Abstract
Potentially harmful element (PHE) contents were investigated in six species of cereals in southern Poland, with human health risk implications assessed afterwards. The PHE contents belonged to the following ranges (mg/kg wet weight): As below the limit of detection (<LOD)–0.013, Cd <LOD–0.291, Co <LOD–0.012, Cu 0.002–11.0, Hg <LOD–0.080, Ni <LOD–8.40, Pb <LOD–12.0, Sb <LOD–0.430, Tl <LOD–0.160, and Zn 5.47–67.7. The Pb and Cd contents exceeded the maximum allowable concentration (MAC) values for wheat, oat, rye, and barley in the Śląskie region. The bioaccumulation coefficient (BA) for the total PHE content in the soil indicated that cereals had no potential of PHE accumulation. Regarding the statistical daily consumption of cereals, the PHE intake rates, expressed as a percentage of permissible maximum total daily intake (% PMTDI), were the following: As 0.0003, Cd 0.193, Co 0.0003, Cu 0.075, Hg 0.424, Ni 3.94, Pb 3.16, Sb 0.23, Tl 0.27, and Zn 0.44. The total non-carcinogenic risk values (HQ) exceeded the target risk value of 1 for wheat (HQ = 13.3) and rye (HQ = 3.44). For other cereals, the total non-carcinogenic risk values decreased in the following order: barley (HQ = 0.47) > oat (HQ = 0.38) > maize (HQ = 0.02). The total non-carcinogenic risk value of the statistical daily consumption of cereals was acceptable low (HQ = 0.58). The acceptable cancer risk (CR) level of 1.0 × 10−5 investigated only for As was not exceeded under any of the intake scenarios. Concerning the mean As content in cereals consumed daily in statistical amounts the CR value was equal to 5.1 × 10−8. The health risk value according to the Pb content in cereals using the margin of exposure (MOE) approach was equal to 1.27, indicating an acceptable low risk.
Highlights
Cereals are the staple food in the human diet of the population worldwide
In the six investigated species of cereals, the concentrations of Cr and Se were
The abovementioned results are in line with the observation that higher Potentially harmful element (PHE) concentrations in investigated cereals might be the consequence of the fact that Zn-Pb [70,71] and Cu [72,73] ores are present in the geological background of soils in southern Poland
Summary
Cereals are the staple food in the human diet of the population worldwide. The daily consumption of cereals (403 g/person per day) is higher than that of vegetables (385 g/person per day) and fruits (213 g/person per day) [1]. Cereals and breads are the main source of energy in all age groups, and they contribute 31% of digestible energy to adults [2]. Each cereal plays an important role in various food industry areas: barley is used in beer production, wheat and rye are used in bakery products, oats are used in oatmeal and muesli, and triticale, besides being the main ingredient of animal feed, is used on a smaller scale in bread, cookies, or cakes [3]. Cereals are substantial sources of carbohydrates, dietary fiber, water-soluble vitamins, minerals, proteins, amino acids, phytochemicals (phenolics and terpenoids), and methyl donors (betaine, choline) [1,2]
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