Shelmerdine Paula A, Black Colin R, McGrath Steve P, Young Scott D
School of Biosciences, University of Nottingham, Sutton Bonington Campus, Loughborough LE12 5RD, UK.
Environ Pollut. 2009 May;157(5):1589-96. doi: 10.1016/j.envpol.2008.12.029. Epub 2009 Jan 25.
Pteris vittata plants were grown on twenty-one UK soils contaminated with arsenic (As) from a wide range of natural and anthropogenic sources. Arsenic concentration was measured in fern fronds, soil and soil pore water collected with Rhizon samplers. Isotopically exchangeable soil arsenate was determined by equilibration with (73)As(V). Removal of As from the 21 soils by three sequential crops of P. vittata ranged between 0.1 and 13% of total soil As. Ferns grown on a soil subjected to long-term sewage sludge application showed reduced uptake of As because of high available phosphate concentrations. A combined solubility-uptake model was parameterised to enable prediction of phytoremediation success from estimates of soil As, 'As-lability' and soil pH. The model was used to demonstrate the remediation potential of P. vittata under different soil conditions and with contrasting assumptions regarding re-supply of the labile As pool from unavailable forms.
将蜈蚣草种植在来自广泛自然和人为来源、被砷(As)污染的21种英国土壤上。用Rhizon采样器收集蕨叶、土壤和土壤孔隙水中的砷浓度。通过与(73)As(V)平衡来测定同位素可交换土壤砷酸盐。连续三茬蜈蚣草从21种土壤中去除的砷量占土壤总砷量的0.1%至13%。由于有效磷浓度高,在长期施用污水污泥的土壤上生长的蕨类植物对砷的吸收减少。对一个溶解度-吸收联合模型进行参数化,以便能够根据土壤砷、“砷活性”和土壤pH值的估计来预测植物修复的成功情况。该模型用于展示在不同土壤条件下以及关于不稳定砷库从不可用形式重新供应的不同假设下蜈蚣草的修复潜力。