Department of Botany, St. John's College, Agra, UP, India.
Environ Sci Pollut Res Int. 2012 Jan;19(1):269-81. doi: 10.1007/s11356-011-0530-4. Epub 2011 Jul 7.
The effect of the glass industry on urban soil metal characterization was assessed in the area of Firozabad, India. A comprehensive profile of metal contamination was obtained in five zones each containing five specific sites.
Zn, Cd, and As showed a greater accumulation, whereas accumulation of Ni and Cu was high in limited samples. Positive correlation was found for the metal pairs Cu-Zn, Cu-Co, and Cu-Cr at P < 0.01. Moderate positive correlation was also observed between Zn-Co, Mn-Cd, Mn-As, Pb-As, and Ni-Cu at P < 0.05. Integrated contamination indices indicate that 60% of the sites were heavily contaminated while 28% were moderately contaminated. Phytoremedial potential of native flora (twenty herbs, three shrubs, and two grasses) was also assessed by analyzing their metal uptake. Individual elements displayed remarkably different patterns of accumulation in soils as well as in plants. Mn, Zn, Cu, and As were predominantly partitioned in shoots, Co and Cd in roots while Pb, Cr, and Ni almost equally between shoots and roots. Most plants exhibited capabilities in mobilizing Co, Pb, Cr, and Ni in the root zone.
Potential phytoextractors include Datura stramonium and Chenopodium murale while phytostabilizers include Calotropis procera and Gnaphalium luteo-album. Poa annua showed potential in both categories. None of the species showed phytoremedial potential for Co and Ni.
本研究评估了印度菲罗扎巴德地区玻璃工业对城市土壤金属特征的影响。在五个区域内,每个区域包含五个特定地点,我们获得了金属污染的综合概况。
Zn、Cd 和 As 表现出更高的积累,而 Ni 和 Cu 的积累在有限的样本中较高。在 P < 0.01 水平上,Cu-Zn、Cu-Co 和 Cu-Cr 金属对之间存在正相关。在 P < 0.05 水平上,Zn-Co、Mn-Cd、Mn-As、Pb-As 和 Ni-Cu 之间也观察到中等程度的正相关。综合污染指数表明,60%的地点受到严重污染,28%的地点受到中度污染。通过分析其金属吸收,还评估了本地植物群(二十种草本植物、三种灌木和两种草)的植物修复潜力。个别元素在土壤和植物中的积累模式明显不同。Mn、Zn、Cu 和 As 主要分配在地上部分,Co 和 Cd 主要分配在根部,而 Pb、Cr 和 Ni 在地上部分和根部几乎相等。大多数植物在根区表现出动员 Co、Pb、Cr 和 Ni 的能力。
潜在的植物提取剂包括曼陀罗和藜,而植物稳定剂包括牛角瓜和白茅。一年生黑麦草在这两个类别中都有潜在的应用。没有一种植物对 Co 和 Ni 具有植物修复潜力。
