Trends in the vertical displacement (i.e. uplift or subsidence) of the Aegean Sea coastal zone have been assessed by comparing observational data with those derived from the predictive glacio-hydro-isostatic model of Lambeck and Purcell (2005) for a period spanning from the Mesolithic to the late Roman times. The data base comprises published studies that use both geomorphological (with associated biological material) and archaeological sea level indicators/markers. Localities demonstrating uplift of high amplitude were detected in front of the Hellenic Arc (Antikythira, Crete, Rhodes, Nisyros) and in the northeast Aegean region (Thrace), whilst areas experiencing tectonic subsidence were mainly observed in the central Aegean region which is characterized by an extensional tectonic domain. However, regional-scale tectonic particularities have caused uplift in parts of the west and east coast of central Aegean. Tectonically ‘stable’ sites can be found in the Cyclades Plateau, however, this is due to a balance between uplifting and subsiding movements. Sediment compaction and sediment loading may have affected districts with high sedimentation rates such as the Thessaloniki Plain-Thermaikos Gulf (NW Aegean). Finally, tectonic fragmentation of the coastal area in Minor Asia is responsible for localised uplifting and subsiding events.
Surficial and sub-surficial sediments obtained from the lower course of the Kifissos River, which drains the Athens Basin, have been analyzed for heavy metals and aliphatic and polycyclic hydrocarbons. Oddly, the calculated enrichment factors for the identified heavy metals, with the baseline taken from a pristine area in the adjacent Saronikos Gulf, are very low excluding only those related to Cu and Zn. In contrast, the enrichment factors for the measured hydrocarbons are particularly high. However, physicochemical water conditions and annual flushing episodes of the Kifissos River may have reduced significantly the sediment chemical fingerprint found out by the present study. Moreover, an evaluation of the fluvial sediment quality based on the enriched Cu and Zn amounts and concentration of PAH fraction with a consideration of the biological thresholds proposed by the National Oceanic and Atmospheric Administration (USA) reveals little probability for serious biological impairments. Additionally, sediment toxicity due to the sediment PAH load may be considered as minimum.
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