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.
Environ Pollut. 2016 Sep;216:215-222. doi: 10.1016/j.envpol.2016.05.071. Epub 2016 Jun 3.
Arsenic is a non-threshold carcinogenic metalloid. Thus, human exposure should be minimised, e.g. by chemically stabilizing As in soil. Since iron is a potential As immobiliser, it was investigated whether root iron plaque, formed under aerobic conditions, affects As uptake, metabolism and distribution in Lupinus albus plants. White lupin plants were cultivated in a continuously aerated hydroponic culture containing Fe/EDDHA or FeSO4 and exposed to arsenate (5 or 20 μM). Only FeSO4 induced surficial iron plaque in roots. LA-ICP-MS analysis accomplished on root sections corroborated the association of As to this surficial Fe. Additionally, As(V) was the predominant species in FeSO4-treated roots, suggesting less efficient As uptake in the presence of iron plaque. Fe/EDDHA-exposed roots neither showed such surficial FeAs co-localisation nor As(V) accumulation; in contrast As(III) was the predominant species in root tissue. Furthermore, FeSO4-treated plants showed reduced shoot-to-root As ratios, which were >10-fold lower compared to Fe/EDDHA treatment. Our results highlight the role of an iron plaque formed in roots of white lupin under aerobic conditions on As immobilisation. These findings, to our knowledge, have not been addressed before for this plant and have potential implications on soil remediation (phytostabilisation) and food security (minimising As in crops).
砷是一种无阈值的致癌类金属元素。因此,应尽量减少人类暴露,例如通过化学方法稳定土壤中的砷。由于铁是一种潜在的砷固定剂,因此研究了在有氧条件下形成的根铁斑是否会影响白羽扇豆植物对砷的吸收、代谢和分布。将白羽扇豆植物种植在含有 Fe/EDDHA 或 FeSO4 的连续充气水培文化中,并暴露于砷酸盐(5 或 20 μM)下。只有 FeSO4 诱导了根部的表面铁斑。对根切片进行的 LA-ICP-MS 分析证实了 As 与这种表面 Fe 的关联。此外,在 FeSO4 处理的根中,As(V)是主要的物种,表明在存在铁斑的情况下,As 的吸收效率较低。暴露于 Fe/EDDHA 的根既没有显示出这种表面 FeAs 共定位,也没有积累 As(V);相反,在根组织中 As(III)是主要的物种。此外,FeSO4 处理的植物表现出降低的地上部到根部的 As 比,与 Fe/EDDHA 处理相比,该比值低 10 倍以上。我们的研究结果强调了在有氧条件下白羽扇豆根部形成的铁斑对砷固定的作用。就我们所知,这些发现以前尚未针对该植物进行过研究,并且对土壤修复(植物稳定)和食品安全(减少作物中的砷)具有潜在影响。
