Department of Environmental Science and Engineering, Gwangju Institute of Science and Technology, Republic of Korea.
Environ Geochem Health. 2011 Jan;33 Suppl 1:71-80. doi: 10.1007/s10653-010-9361-3. Epub 2010 Nov 3.
Mechanisms of natural attenuation of arsenic (As) by wetland plants may be classified by plant uptake and adsorption and/or co-precipitation by iron (oxy)hydroxide formed on the root surface of plants or in rhizosediment. A natural Cattail (Typha spp.) wetland impacted by tailings containing high levels of As from the Myungbong abandoned Au Mine, South Korea was selected, and the practical capability of this wetland to attenuate As was evaluated. The As concentrations in the plant tissues from the study wetland were several-fold higher than those from control wetland. SEM-EDX analyses demonstrated that iron plaques exist on the rhizome surface. Moreover, relatively high As contents bonded with hydrous iron oxides were found in the rhizosediments rather than in the bulk sediments. It was revealed through the leaching and sequential extraction analyses that As existed as more stable forms in the wetland sediment compared with adjacent paddy soil, which is also contaminated with As due to input of mine tailings. The As concentration ratios of extracted solution to sediment/soil represented that the wetland sediment showed significant lower values (10-fold) rather than the paddy soil with indicating high As stability. Also, As in the wetland sediment was predominantly bonded with residual phases on the basis of results from sequential extraction analysis. From these results, it is concluded that transformation of As contaminated agricultural field to wetland environment may be helpful for natural attenuation until active remediation action.
湿地植物对砷(As)的自然衰减机制可通过植物吸收和吸附以及/或在植物根部表面形成的铁(氧)氢氧化物或根际沉积物中的共沉淀来分类。选择了受韩国明邦废弃金矿尾矿中高浓度砷影响的天然香蒲(Typha spp.)湿地,并评估了该湿地对砷的实际衰减能力。研究湿地植物组织中的砷浓度比对照湿地高出数倍。SEM-EDX 分析表明,根茎表面存在铁斑。此外,在根际沉积物中而不是在原状沉积物中发现了与水合氧化铁结合的相对较高含量的砷。通过浸出和连续提取分析表明,与由于矿山尾矿输入而受到污染的相邻稻田土壤相比,湿地沉积物中砷的存在形式更稳定。提取液与沉积物/土壤的砷浓度比表明,与指示高砷稳定性的稻田土壤相比,湿地沉积物的数值明显较低(10 倍)。此外,基于连续提取分析的结果,湿地沉积物中的砷主要与残余相结合。根据这些结果,可以得出结论,将受污染的农田转变为湿地环境可能有助于自然衰减,直到采取积极的修复行动。
