Environmental Pollution of the Soil by Heavy Metals at a Dumpsite Located at Esuk Utan, Calabar, CRS, Nigeria (original) (raw)
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Concentration of Heavy Metals in Soil around Dumpsites in Jimeta and Ngurore, Adamawa State, Nigeria
NIGERIAN ANNALS OF PURE AND APPLIED SCIENCES, 2019
Rapid urbanization and industrialization in developing countries have been associated with production and deposition of hazardous wastes in the soil environments. Heavy metals are major components of these wastes and have been implicated in several metal-related diseases and food poisoning in man. This study examined the concentration of Iron (Fe), Lead (Pb), Copper (Cu), Chromium (Cr), and Cadmium (Cd) heavy metals in soil near dumpsites of Jimeta and Ngurore, Yola North Local Government Areas (LGAs), Adamawa State. Soil samples from 0-20cm layer depth were collected in triplicates and analyzed using atomic absorption spectrophotometer (AAS). Results reveal that Fe, Pb, Cu and Chromium were detected, while Cadmium was found to be below the limit of detection. The mean concentration of the exchangeable cation in mg/kg in soil at Jimeta sites were: Fe (31.4 mg/kg) >Pb (0.92 mg/kg) > Cu (0.34 mg/kg) > Cr (0.11 mg/kg) >Cd (below limit of detection), while the mean concentra...
Heavy metals and soil physicochemical parameters were identified as environmental pollutants in some major domestic dumpsites in Akure city of Ondo state. The pH of the domestic dumpsites ranged from 7.07 to 7.69 with a mean value of 7.33. the organic carbon for the domestic dumpsites ranged from 0.46% to 1.18%, while the organic matter was between 0.80% and 2.05%. the concentration of Zn, Fe, Cu, Pb, Cd, Ni and Cr in µg/g in the domestic dumpsites A and B ranged between 360.00-441, 169.60-547.20, 37.20-102.00, 18.80-80.00, 2.36-2.95, 11.00-19.20 and 18.00-42.20 all in µg/g respectively. Also, the contamination pollution index of Zn, Fe, Cu, Pb, Cd, Ni and Cr all in the domestic dumpsites A and B ranged between 2.57-3.15, not detected, 1.03-2.83, 0.32-0.94, 2.95-3.68, 0.31-0.55 and 0.18-0.46 respectively. Pearson correlation indicated that Zn, Fe, Ni and Pb were highly significant (p<0.01).
Sretechjournal Publication, 2019
The research evaluated the levels of heavy metals (Mn, Cr, Pb, Cd, and Fe) in two dumpsites and control in Ilesha metropolis, Nigeria. Specific soil properties and the level of metals in dumpsites soil samples and vegetables were also considered. Standard techniques were employed in the appraisal and atomic absorption spectrophotometer (Buck Scientific model 210) for the metal concentration analysis. The level of each metal was detected low in the control site compared to the dumpsites which prove that there had been the anthropogenic contribution of heavy metal through the disposal of wastes containing or made of heavy metals. The metal concentration ranges between 0.25 mg/Kg (Cadmium of control) to 82,313 mg/Kg (Iron of IMD dumpsite). The vegetable (Talinum triangulare) that was common to the dumpsites and control accumulated minimal concentrations of the metals. In fact, vegetable in the two dumpsites and control had Cr, Cd, and Pb occurring below the detection limit. All the concentrations of metals studied in soil and vegetable were found to be lower than the maximum permissible limit of heavy metal in soil and vegetable stated by the World Health Organisation (WHO) which implies that the vegetables are presently safe for human consumption. The higher concentration of metals in dumpsite and their vegetables more than the control site shows that there is gradual pollution of heavy metals in the vegetable and implies that there is a need to avoid consuming vegetable grown on these sites and discourage the use of the sites for any form farming activities.
Heavy Metal Content in Soil in Garki Area Council of Federal Capital Territory, Abuja, Nigeria
Biochemistry & Analytical Biochemistry, 2015
This study investigates the concentration of Heavy Metals in soil sample from 15 different locations in Garki area of Federal Capital Territory (F.C.T) Abuja, Nigeria. The level of Cu, Cd, Pb, Ni, Mn, and Zn were determined using flame atomic absorption spectrophotometer. The results obtained indicated that these metals on dry weight basis in the soil ranged between (36.60-525.0 µg/g) Pb, (15.00-74.40 µg/g) Cu, (17.50-29.80 µg/g) Zn, (0.7-2.20 µg/g) Cd, (16.16-24.60 µg/g) Ni, and (270-558.0 µg/g) Mn. From the results, areas with high traffic density seem to be relatively high in concentration of tested metals than those from less traffic density. A significant correlation was found between traffic density and metal concentrations. The soil PH of the sample sites varies on the average from 6.44 to 7.24 in water indicating only a slightly acidic to neural. Generally, the concentrations obtained were higher than the tolerable limit for safe environment as prescribed by Nigeria Federal Environmental Protection Agency (FEPA) and World Health Organization (WHO).
2020
Solid waste is a major environmental threat globally, and Nigeria is not an exception. The problem of improper disposal of solid waste is further compounded by population growth and economic development, which leads to the generation of an enormous amount of solid waste. The resultant effects are environmental pollution with various pollutants such as toxic heavy metals. This research determined the heavy metal concentration in the soil of Ugwuaji solid waste dump environs in Enugu, Nigeria. The oil samples were collected and transported to the laboratory for analysis. The soil samples were analyzed for heavy metal using Atomic absorption spectrophotometer (AAS). The study concludes that poor waste management and accumulation of tons of solid waste in the dumpsite negatively affects the soil quality in the area. Further, the open solid waste dumping exposed the soil to serious contamination with heavy metals (Cd, Pb, Cu, Zn, and Fe). This implies to serious human and animal health d...
Asian Journal of Applied Chemistry Research
This work contributes to the monitoring of heavy metal pollution of Agricultural soils, Katsina State Nigeria, using Atomic Absorption Spectrophotometry. The heavy metal contamination of the soil samples were analyzed based on the Geoaccumulation index (Igeo), enrichment factor (EF), contamination factor (CF), pollution load index (PLI) and potential ecological risk index (PERI). The health risks of the evaluated heavy metals were estimated using the Hazard Quotient (HQ) and Hazard Index (HI)) to evaluate the possible non-carcinogenic effect and the Incremental Lifetime Cancer Risk (ILCR) for the cancer risk to the population. The results of the study had revealed that in the soil samples all the evaluated heavy metals lie within acceptable limits as set by the regulatory agencies. The evaluated soil samples pollution indices had revealed that the I-geo values for the soil samples were within the range of unpolluted to moderate pollution. Also, the heavy metal enrichment factor (EF)...
Heavy Metal Content of Soil in Garki Area Council of Abuja, Nigeria
Journal Of Chemical Society Of Nigeria, 2018
This study investigates the concentration of Heavy Metals in soil sample from 15 different locations in Garki area of Federal Capital Territory (F.C.T) Abuja, Nigeria. The soil PH of the sample sites varies on the average from 6.44 to 7.24 in water indicating only a slightly acidic to neural . The level of Cu, Cd, Pb, Ni, Mn, and Zn were determined using flame atomic absorption spectrophotometer. The results obtained indicated that these metals on dry weight basis in the soil ranged between (36.60-525.0 µg/g) Pb, (15.00-74.40 µg/g) Cu, (17.50-29.80 µg/g) Zn, (0.7- 2.20 µg/g) Cd, (16.16-24.60 µg/g) Ni, and (270-558.0 µg/g) Mn. From the results, areas with high traffic density seem to be relatively high in concentration of tested metals than those from less traffic density. A significant correlation was found between traffic density and metal concentrations. Generally, the concentrations obtained were much higher than the tolerable limit for safe environment as prescribed by National ...
FUDMA JOURNAL OF SCIENCES
Total concentration and pollution indices of mercury (Hg), lead (Pb), chromium (Cr), cadmium (Cd), arsenic (As), nickel (Ni), and cobalt (Co) in dumpsite soil located in University of Cross River State, Calabar were evaluated in this work. Soil samples were collected at 0 - 15cm depth from two sampling stations at the dumpsite once in the months of April, August and December, 2021 and analyzed to the closest mg/kg using Atomic Absorption Spectrophotometer (AAS). The concentrations of the heavy metals showed that Cd>Pb>Ni>Cr>As>Co. All the concentrations of the heavy metals examined when compared with those of average value of heavy metals in shale showed that all the metals were lower than their corresponding world average value except Cd. Geoaccumulation index indicated unpolluted to moderately polluted for all metals studied except Cd which indicated strong to very strongly polluted. Contamination factor for Cd indicated very high contamination. Contamination degree...
Assessment of Heavy Metal Contamination on Dumpsite in Kuyi Village, Niger State, Nigeria
International Journal of Research in Chemical, Metallurgical and Civil Engineering
Soil samples collected from the dumpsite located in Kuyi village, Minna, Niger State were analyzed for copper (Cu), iron (Fe 2+) and manganese (Mn) using Atomic Absorption Spectrometer. Twenty-one (21) sample points both horizontally and vertically (depth) were studied. The results revealed that Mn had the highest concentration (11.6mg/kg) compared to Cu and Fe 2+. However, it was observed that a minimal reduction in concentration of each metal along the surface of the dumpsite occurred. Interestingly, the concentration of Fe at all points was relatively high (5.54mg/kg, 4.67mg/kg, 3.99mg/kg and 3.78mg/kg). Based on the Federal Environmental Protection Agency and Land Disposal Restriction Standard Regulation, this metal could have adverse effect on human health, stream and agricultural activities of villagers around the dumpsite.