Int J Phytoremediation. 2014;16(7-12):1073-86. doi: 10.1080/15226514.2013.810584.
In order to gain knowledge on the potential use of Helianthus annuus L. for the remediation of Cr(VI) polluted waters, hydroponics experiments were set up to determine Cr uptake and tolerance in different Cr(VI)-sulfate conditions, and Cr biotransformations. Results indicated that Cr(VI) promoted seed germination, and plant tolerance was higher at younger plant stages. Cr uptake was dependent on sulfate concentrations. The highest Cr levels in roots and shoots (13,700 and 2,500 mg kg(-1) dry weight (DW), respectively) were obtained in 1 mM sulfate. The lowest Cr uptake in roots (10,600 mg kg(-1) DW) was observed in seedlings treated with no sulfate. In shoots, Cr concentration was of 1,500 mg kg(-1)DW for the 1 mM sulfate treatment, indicating a different level of interaction between chromate and sulfate in both tissues. For the first time, using micro X-ray florescence (muXRF), we demonstrated Cr reaches the root stele and is located in the walls of xylem vessels. Bulk and micro X-ray Absorption Near-Edge Structure (muXANES) results showed that Cr in the roots is mostly in the form of Cr(III) phosphate (80%), with the remainder complexed to organic acids. Our results suggest this plant species may serve for Cr(VI) rhizofiltration purposes.
为了研究向日葵(Helianthus annuus L.)在修复六价铬(Cr(VI))污染水体方面的潜在应用,我们进行了水培实验,以确定不同 Cr(VI)-硫酸盐条件下植物对 Cr 的吸收和耐受能力,以及 Cr 的生物转化。结果表明,Cr(VI)促进了种子萌发,且在植物幼苗期的耐受性更高。Cr 的吸收取决于硫酸盐浓度。在 1 mM 硫酸盐条件下,根和地上部分的 Cr 含量最高(分别为 13700 和 2500 mg kg(-1)干重 (DW))。在没有硫酸盐处理的幼苗中,根中 Cr 的吸收量最低(10600 mg kg(-1) DW)。在地上部分,1 mM 硫酸盐处理的 Cr 浓度为 1500 mg kg(-1) DW,表明铬酸盐和硫酸盐在两种组织中的相互作用程度不同。首次利用微束 X 射线荧光(muXRF)技术,我们证明了 Cr 到达根中柱,并位于木质部导管的壁中。宏观和微观 X 射线吸收近边结构(muXANES)结果表明,根中的 Cr 主要以 Cr(III)磷酸盐(80%)的形式存在,其余部分与有机酸结合。我们的结果表明,这种植物可能适用于 Cr(VI)的根滤作用。
