Department of Agricultural Chemistry and Food Sciences, Facultad de Ciencias, Universidad Autónoma de Madrid, 28049, Madrid, Spain.
Department of Agricultural Chemistry and Food Sciences, Facultad de Ciencias, Universidad Autónoma de Madrid, 28049, Madrid, Spain.
Chemosphere. 2017 Sep;182:373-381. doi: 10.1016/j.chemosphere.2017.05.034. Epub 2017 May 9.
Arsenic and Cu mobility was investigated in the rhizosphere of Lupinus albus L. grown in an iron-amended contaminated soil. White lupin was grown in rhizobags in contaminated soil either left untreated or amended with iron sulphate plus lime (Fe + lime) or biochar (Fe + BC). Porewater was monitored in rhizosphere and bulk soil throughout the experiment and the extractable fraction of several elements and As and Cu plant uptake was analysed after 48 days. The distribution of As, Cu, P and Fe in the lupin rhizosphere was evaluated with chemical images obtained by laser ablation-ICP-MS analysis of diffusive gradients in thin films (DGT) gels. The treatments effectively reduced the soluble and extractable As and Cu fractions in the bulk soil, but they did not affect plant uptake. In all cases, soluble As was slightly enhanced in the rhizosphere. This difference was more pronounced in the Fe + lime-treated rhizosphere soil, where an increase of pH as well as extractable As and Fe concentrations were also observed. Chemical imaging of the lupin rhizosphere also showed slightly higher As- and Fe-DGT fluxes around lupin roots grown in the non-amended soil. Our findings indicate As and Fe co-solubilisation by lupin root exudates, likely as a response to P deficiency. Arsenic mobilisation occurred only in the rhizosphere and was not decreased by the amendments.
在铁改良污染土壤中种植的白 Lupinus albus L. 的根际中研究了砷和 Cu 的迁移性。在污染土壤中,将白 Lupinus 种植在根袋中,不进行处理或用硫酸铁加石灰(Fe+石灰)或生物炭(Fe+BC)进行改良。在整个实验过程中监测根际和土壤的孔隙水,并在 48 天后分析可提取元素和 As 和 Cu 的植物吸收。通过激光烧蚀-ICP-MS 分析扩散梯度薄膜(DGT)凝胶获得的化学图像评估了 As、Cu、P 和 Fe 在 Lupinus 根际中的分布。这些处理有效地降低了土壤中可溶和可提取的 As 和 Cu 分数,但它们没有影响植物吸收。在所有情况下,根际中的可溶性 As 略有增加。在 Fe+石灰处理的根际土壤中,这种差异更为明显,因为 pH 值以及可提取的 As 和 Fe 浓度也有所增加。Lupinus 根际的化学成像还显示,在未改良土壤中生长的 Lupinus 根周围,As 和 Fe-DGT 通量略高。我们的研究结果表明,Lupinus 根系分泌物协同溶解了 As 和 Fe,可能是对 P 缺乏的反应。仅在根际发生砷的迁移,且改良剂并未降低砷的迁移。
