Health Risk Assessment and Nickel Content in Soils, Rice (Oryza Sativa L.) and Wheat (Triticum Aestivum L.) Grown in Damietta Governorate, Egypt

S. Badawy, R. El-Motaium, M. Hossain, H. Abdel-Lattif, H. Ghorab, M. El-Sayed
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Abstract

Nickel (Ni) concentration in soils is highly depended on the parent materials and the types of pollutant sources that plays a beneficial role in plant growth however; at high concentration it may cause toxicity for plants and creating hazards to animals and human. Therefore, this study aimed to estimate the levels of Ni in soils, straw and grain of rice and wheat plants grown in the soils contaminated with Ni and evaluate its effect on human health. In the surface soil layers the total (31.4 ±8.02 mg kg-1) and available Ni concentration (3.10 ±0.91 mg kg-1) are slightly higher by 1.25 ±0.14 and 1.24 ±0.25 fold respectively, than the subsurface layers. Available Ni increased linearly with increasing Ni in soil (r = 0.91). A significant positive correlation was found between available Ni and soil OM content (r = 0.89), while a significant negative correlation was observed for soil CaCO3 percent (r = - 0.72) and soil pH (r = - 0.90). Rice Ni content of the straw (2.1 ±0.32 mg kg-1) and grains (0.44 ±0.07 mg kg-1) were significantly correlated with soil total Ni (r = 0.89 and 0.86) and available Ni (r = 0.84 and 0.74), respectively. Wheat Ni content of straw (1.68 ±0.28 mg kg-1) and grains (0.28 ±0.04 mg kg-1) were significantly correlated with soil total Ni (r = 0.87 and 0.81) and available Ni (r = 0.84 and 0.85), respectively. By increasing straw Ni content grains increased (r = 0.89 for rice and r = 0.95 for wheat). Grains of rice and wheat exhibited lower Ni concentration than that of the straw (20.9% ± 1.64 and 16.7% ± 1.04, respectively). According to FAO/WHO rice and wheat grains contain normal Ni concentration and no evidence of possible potential human health risk with grains consumption.
土壤、水稻和小麦的健康风险评价及镍含量生长于埃及达米埃塔省
土壤中镍(Ni)浓度高度依赖于对植物生长有利的母质和污染源类型;高浓度时可能对植物产生毒性,对动物和人类产生危害。因此,本研究旨在估算在受镍污染的土壤中生长的水稻和小麦作物的土壤、秸秆和籽粒中的镍含量,并评价其对人体健康的影响。表层总Ni浓度(31.4±8.02 mg kg-1)和有效Ni浓度(3.10±0.91 mg kg-1)分别比亚表层高1.25±0.14倍和1.24±0.25倍。有效镍随土壤中镍含量的增加呈线性增加(r = 0.91)。有效镍与土壤OM含量呈显著正相关(r = 0.89),土壤caco3%与土壤pH呈显著负相关(r = - 0.72)。水稻秸秆Ni含量(2.1±0.32 mg kg-1)和稻谷Ni含量(0.44±0.07 mg kg-1)与土壤全Ni含量(r = 0.89和0.86)和有效Ni含量(r = 0.84和0.74)呈极显著相关。小麦秸秆Ni含量(1.68±0.28 mg kg-1)和籽粒Ni含量(0.28±0.04 mg kg-1)与土壤全Ni含量(r = 0.87和0.81)和有效Ni含量(r = 0.84和0.85)呈极显著相关。随着秸秆含镍量的增加,稻米和小麦籽粒均增加(r = 0.89, r = 0.95)。水稻和小麦籽粒的Ni含量均低于秸秆(分别为20.9%±1.64和16.7%±1.04)。根据粮农组织/世卫组织的报告,大米和小麦谷物的镍含量正常,没有证据表明食用谷物可能对人体健康构成潜在风险。
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