Seafood consumption can represent a

Seafood consumption can represent an important pathway of exposure to toxic elements, especially whenever seafood species are harvested from areas under strong anthropogenic pressures. In order to reduce human risks of exposure to toxic elements, max- imum permissible concentrations (MPC) for the presence of some toxic elements in seafood as well as guidelines for element intakes (e.g. upper limits UL and tolerable weekly intakes TWI) have been established by food safety agencies. Thus, this section presents a
comparison of the values obtained in the present study (con- sidered on a wet weight basis; moisture content given in Table 1) with MPC set for THg, Cd and Pb (EC, 2006, 2011), as well as an estimation of the risks of exceeding the tolerable intakes set for Cd, MeHg and iAs (EFSA, 2009a,b 2012; FAO/WHO, 2011), and the UL set for Cu and Zn (EFSA, 2006; USDA, 2015), using a semi-de- terministic approach, i.e. average element intakes for an adult with an average body weight (bw) of 70 kg, when consuming a meal equivalent to 150 g of seafood.
With respect to Cd and Pb, despite the levels were generally higher in samples collected from Ebro and Po deltas, values ob- tained in this study were always bellow the maximum permissible concentrations (MPC) set for the presence of these two toxic ele- ments in bivalve species (EC, 2006, 2011; Table 1). Furthermore, a meal composed by 150 g on a weekly basis would not exceed Cd TWI in any studied seafood. Edible macroalgae have become in- creasingly important in consumers' dietary habits over the last years, and their nutritional attributes have been recently pointed out in several studies (e.g. Paiva et al., 2014). Nevertheless, as evidenced by the present study, some macroalgae species can accumulate high levels of TAs and iAs, thus placing consumers at risk. Indeed, taking L. digitata as an example, a meal composed by 150 g of macroalgae (average iAs intake in one meal $10 mg/kg bw) would place consumers above the benchmark dose levels of 0.3–8 mg/kg bw/day (EFSA, 2009a) or 3 mg/kg bw/day (WHO, 2011). In contrast, S. latissima iAs levels were well below the benchmark dose levels.
Regarding Hg, none of the samples analyzed in this work ex- ceeded the MPC set for THg. Additionally, despite the higher MeHg values found in flounder from the Scheldt estuary, a weekly con- sumption of 150 g of this species does not constitute a risk to consumers (EFSA, 2012), as it would correspond to an intake of approximately 0.04 mg/kg bw.
As to Cu, Fe, Zn and Ni, even when considering the worst case scenarios of Cu, Fe and Zn contamination in seafood species (i.e. Cu 1⁄4 0.5 mg/day and Ni 1⁄4 0.4 mg/day in mussels from Po delta, and Zn 1⁄4 6.6 mg/day in mussels from Tagus estuary; Table 3) the con- sumption of 150 g of the studied species would not exceed the UL set for an adult consumer (i.e. Cu1⁄410,000 mg/day, Ni1⁄41.0 mg/day, Zn 1⁄4 40 mg/day; USDA, 2015). Conversely, the UL for Fe would be exceeded in the case of mussels from Po delta (present study 1⁄4 59.8 mg/day; UL 1⁄4 45 mg/day; USDA, 2015).