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  • Author or Editor: N. Kalogeropoulos x
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Abstract  

Instrumental Neutron Activation Analysis (NAA) has been applied for the determination of Ag and Sb in water column, sediment cores, and two marine organisms from Saronikos Gulf, Greece. Higher levels of Ag and Sb were found in the water column and cores from polluted areas of the Gulf as compared to those from unpolluted areas. No significant differences of Ag and Sb were found in the two marine organisms from all areas of Saronikos Gulf.

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Abstract  

Neutron activation analysis (NAA) is a very sensitive and accurate multielement analytical method that is widely applied to the investigation of environmental and archaeological problems. The first part of this paper is a review of pollution studies of toxic trace elements in sediments, seawater and marine organisms of Saronikos Gulf, Greece by NAA. The second part of this paper is a review of provenance studies based on minor and trace element research in ancient ceramics, obsidian, flint, limestone, marble and lead by Instrumental NAA, performed at the NCSR Demokritos.

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Abstract  

Instrumental Neutron Activation Analysis (INAA) has been applied for the determination of 8 rare earth elements (REE) in sediment cores collected from stations of polluted and unpolluted areas of Northern Saronikos Gulf. The REE determined in cores are: La, Ce, Sm, Eu, Tb, Dy, Yb and Lu. Higher levels of all REE were found in the cores from polluted areas of N. Saronikos Gulf as compared with those from unpolluted areas. Different vertical profiles of REE were found in the cores from two stations of polluted areas which indicate that REE may distinguish pollution sources.

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Abstract  

Thirty elements were determined by two INAA methods in sediment core samples from N. Saronikos Gulf, Greece, and the results were subjected to multivariate analysis. This procedure resulted in the separation of samples into chemical groups that were environmentally meaningful and sufficient to (a) distinguish among different pollution sources; (b) trace the routes and the extent of pollution in sediments; and (c) define the least affected areas representing the geochemical background. The principal components analysis of the analytical data for 18 selected elements revealed that, among the elements determined in this study, the most discriminating were As, Sb, Ag, Ca, Au, Zn and the rare earth elements (REE).

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