Ecological contamination due to toxic chemicals is the major issue. Present research was conducted to find out the concentration of Cd and Mn in fodder soil and blood. Five sites of Tehsil Sahiwal of District Sargodha were selected for research where mostly contaminated water was used for irrigation. Pollution load index as well as health risk index was also studied. The results show that cadmium and manganese exceeded the permissible limit of Cd (0.2) and Mn (500) mg/kg suggested by FAO/WHO. Enrichment factor showed lower values as compared to standard. Higher values were observed for Mn at site-V 3.09 mg/kg for summer samples of Zea mays and lower Trifoilum alaxandrium 1.17 mg/kg, while for Cd higher values were observed for Zea mays 2.80 mg/kg and lower for Trifolium alaxandrium 0.20 mg/kg for during winter season.
This article focuses on the toxic element chromium (Cr) in wastewater, its incorporation into soil plant systems, and its relevant toxicity in the food chain as assessed by a health risk assessment from dietary intake. The Nili Ravi buffalo is an important cattle inhabiting Sargodha, Punjab, Pakistan, and forage crops grown on soils contaminated with Cr might cause toxicity in the food chain by local inhabitants eating meat. The soil, forage and animal blood samples were collected from five different locations in Tehsil Sahiwal (Chak Dhool, Bagabalocha, Chandia, Dhool Bala and Kakrani) twice at six-month intervals. A total of 30 samples from each ecological zone were collected from the soil and forage crops (Zea mays, Sorghum bicolor, Trifolium alexandrinum). The samples from zone-V and zone-IV showed the maximum concentration of Cr because these areas receive highly contaminated water for irrigation. The Cr was greater than the permissible limits. Environmental indices for all samples ranged below 1. The bioaccumulation and pollution load of Cr in soil and forage crops due to wastewater irrigation can contaminate the whole food chain via the soil, forages and animals. The health risk index (HRI) and a high value of enrichment factor were found for Cr in some sites. The Cr concentration was higher during the summer season than winter. Fodder crops with different concentrations and an elevated level of Cr were observed in maize. Attention should be paid when wastewater is used for fodder crop irrigation and its potential risks to human health following dairy product (milk, meat) entry into the food chain.
Ijaz Rasool Noorka. Effect of different concentrations of municipal solid waste on metal uptake of wheat (Triticum aestivum).
AbstractHeavy metal accumulation in edible parts of plants is major international concern now a day. This research was aimed to observe the influence of different level of municipal solid waste on metal accumulation by wheat variety (Inqalab-91). The metal concentration in soil and wheat grains was quantified using atomic absorption spectrophotometer (AA-6300 Shimadzu Japan). Results demonstrated that municipal solid waste treatment increased the heavy metals in various parts (root, shoot, grains) of wheat plant. The metals in wheat grains varied from 1.5-2.46, 10-18.16, 0.8-0.95 and 0.53-0.95 mg/kg for Cd, Fe, Zn and Co, respectively. The amount of all heavy metals were determined within the permissible range except for Cd. The cadmium had the highest bio concentration and enrichment factor. The pollution load index values for Cd and Co were the highest. The health risk index values for Cd, Fe and Co were ˃ 1 indicating that wheat grains were not suitable for human consumption. So, it is concluded that proper treatment of municipal solid waste is necessary before its application on land.
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