A. Giaretta scite author profile

A pilot area within the Venetian Plain was\ud selected to assess the arsenic (As) contamination of\ud groundwater. The area represents a typical residential,\ud industrial and agricultural organization representative of\ud most western countries, and is also devoid of lithologies\ud with high or anomalous As content. Hydrogeological and\ud chemical data have been collected, the latter spatialized by\ud a geostatistical approach. The unconfined aquifer reservoir\ud varies from a predominantly gravel composition in the\ud north to a sandy and silt–clay composition further south,\ud including peat layers. The hydrochemical features of the\ud waters are rather homogeneous, featuring low mineral\ud content and a Ca-bicarbonate signature. In contrast, the\ud redox state is highly variable; oxidizing conditions are\ud predominant in the northern and coarse parts of the aquifer,\ud whereas reducing potentials prevail in the southern and\ud silt–clay parts. Several well waters contain arsenic in\ud excess of drinkable limits (=10 ppb), and most of these\ud wells are located in the southern area. A large portion of\ud the studied area has a high probability of containing nonpotable\ud water (up to 150 ppb As). Remarkably, As ‘‘hot\ud spots’’ (As[300 ppb, up to 431 ppb) were identified at\ud the transition from gravel to silt–clay sediments. No\ud industrial or agricultural source of As has been found

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A. Giaretta

The in-vitro percutaneous migration of chemical elements from a thermal mud for healing use

Classification of amber based on thermal analysis

Effects of redox conditions on the control of arsenic mobility in shallow alluvial aquifers on the Venetian Plain (Italy)

Arsenic anomalies in shallow Venetian Plain (Northeast Italy) groundwater

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