Departamento de Ingeniería y Suelos, Universidad de Chile, 8820808 Santiago, Chile.
Sci Total Environ. 2013 Apr 15;450-451:188-96. doi: 10.1016/j.scitotenv.2013.02.021. Epub 2013 Mar 6.
The Pre-Andean area of Chile exhibits saline soils of volcanic origin naturally contaminated with arsenic (As), and we hypothesise that revegetation with resistant species may be a valid alternative for soil management in this area. Thus, the xerophytic and halophytic shrubs Atriplex halimus and Atriplex atacamensis were cultivated in containers for 90 days in Pre-Andean soil, As-soil, (111±19 mg As kg(-1), pH8.4±0.1) or control soil (12.7±1.1 mg As kg(-1), pH7.8±0.1) to evaluate As accumulation and resistance using stress bioindicators (chlorophylls, malondialdehyde (MDA) and total thiols). Sequential extraction of As-soil indicated that 52.3% of As was found in the most available fraction. The As distribution was significantly different between the species: A. halimus translocated the As to leaves, whilst A. atacamensis retained the As in roots. At 30 and 90 days, A. halimus showed similar As concentrations in the leaves (approximately 5.5 mg As kg(-1)), and As increased in stems and roots (up to 4.73 and 16.3 mg As kg(-1), respectively). In A. atacamensis, As concentration was lower (2.6 in leaves; 3.2 in stems and 6.9 in roots in mg As kg(-1)). Both species exhibited a high concentration of B in leaves (362-389 mg kg(-1)). If the plants are used for animal feed, it should be considered that A. halimus accumulates higher concentration of As and B in the leaves than A. atacamensis. Neither plant growth nor stress bioindicators were negatively affected by the high levels of available As, with the exception of MDA in the leaves of A. halimus. The results indicate that these plants resist contamination by arsenic, accumulating mainly the metalloid in the roots and can be recommended to generate plant cover in As-contaminated soils in the Pre-Andean region, under saline conditions controlled, preventing the dispersion of this metalloid via wind and leaching.
智利前安第斯地区的土壤为火山起源的盐碱土,天然受到砷(As)污染,我们假设使用抗性物种进行植被恢复可能是该地区土壤管理的有效替代方法。因此,我们将旱生和盐生灌木滨藜(Atriplex halimus)和智利滨藜(Atriplex atacamensis)在容器中种植 90 天,分别种植在前安第斯土壤、含砷土壤(111±19 mg As kg(-1),pH8.4±0.1)或对照土壤(12.7±1.1 mg As kg(-1),pH7.8±0.1)中,以使用应激生物标志物(叶绿素、丙二醛(MDA)和总巯基)评估砷的积累和抗性。对含砷土壤进行的连续提取表明,52.3%的砷存在于最易获得的部分。两种物种之间的砷分布存在显著差异:A. halimus 将砷转运到叶片中,而 A. atacamensis 将砷保留在根部。在 30 天和 90 天时,A. halimus 叶片中的砷浓度相似(约 5.5 mg As kg(-1)),并且在茎和根中增加(分别高达 4.73 和 16.3 mg As kg(-1))。在 A. atacamensis 中,砷浓度较低(叶片中为 2.6;茎中为 3.2;根中为 6.9 mg As kg(-1))。两种物种的叶片中均含有高浓度的 B(362-389 mg kg(-1))。如果将这些植物用于动物饲料,应注意 A. halimus 在叶片中积累的砷和 B 浓度高于 A. atacamensis。除了 A. halimus 叶片中的 MDA 外,高浓度的有效砷并没有对植物生长和应激生物标志物产生负面影响。结果表明,这些植物能够抵抗砷的污染,主要将类金属积累在根部,并可推荐用于在受砷污染的土壤中生成植物覆盖物,以控制盐分条件,防止这种类金属通过风和淋洗而扩散。
