidisciplinary Digital Publishing Institute; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects adsorption
aluminum silicates
environmental assessment
factor analysis
fauna
Global positioning systems
GPS
Greece
Heavy metals
hydrodynamics
Hydrology
manganese
phosphorus
Pollution
Salinity
Sediments
surveys
water
title Sedimentological, Geochemical, and Environmental Assessment in an Eastern Mediterranean, Stressed Coastal Setting: The Gialova Lagoon, SW Peloponnese, Greece
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