Multivariate statistical analysis to characterize/discriminate between anthropogenic and geogenic trace elements occurrence in the Campania Plain, Southern Italy

Shallow aquifers are the most accessible reservoirs of potable groundwater; nevertheless, they are also prone to various sources of pollution and it is usually difficult to distinguish between human and natural sources at the watershed scale. The area chosen for this study (the Campania Plain) is ch...

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Bibliographic Details
Published in:Environmental pollution (1987) 2018-03, Vol.234, p.260-269
Main Authors: Busico, Gianluigi, Cuoco, Emilio, Kazakis, Nerantzis, Colombani, Nicolò, Mastrocicco, Micòl, Tedesco, Dario, Voudouris, Konstantinos
Format: Article
Language:English
Subjects:
Anthropogenic inputs
Factor analysis
Geogenic sources
Groundwater
Seawater intrusion
Trace elements
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Summary:Shallow aquifers are the most accessible reservoirs of potable groundwater; nevertheless, they are also prone to various sources of pollution and it is usually difficult to distinguish between human and natural sources at the watershed scale. The area chosen for this study (the Campania Plain) is characterized by high spatial heterogeneities both in geochemical features and in hydraulic properties. Groundwater mineralization is driven by many processes such as, geothermal activity, weathering of volcanic products and intense human activities. In such a landscape, multivariate statistical analysis has been used to differentiate among the main hydrochemical processes occurring in the area, using three different approaches of factor analysis: (i) major elements, (ii) trace elements, (iii) both major and trace elements. The elaboration of the factor analysis approaches has revealed seven distinct hydrogeochemical processes: i) Salinization (Cl−, Na+); ii) Carbonate rocks dissolution; iii) Anthropogenic inputs (NO3−, SO42−, U, V); iv) Reducing conditions (Fe2+, Mn2+); v) Heavy metals contamination (Cr and Ni); vi) Geothermal fluids influence (Li+); and vii) Volcanic products contribution (As, Rb). Results from this study highlight the need to separately apply factor analysis when a large data set of trace elements is available. In fact, the impact of geothermal fluids in the shallow aquifer was identified from the application of the factor analysis using only trace elements. This study also reveals that the factor analysis of major and trace elements can differentiate between anthropogenic and geogenic sources of pollution in intensively exploited aquifers. [Display omitted] •Multivariate statistical analysis used to determine hydrogeochemical processes.•Different runs of Factor Analysis were applied using separate trace elements.•7 factors were extracted including Trace and major elements.•U and V originate from Anthropogenic activities.•As related to volcanic sediments and Li to geothermal activity.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2017.11.053