Departamento de Toxicología Ambiental, Universidad Autónoma de San Luis Potosí, San Luis Potosí, México.
Environ Sci Pollut Res Int. 2013 Jun;20(6):3946-55. doi: 10.1007/s11356-012-1344-8. Epub 2012 Nov 28.
Several native plants, able to grow in an unconfined mining impacted area that is now in close vicinity with urban areas, were evaluated for their ability to accumulate heavy metals. The main soil contaminants were As, Pb, Cu, and Zn. Sampling of the rhizospheric metal polluted soil showed that Euphorbia prostrata Aiton, Parthenium incanum Kunth, and Zinnia acerosa (DC.) A. Gray were able to grow in the presence of high amounts of mixtures of these elements. The plants accumulated the metals in the above ground parts and increased the synthesis of thiol molecules. E. prostrata showed the highest capacity for accumulation of the mixture of elements (588 μg g DW(-1)). Analysis of the thiol-molecules profile showed that these plants synthesized high amounts of long-chain phytochelatins, accompanied by low amounts of monothiol molecules, which may be related to their higher resistance to As and heavy metals. The three plants showed translocation factors from roots to leaves >1 for As, Pb, Cu, and Zn. Thus, by periodically removing aerial parts, these plants could be useful for the phytoremediation of semi-arid and arid mining impacted areas, in which metal hyper-accumulator plants are not able to grow.
几种能够在紧邻城市的未受限制的采矿影响区域生长的本地植物,因其积累重金属的能力而得到了评估。主要的土壤污染物是 As、Pb、Cu 和 Zn。对根际受金属污染的土壤进行采样表明,Euphorbia prostrata Aiton、Parthenium incanum Kunth 和 Zinnia acerosa (DC.) A. Gray 能够在这些元素混合物的高浓度存在下生长。这些植物将金属积累在地上部分,并增加了巯基分子的合成。E. prostrata 对元素混合物的积累能力最高(588μg g DW(-1))。巯基分子谱分析表明,这些植物合成了大量的长链植物螯合肽,同时伴随着少量的单巯基分子,这可能与其对 As 和重金属的更高抗性有关。这三种植物从根部到叶子的转运因子(translocation factors)对于 As、Pb、Cu 和 Zn 均大于 1。因此,通过定期去除地上部分,这些植物可以用于半干旱和干旱采矿影响地区的植物修复,在这些地区,金属超积累植物无法生长。
