Growth behaviour and metal accumulation of two varieties of maize Zea mays L. sown on a soil obtained from a mining site

S. Abiya, G. Ogunwole, B. Odiyi, A. Olanrewaju
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Abstract

A screen house study was conducted to evaluate the effect of gemstone mining on the growth behaviour of maize Zea mays L. A completely randomized design involving two samples of soil (FUTA (control) and Ijero (mined soil)), two varieties of the maize (TMZ234 and Sammarz 39) was used. The seeds were sown into experimental pots containing the soils and the whole set up was left for eight weeks. Growth parameters (plant height, leaf area and stem girth were taken at a weekly basis up till the eight week. Eight heavy metal (Cd, Cu, Cr, Fe, Ar, Zn, Pb and Ni) concentration in the soils, roots and shoots of the plants was determined at the end of the experiment using atomic absorption spectrophotometer. Baseline data indicates that the mined soil is acidic (pH 4.12), with low organic carbon (0.92), low organic matter (1.59) and low total nitrogen (0.76). Results obtained from this study show that all growth parameters were negatively affected by the mined soil. Plant height was significantly higher in the control varieties (82.28 and 40.46, respectively) when compared with the mined soil varieties (30.5 and 29, respectively) at 8 weeks after planting (WAP). Leaf area also followed the same pattern with varieties grown on control soil having significantly higher leaf area (48.22 and 25.22, respectively) than varieties grown on mined soil (19.08 and 19, respectively). Stem girth of variety TMZ234 in control soil was also significantly higher than the rest (2.24 as against 1.68, 1.5 and 1.74). Heavy metals concentration in the soil, shoot and root of the plants grown in mined soils were all higher than in those grown on control soils. In the soil, Cr, Ni and Pb were 0.24, 0.15, 0.10 and 0.20, 0.13, 0.10, respectively, in both varieties grown on mined soils as against 0.03, 0.01, 0.00 and 0.03, 0.08, 0.00 for Cr, Ni and Pb, respectively, for both varieties grown on control soils. Bioaccumulation and translocation factors for the metals were less than 1 in all the soils except for Ni which had BCF of 2.80 and 6.90 for both varieties grown in the control soils. The results from this study has shown the negative effect of gemstone mining activities on the growth of two varieties of Zea mays.
两个玉米品种在矿区土壤上的生长行为和金属积累
为了评价宝石开采对玉米玉米(Zea mays L.)生长行为的影响,采用完全随机设计,采用两种土壤样品(对照土壤FUTA和开采土壤Ijero),采用TMZ234和Sammarz 39两个玉米品种。将种子播种到装有土壤的实验盆中,整个装置放置8周。生长参数(株高、叶面积和茎周长)每周采集一次,直到第8周。实验结束后,用原子吸收分光光度计测定了土壤、根系和枝条中8种重金属(Cd、Cu、Cr、Fe、Ar、Zn、Pb和Ni)的浓度。基线数据表明,矿区土壤呈酸性(pH值4.12),低有机碳(0.92)、低有机质(1.59)、低全氮(0.76)。研究结果表明,采掘土壤对各生长参数均有负面影响。植后8周(WAP),对照品种株高分别为82.28和40.46,显著高于矿区品种(30.5和29)。在对照土上种植的品种叶面积(分别为48.22和25.22)显著高于在采掘土上种植的品种(分别为19.08和19)。对照土壤TMZ234的茎周长也显著高于其他品种(2.24比1.68、1.5和1.74)。矿区土壤中植物的土壤、茎部和根部重金属含量均高于对照土壤。矿区土壤中Cr、Ni、Pb含量分别为0.24、0.15、0.10和0.20、0.13、0.10,对照土壤中Cr、Ni、Pb含量分别为0.03、0.01、0.00和0.03、0.08、0.00。在对照土壤中,除镍的BCF分别为2.80和6.90外,其余土壤中金属的生物积累和转运因子均小于1。研究结果表明,宝石开采活动对两个玉米品种的生长有负面影响。
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