Effect of Phytoaccumulation of Arsenic and Chromium on Structural and Ultrastructural Changes of Brake Fern (Pteris vittata)

B. Sridhar, F. Han, S. Diehl, D. Monts, Yi Su
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引用次数: 43

Abstract

Structural and ultrastructural changes caused by bioaccumulation of As and Cr in brake fern (Pteris vittata), a known arsenic hyperaccumulator, were investigated. Potted plants of brake fern were exposed to metal treatments of As and Cr for three weeks. Leaf, stem and root samples were collected periodically and fixed for LM (Light Microscopy), SEM (Scanning Electron Microscopy) and TEM (Transmission Electron Microscopy) to evaluate anatomical changes. The fresh weights, dry weights, RWC (Relative Water Content) and plant heights were obtained before the brake fern plants were harvested for metal accumulation analysis. The As accumulated mainly in the shoots while Cr accumulated mainly in the roots of the metal-treated plants. Significant changes in the ferns physical characters, including fresh weight, dry weight, RWC, and plant height were observed for only Cr-treated plants but not for As-treated plants. Microscopic studies reveal the Cr accumulation resulted in dehydration and collapse of internal structure of leaves and cellular breakdown of roots. The As-treated plants showed no significant structural changes in leaves, stems and roots compared to control plants. Clotted depositions were observed in roots and stems of plant groups treated with highest concentration of Cr and As when compared to control (T0) group. Our study indicates that Cr has a profound impact on physiology and structure of fern plants. The accumulation of Cr resulted in decrease in growth rate, total biomass and RWC. We believe that brake fern plants can uptake, translocate and sequester As because it caused no significant structural changes in leaves, stems and roots of the plants.
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砷和铬的植物积累对蕨类植物结构和超微结构变化的影响
研究了砷超富集植物刹车蕨(Pteris vittata)对砷和铬的生物富集对其结构和超微结构的影响。对蕨类盆栽植物进行砷、铬金属处理3周。定期采集叶、茎、根标本,固定在LM(光镜)、SEM(扫描电子显微镜)和TEM(透射电子显微镜)下观察解剖变化。在收获前测定其鲜重、干重、相对含水量(RWC)和株高,进行金属积累分析。金属处理植株的As主要在茎部积累,Cr主要在根系积累。cr处理的蕨类植物鲜重、干重、RWC和株高等物理性状发生显著变化,而as处理的蕨类植物无显著变化。微观研究表明,Cr的积累导致叶片内部结构的脱水和崩溃,以及根系的细胞破坏。与对照植株相比,砷处理植株的叶、茎、根结构均无明显变化。与对照(T0)组相比,高浓度Cr和As处理组的根和茎均出现了凝块沉积。我们的研究表明,Cr对蕨类植物的生理和结构有深远的影响。Cr的积累导致生长速率、总生物量和RWC下降。我们认为制动蕨类植物对砷的吸收、转运和固存是由于制动蕨类植物的叶、茎和根没有发生明显的结构变化。
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