College of Bio-resources and Environmental Science, Jishou University, Jishou 416000, P. R. China.
Environ Sci Process Impacts. 2013 Oct;15(11):2059-67. doi: 10.1039/c3em00338h.
The in situ immobilization of heavy metals using various easily obtainable amendments is a cost-effective and practical method in the remediation of contaminated sites. In this study, two novel industrial waste materials (sweet sorghum vinasse and medicinal herb residues), spent mushroom compost and municipal solid wastes were used as amendments to assess their potential value for the in situ immobilization of heavy metals in tailings from a Pb-Zn mine in South China. Our results demonstrate that all three freely-available organic wastes decrease the deionized water (DW)- and diethylene-triamine-pentaacetic acid (DTPA)-extractable metal concentrations, enhance the enzyme activity, reduce the metal concentration in plant tissues, and could be used for the remediation of these Pb-Zn mine tailings metals by immobilization. The municipal solid waste failed to reduce the metal concentration in tailings and plant tissues and therefore would not be a suitable immobilizing agent. The potential value of these materials as immobilizers of heavy metals and their remediation efficacy deserve further studies in large-scale field trials.
利用各种易得的改良剂原位固定重金属是一种经济实用的污染场地修复方法。本研究选用两种新型工业废物(甜高粱酒糟和药用植物残渣)、蘑菇渣和城市固体废物作为改良剂,评估它们对原位固定华南某 Pb-Zn 矿尾矿中重金属的潜在价值。结果表明,三种免费的有机废物均可降低去离子水(DW)和二乙烯三胺五乙酸(DTPA)可提取金属浓度,提高酶活性,降低植物组织中的金属浓度,可用于固定修复 Pb-Zn 矿尾矿金属。城市固体废物未能降低尾矿和植物组织中的金属浓度,因此不是合适的固定剂。这些材料作为重金属固定剂的潜在价值及其修复效果值得在大规模田间试验中进一步研究。