Bioaccumulation of heavy metals by Vigna unguiculata (cowpea) grown on Olusosun Dump Site soil, Lagos Nigeria (original) (raw)
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This study investigated the concentration and bioaccumulation of Heavy metals of plants within waste dumpsites in Ozoro, South-South Nigeria. The soil and plants parts (Root and shoot) were obtained from the dumpsite and at a farm land far away from the dumpsite (Control site). The soil and plant parts were digested using aqua regia and analysed for heavy metals using Atomic Absorption Spectrophotometer (Buck 200A model). Musa paradisiacal (Plantain), Manihot esculenta (Cassava), Colocasia esculenta (Cocoyam) and Carica papaya (Pawpaw) were studied. The heavy metals cadmium, copper, Iron, lead, manganese and zinc were analyzed. The metal concentration in mg/kg ranged thus; Cd (0.01 – 0.06); Cu (0.01 – 0.08); Fe (0.01 – 0.08); Pb (0.01 – 0.07); Mn (0.01 – 0.06) and Zn (0.01 – 0.05). The metal concentrations in the dumpsite soil and plants were relatively higher than those from the control site. Musa paradisiacal and Manihot esculenta had their heavy metals concentrations accumulated more in the roots than in the shoots while Colocasia esculenta and Carica papaya had heavy metal concentration more in the shoot than in the root. Bioaccumulation Factor of the studied plants showed that Musa paradisiacal is a bioaccumulator for Manganese, Manihot esculenta and Colocasia esculenta are bioaccumulators for cadmium while Carica papaya is a bioaccumulator for Cadmium, copper and Iron. Translocation Factor (TFRoot to Shoot) of the heavy metals in Musa paradisiacal and Manihot esculenta were all less than 1 while the (TFRoot to Shoot) for Colocasia esculenta and Carica papaya were all greater than 1 indicating easy translocation of the metals to the shoot by Colocasia esculenta and Carica papaya. The Translocation Factor (TFSoil to Root) for cadmium was greater than 1 for all the plants except Carica papaya. Copper and Iron had TFSoil to root greater than 1 in Manihot esculenta while manganese had TFSoil to root greater than 1 in Musa paradisiacal implying easy translocation of the metals from soil to root. The Enrichment Factor of the heavy metals were all greater than 1 which implies that the metals are all readily available for absorption by the plants. The metal concentrations were less than FAO/WHO guidelines except lead. The ease at which cadmium and lead were translocated from the root to the shoot calls for concern. Therefore planting of crops around dumpsite soils should be discontinued with in order to safeguard our health.
A Study of the Uptake of Heavy Metals by Plants near Metal-Scrap Dumpsite in Zaria, Nigeria
Journal of Applied Chemistry, 2014
The research work investigates the metal uptake of the plants Lycopersicon esculentum (tomato), Rumex acetosa (sorrel), and Solanum melongena (garden egg) collected from experimental sites and a control area in Zaria, Nigeria. The concentrations of Cd, Cu, Fe, Pb, Mn, and Zn in different parts of each of the plant species grown on the experimental and control soils were determined using atomic absorption spectrophotometry. The experimental levels of the metals were higher than those at the control site and the limits recommended by Food and Agricultural Organisation/World Health Organisation (FAO/WHO). Solanum melongena showed bioaccumulation factor (BF) and transfer factor (TF) greater than 1 for Cd, Pb, and Mn; Rumex acetosa showed BF and TF greater than 1 for Mn and Zn, and TF was greater than 1 for Cu and Fe; Lycopersicon esculentum had only the TF for Fe, Pb, Mn, and Zn greater than 1. This results implies that Solanum melongena and Rumex acetosa plants can be effectively used ...
This study was carried out to investigate heavy metals concentrations: lead (Pb), cobalt (Co), cadmium (Cd), zinc (Zn), nickel (Ni), copper (Cu) and manganese (Mn) in Musa paradisiaca (plantain), Zea mays (maize), Cucumeropsis manii (melon), Manihot esculenta (cassava) and soil samples from dumpsites in Onne, Eleme Local Government Area, Rivers State, Nigeria. The plant leaf and soil samples were measured for heavy metals concentrations using atomic absorption spectrophotometer. The health risk index (HRI) of the heavy metals following the consumption of these plant materials by the populace was estimated using standard protocols. The heavy metals concentrations in the leaf samples ranged from 0.012–14.712 mg/kg, whereas those of the soil samples were within the range of 2.543–16.459 mg/kg. Cd concentrations in the soil and leaf samples were above the maximum permissible level according to the World Health Organization (WHO). The bioaccumulation of the heavy metals followed the trend: (M. paradisiaca) Zn > Pb > Co > Mn > Cu > Cd > Ni; (Z. mays) Mn > Pb > Co > Zn > Cu > Cd > Ni; (C. mannii) Mn > Co > Pb > Cu > Zn > Cd > Ni; (M. esculenta) Zn > Pb > Mn > Cu > Co > Ni > Cd. The highest bioaccumulation of the heavy metals occurred in M. esculenta. The estimated HRI of Pb in M. esculenta was greater than 1. HRI > 1 was indicative that the consumer population is not safe. Cassava-based meals from the dumpsites contained Pb at toxic level, whereas Co, Cd, Zn, Ni, Cu, and Mn concentrations in plantain-, maize- and melon-based meals were relatively within safe limits.
Heavy metals loads in soil, farmlands and plant crop at open dumpsite
Global Journal of Environmental Science and Management, 2019
This study aimed to evaluate concentrations of selected heavy metals in the soils of Ilokun dumpsite and adjourning farmlands, and to determine as well levels of heavy metals uptake in various parts of Carica papaya plant collected from the dumpsite. Twenty-two soil samples were collected within the dumpsites and farmlands at depths of 0-20 cm and 20-40 cm. Evaluations of heavy metals (Ni, Zn, Cd, Cr, Pb and Cu) in soil samples and in different parts of Carica papaya plants were carried out using atomic absorption spectrophotometer. The study revealed higher concentration of Pb in the dumpsite than the farmlands. Mean concentrations of Cd in the dumpsites; 2.98±1.93 (0-20 cm) and 3.22±2.14 (20-40 cm) were higher than their corresponding depth in farmlands (1.93±1.28 (0-20cm) and 1.94±1.59 (20 – 40 cm). The study established a strong correlation for Ni/Pb (0.948) at depth of 0.20cm; Cu/Cd (0.985) and Pb/Cd (0.918) at depth of 20-40cm. Heavy metal uptake was highest in the plant parts...
Bioaccumulation of Heavy Metals in Leafy Vegetables Around Dumpsites in Zaria, Nigeria
2022
This study examined the status and bioavailability of three potential toxic metals (Cd, Pb and Cr) in three selected garden fields located at Dogon Bauchi road, Galma bridge and Lambu in Zaria metropolis. Maje road, Tudun Wada, Zaria was selected as control site. Composite soil samples consisting of ten auger points were collected for each of the locations at 0-15 cm depth and bulked. The samples were air-dried for 14 days, crushed and sieved through 2mm for further analysis. The samples of two crops were also collected; amaranthus-Amaranthus caudatus and lettuce-Lactuca sativa according to their physiological age by uprooting. The concentration of Cadmium, Lead and Cromium from both soil and plant samples were determined and the data was subjected to analysis of variance. The total concentration of Cd, Pb and Cr in the soils
Science domain international , 2019
The study investigate a series of selected heavy metal pollution of soil, the extent of their uptake by Telfairia occidentalis and Amaranthus cruentus as well as their ecological risk around dumpsite in Chanchaga Minna, Niger State, Nigeria. Soil samples were collected at 15 cm depth with the aid of soil auger and vegetable samples were collected from dumpsite and other samples with no activities served as control. The soil samples were collected at random and their physicochemical parameters such as pH, total nitrogen, total phosphorus, organic matter, total carbon and exchangeable cations (i.e., K + , Mg 2+ and Na +) using a standard method and concentrations of the Original Research Article Oguh et al.; AJEE, 10(2): 1-16, 2019; Article no.AJEE.51487 2 heavy metals in soils and vegetables, As, Cd, Cr, Cu, Hg and Pb were analyzed using flame Atomic Absorption Spectrometer (AAS). The ecological health risk assessment from the consumption of these vegetables was calculated using standard methods. The result showed a significant (p-value) increase of AC and TO in test soil samples relative to the control soils. The pH of the soil in dumpsite and control site was 5.93, and 7.35 respectively. Mean concentrations of As, Cd, Cr, Cu, Hg and Pb in the dump site were 6.35, 4.84, 6.67, 7.35, 5.72 and 4.96 mg/kg while the control site were 1.18, 0.28, 1.26, 6.83, 1.19 and 3.54 mg/kg respectively which was below the WHO/FAO limits of As (20), Cd (3.0), Cr (100), Cu (100), Hg (2.00) and Pb (50 mg/kg) for soil. The concentrations of As, Cd, Cr, Cu, Hg and Pb recorded in AC dump site were As (6. mg/kg) which were above the WHO/FAO permissible limits (0.5, 0.20, 0.3, 3.0, 0.1 and 0.3 mg/kg) respectively for edible vegetable. The concentrations of heavy metals in soils and vegetables from the dumpsite soil were significant (p < 0.05) from the controls. The bioaccumulation factor (BAF) for the vegetable showed that they exclude the element from soil. The Hazard Quotient (HQ) and Hazard index (HI) show that there is no harmful effect since the values obtain were not greater than >1. But continuous consumption can accumulate in the food chain especially for children. This study showed that the soils and vegetables within the vicinity of the dumpsites were polluted by heavy metals which can pose health risk. The study also calls for proper waste management practices and policy implementation.