Department of Chemical and Geological Sciences, University of Cagliari , 09127 Cagliari, Italy.
Environ Sci Technol. 2015 Feb 3;49(3):1400-8. doi: 10.1021/es503842w. Epub 2015 Jan 23.
Euphorbia pithyusa L. was used in a plant growth-promoting assisted field trial experiment. To unravel the microscopic processes at the interface, thin slices of E. pithyusa roots were investigated by micro-X-ray fluorescence mapping. Roots and rhizosphere materials were examined by X-ray absorption spectroscopy at the Zn K-edge, X-ray diffraction, and scanning electron microscopy. Results indicate some features common to all the investigated samples. (i) In the rhizosphere of E. pithyusa, Zn was found to exist in different phases. (ii) Si and Al are mainly concentrated in a rim at the epidermis of the roots. (iii) Zn is mostly stored in root epidermis and does not appear to be coordinated to organic molecules but mainly occurs in mineral phases such as Zn silicates. We interpreted that roots of E. pithyusa significantly promote mineral evolution in the rhizosphere. Concomitantly, the plant uses Si and Al extracted by soil minerals to build a biomineralization rim, which can capture Zn. This Zn silicate biomineralization has relevant implications for phytoremediation techniques and for further biotechnology development, which can be better designed and developed after specific knowledge of molecular processes ruling mineral evolution and biomineralization processes has been gained.
大飞扬草(Euphorbia pithyusa L.)曾被用于一项植物促生辅助田间试验。为了揭示界面处的微观过程,利用微 X 射线荧光映射技术对大飞扬草根的切片进行了研究。利用 Zn K 边的 X 射线吸收光谱、X 射线衍射和扫描电子显微镜对根和根际材料进行了检查。结果表明,所有被调查样本都具有一些共同特征。(i)在大飞扬草的根际中,发现 Zn 存在于不同的相中。(ii)Si 和 Al 主要集中在根表皮的边缘。(iii)Zn 主要储存在根表皮中,似乎没有与有机分子配位,主要存在于 Zn 硅酸盐等矿物相中。我们推断,大飞扬草根显著促进了根际中矿物质的演化。同时,该植物利用土壤矿物提取的 Si 和 Al 构建了一个生物矿化边缘,可以捕获 Zn。这种 Zn 硅酸盐生物矿化对植物修复技术和进一步的生物技术发展具有相关意义,在获得控制矿物质演化和生物矿化过程的分子过程的具体知识后,可以更好地设计和开发这些技术。
