Abstract
Industrial and municipal wastewaters are often used for irrigating agricultural fields in arid and semi-arid countries, representing the most attractive option to alleviate pressure on fresh-water resources. However, the wastewater may contain various potentially toxic elements and organic matters with highly harmful effects on human and animal health. During two growing seasons of globe artichoke, the effects of irrigation with secondary (SWW) and tertiary (TWW) municipal wastewater on heavy metal soil and plant content were evaluated, together with the consequent human risk from artichoke head consumption. The heavy metal contents (i.e., Al, Cd, Co, Cr, Cu, Fe, Ni, Pb, Zn, and Mn) of the irrigation water, soil, plant, and yield were analyzed. Total and extractable heavy metals were quantified to determine the bioaccumulation factors, and the health risks to adults and children were determined according to hazard indices. The heavy metal contents of the artichoke heads harvested after SWW and TWW irrigation were lower than the international threshold values, and low bioaccumulation factors suggested that these heavy metals did not accumulate in the edible part of the artichoke crop. The hazard indices that were based on the consumption of the artichoke heads remained <1.0 for both adults and children, thus indicating that the health risks involving the different heavy metals are not significant.
Highlights
Water scarcity is the primary reason for the increasing trend toward wastewater re-use in agriculture worldwide
The aim of the present study was to evaluate the accumulation of heavy metals in the soil, with specific reference to the exchangeable fraction, and in the edible part of the artichoke crop irrigated with fresh, secondary (SWW), and tertiary (TWW) municipal wastewater
The concentrations of all heavy metals in FW were lower than the concentrations in secondary municipal wastewater (SWW) and tertiary municipal wastewater (TWW)
Summary
Water scarcity is the primary reason for the increasing trend toward wastewater re-use in agriculture worldwide. Wastewaters may represent a significant nutrient source for plants that are grown in low fertility soils [5,6]. In addition to plant nutrients, wastewaters may contain various potentially toxic mineral elements and organic matter, and these components can have harmful effects on human and animal health [7]. As for heavy metals, while low concentrations in the soil are often beneficial to the growth and metabolism of plants, they can have undesirable effects at higher concentrations [8,9]. The heavy metals content in wastewater that is used for irrigation must comply with the legal limits, continuous use of wastewater can lead to their soil enrichment.
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