Trace Metal Accumulation in Rice Variety Kainat Irrigated with Canal Water

Due to the rapid increase in industrial and urban areas, environmental pollution is increasing worldwide, causing unwanted changes in the air, water, and soil at biological, physical, and chemical levels, ultimately causing negative effects for living things. This work was performed in Jhang, Punjab...

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Veröffentlicht in:	Sustainability 2021-12, Vol.13 (24), p.13739
Hauptverfasser:	Khan, Zafar Iqbal, Mansha, Asim, Saleem, Muhammad Hamzah, Tariq, Farah, Ahmad, Kafeel, Ahmad, Tasneem, Farooq Awan, Muhammad Umer, Abualreesh, Muyassar H., Alatawi, Aishah, Ali, Shafaqat
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Schlagworte:	Agricultural production Bioaccumulation Cadmium Canals Cereal crops Cobalt Consumption Crop diseases Crops Food safety Grain Health risk assessment Health risks Heavy metals Industrial pollution Inspection Manganese Metal concentrations Pollution Pollution index Pollution load Rice Shoots Soil contamination Soil water Statistical analysis Trace metals Translocation Urban areas Variance analysis Zinc
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creator	Khan, Zafar Iqbal Mansha, Asim Saleem, Muhammad Hamzah Tariq, Farah Ahmad, Kafeel Ahmad, Tasneem Farooq Awan, Muhammad Umer Abualreesh, Muyassar H. Alatawi, Aishah Ali, Shafaqat
description	Due to the rapid increase in industrial and urban areas, environmental pollution is increasing worldwide, causing unwanted changes in the air, water, and soil at biological, physical, and chemical levels, ultimately causing negative effects for living things. This work was performed in Jhang, Punjab, Pakistan, and examined and measured heavy metal levels in various plant parts of the rice (Oryza sativa) variety Kainat (roots, shoots, and grains) with results been set in relation to the soil around the root area. The samples were taken from five different sites. The mean level of trace metals (mg/kg) in grains was soil-dependent and varied from cadmium (Cd) (2.49–5.52), zinc (Zn) (5.8–10.78), copper (Cu) (4.82–7.85), cobalt (Co) (1.48–6.52), iron (Fe) (8.68–14.73), manganese (Mn) (6.87–13.93), and nickel (Ni) (2.3–8.34). Excluding Cd, the absorption of all metals under inspection was recorded within permissible limits, as recommended by the FAO and WHO. The pollution load index for Cd was highest at all sites. The enrichment coefficient of Co, Cd, and Cu were greater. The bioaccumulation factor at all studied sites was present, in order: Cu ˃ Zn ˃ Fe ˃ Mn ˃ Co ˃ Ni ˃ Cd. The translocation factor was present at five different sites: Mn ˃ Fe ˃ Cu ˃ Zn ˃ Co ˃ Cd ˃ Ni. The health risk index of all inspected metals was lower than 1 and was within safe limits. The higher pollution of Cd suggested maintenance of rice crop is recommended, decreasing health risks in humans.
doi_str_mv	10.3390/su132413739
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This work was performed in Jhang, Punjab, Pakistan, and examined and measured heavy metal levels in various plant parts of the rice (Oryza sativa) variety Kainat (roots, shoots, and grains) with results been set in relation to the soil around the root area. The samples were taken from five different sites. The mean level of trace metals (mg/kg) in grains was soil-dependent and varied from cadmium (Cd) (2.49–5.52), zinc (Zn) (5.8–10.78), copper (Cu) (4.82–7.85), cobalt (Co) (1.48–6.52), iron (Fe) (8.68–14.73), manganese (Mn) (6.87–13.93), and nickel (Ni) (2.3–8.34). Excluding Cd, the absorption of all metals under inspection was recorded within permissible limits, as recommended by the FAO and WHO. The pollution load index for Cd was highest at all sites. The enrichment coefficient of Co, Cd, and Cu were greater. The bioaccumulation factor at all studied sites was present, in order: Cu ˃ Zn ˃ Fe ˃ Mn ˃ Co ˃ Ni ˃ Cd. The translocation factor was present at five different sites: Mn ˃ Fe ˃ Cu ˃ Zn ˃ Co ˃ Cd ˃ Ni. The health risk index of all inspected metals was lower than 1 and was within safe limits. 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This work was performed in Jhang, Punjab, Pakistan, and examined and measured heavy metal levels in various plant parts of the rice (Oryza sativa) variety Kainat (roots, shoots, and grains) with results been set in relation to the soil around the root area. The samples were taken from five different sites. The mean level of trace metals (mg/kg) in grains was soil-dependent and varied from cadmium (Cd) (2.49–5.52), zinc (Zn) (5.8–10.78), copper (Cu) (4.82–7.85), cobalt (Co) (1.48–6.52), iron (Fe) (8.68–14.73), manganese (Mn) (6.87–13.93), and nickel (Ni) (2.3–8.34). Excluding Cd, the absorption of all metals under inspection was recorded within permissible limits, as recommended by the FAO and WHO. The pollution load index for Cd was highest at all sites. The enrichment coefficient of Co, Cd, and Cu were greater. The bioaccumulation factor at all studied sites was present, in order: Cu ˃ Zn ˃ Fe ˃ Mn ˃ Co ˃ Ni ˃ Cd. The translocation factor was present at five different sites: Mn ˃ Fe ˃ Cu ˃ Zn ˃ Co ˃ Cd ˃ Ni. The health risk index of all inspected metals was lower than 1 and was within safe limits. The higher pollution of Cd suggested maintenance of rice crop is recommended, decreasing health risks in humans.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/su132413739</doi><orcidid>https://orcid.org/0000-0002-3773-5196</orcidid><orcidid>https://orcid.org/0000-0002-3658-770X</orcidid><orcidid>https://orcid.org/0000-0001-5659-0562</orcidid><orcidid>https://orcid.org/0000-0002-0529-9131</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agricultural production Bioaccumulation Cadmium Canals Cereal crops Cobalt Consumption Crop diseases Crops Food safety Grain Health risk assessment Health risks Heavy metals Industrial pollution Inspection Manganese Metal concentrations Pollution Pollution index Pollution load Rice Shoots Soil contamination Soil water Statistical analysis Trace metals Translocation Urban areas Variance analysis Zinc
title	Trace Metal Accumulation in Rice Variety Kainat Irrigated with Canal Water
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